eot2024/seed-lists/sitemap-url-seeds/jgi_doe_gov.txt

http://jgi.doe.gov/attachment-sitemap.xml
http://jgi.doe.gov/attachment-sitemap2.xml
http://jgi.doe.gov/attachment-sitemap3.xml
http://jgi.doe.gov/author-sitemap.xml
http://jgi.doe.gov/category-sitemap.xml
http://jgi.doe.gov/jgi_fiscal_year-sitemap.xml
http://jgi.doe.gov/jgi_publication-sitemap.xml
http://jgi.doe.gov/jgi_publication-sitemap2.xml
http://jgi.doe.gov/jgi_publication-sitemap3.xml
http://jgi.doe.gov/jgi_publication-sitemap4.xml
http://jgi.doe.gov/page-sitemap.xml
http://jgi.doe.gov/post-sitemap.xml
http://jgi.doe.gov/post-sitemap2.xml
http://jgi.doe.gov/post-sitemap3.xml
http://jgi.doe.gov/post_tag-sitemap.xml
https://jgi.doe.gov/
https://jgi.doe.gov/042715-launching-the-jgi-diversity-inclusion-initiative/
https://jgi.doe.gov/053018-jgi-safety-wellness-fair-in-the-shadelands/
https://jgi.doe.gov/053018-jgi-safety-wellness-fair-in-the-shadelands/jgi-swell-arf-thumb/
https://jgi.doe.gov/053018-jgi-safety-wellness-fair-in-the-shadelands/jgi-swell-arf/
https://jgi.doe.gov/053018-jgi-safety-wellness-fair-in-the-shadelands/jgi-swell-fairs/
https://jgi.doe.gov/053018-jgi-safety-wellness-fair-in-the-shadelands/jgi-swell-gardeners/
https://jgi.doe.gov/053018-jgi-safety-wellness-fair-in-the-shadelands/jgi-swell-honey/
https://jgi.doe.gov/053018-jgi-safety-wellness-fair-in-the-shadelands/jgi-swell-republic/
https://jgi.doe.gov/053018-jgi-safety-wellness-fair-in-the-shadelands/jgi-swell-stretch/
https://jgi.doe.gov/053018-jgi-safety-wellness-fair-in-the-shadelands/jgi-swellteam/
https://jgi.doe.gov/053018-jgi-safety-wellness-fair-in-the-shadelands/swell-psa-screencap/
https://jgi.doe.gov/082919-panel-startups-synthetic-biology/
https://jgi.doe.gov/082919-panel-startups-synthetic-biology/flat_5-golden-helices_istock-1127212818-1/
https://jgi.doe.gov/0918-jgi-program-manager-daniel-drell-retires/
https://jgi.doe.gov/0918-jgi-program-manager-daniel-drell-retires/ramana-madupu-img_7078-2/
https://jgi.doe.gov/0918-jgi-program-manager-daniel-drell-retires/wblog-drell-richardson-at-nufo-2014/
https://jgi.doe.gov/0918-jgi-program-manager-daniel-drell-retires/wblog-drell_smith_um11/
https://jgi.doe.gov/0918-jgi-program-manager-daniel-drell-retires/wblog-persisdrell-dan_drell-jgi-2011-um6/
https://jgi.doe.gov/0918-jgi-program-manager-daniel-drell-retires/wblog-todd-anderson-dan-drell-nigel-mouncey-um13/
https://jgi.doe.gov/0918-jgi-program-manager-daniel-drell-retires/xbd201203-00114-053-tif/
https://jgi.doe.gov/10-projects-supported-by-joint-doe-user-facility-initiative/
https://jgi.doe.gov/10-projects-supported-by-joint-doe-user-facility-initiative/microsoft-word-data-from-mail-merge-6-1-16-docx-2/
https://jgi.doe.gov/10-projects-supported-by-joint-doe-user-facility-initiative/microsoft-word-data-from-mail-merge-6-1-16-docx-3/
https://jgi.doe.gov/10-projects-supported-by-joint-doe-user-facility-initiative/microsoft-word-data-from-mail-merge-6-1-16-docx/
https://jgi.doe.gov/100-rhizobium-genomes-project-on-inras-mycorweb-page/
https://jgi.doe.gov/1000-fungal-genomes-project-in-the-daily-barometer/
https://jgi.doe.gov/1000-fungal-genomes/
https://jgi.doe.gov/1000-microbial-genomes-phase-4/
https://jgi.doe.gov/10983-2/
https://jgi.doe.gov/2006-2016-poplar-genome-10-anniversary/
https://jgi.doe.gov/2006-2016-poplar-genome-10-anniversary/091516-shawn-mansfield-ubc-re-poplar/
https://jgi.doe.gov/2006-2016-poplar-genome-10-anniversary/difazio/
https://jgi.doe.gov/2006-2016-poplar-genome-10-anniversary/shawn-mansfield-ubc/
https://jgi.doe.gov/2006-2016-poplar-genome-10-anniversary/xbd200609-00374-08-tif/
https://jgi.doe.gov/2010-doe-jgi-user-meeting-on-genomeweb/
https://jgi.doe.gov/2010-ergo-cup-award-on-medical-news-today/
https://jgi.doe.gov/2013-federal-budget-proposal-in-genomeweb-daily-news/
https://jgi.doe.gov/2015-call-for-etop-letters-of-intent/
https://jgi.doe.gov/2015-jgi-science-portfolio-delves-deeper-into-the-earths-data-mine/
https://jgi.doe.gov/2015-jgi-science-portfolio-delves-deeper-into-the-earths-data-mine/agaricales_jmbarrasa/
https://jgi.doe.gov/2015-jgi-science-portfolio-delves-deeper-into-the-earths-data-mine/agaricales_jmbarrasa1/
https://jgi.doe.gov/2015-jgi-science-portfolio-delves-deeper-into-the-earths-data-mine/collage-of-brachy-mutant-pictures-for-announcement-pptx/
https://jgi.doe.gov/2015-jgi-science-portfolio-delves-deeper-into-the-earths-data-mine/davidmcspaddentuleelk1ccby2-0_570/
https://jgi.doe.gov/2015-jgi-science-portfolio-delves-deeper-into-the-earths-data-mine/poplar-plantation-boardman-or/
https://jgi.doe.gov/2015-jgi-science-portfolio-delves-deeper-into-the-earths-data-mine/xbd201407-00921-20-tif/
https://jgi.doe.gov/2017-jgi-community-science-program-stress-bioenergy-interactions/
https://jgi.doe.gov/2017-jgi-community-science-program-stress-bioenergy-interactions/bluestem_jschmutz/
https://jgi.doe.gov/2017-jgi-community-science-program-stress-bioenergy-interactions/iceplant_wikipediaslideshow/
https://jgi.doe.gov/2017-jgi-community-science-program-stress-bioenergy-interactions/iceplantzoom_wikipedia/
https://jgi.doe.gov/2017-jgi-community-science-program-stress-bioenergy-interactions/larry_smart_rustpustules_2015-09-05_0040_edited-1/
https://jgi.doe.gov/2017-jgi-community-science-program-stress-bioenergy-interactions/lr_aitken_sugarcane-cultivar-2/
https://jgi.doe.gov/2017-jgi-community-science-program-stress-bioenergy-interactions/mortierella_bonito/
https://jgi.doe.gov/2017-jgi-community-science-program-stress-bioenergy-interactions/physalmimine_dopson/
https://jgi.doe.gov/2017-jgi-community-science-program-stress-bioenergy-interactions/sugarcane_aitkenwikipedia/
https://jgi.doe.gov/2017-jgi-community-science-program-stress-bioenergy-interactions/wsuillus-cavipes/
https://jgi.doe.gov/2017-jgi-community-science-program-stress-bioenergy-interactions/yucca_wikipedia/
https://jgi.doe.gov/2018-jgi-csp-community-science-program-approved-proposals-announced/
https://jgi.doe.gov/2018-jgi-csp-community-science-program-approved-proposals-announced/olympus-digital-camera-10/
https://jgi.doe.gov/2018-jgi-csp-community-science-program-approved-proposals-announced/wpic-banfield-j-img_20160920_152948/
https://jgi.doe.gov/2018-jgi-csp-community-science-program-approved-proposals-announced/wpic-bhaya-csp-1-octopus_1/
https://jgi.doe.gov/2018-jgi-csp-community-science-program-approved-proposals-announced/wpic-duplessis-csp-rusts_pics/
https://jgi.doe.gov/2018-jgi-csp-community-science-program-approved-proposals-announced/wpic-fukami-t-4-mimulus-yeast-013-e-lowres/
https://jgi.doe.gov/2018-jgi-csp-community-science-program-approved-proposals-announced/wpic-garre-v-csp-mucor_1/
https://jgi.doe.gov/2018-jgi-csp-community-science-program-approved-proposals-announced/wpic-uren-j-csp-morphological_diversity_fig/
https://jgi.doe.gov/2021-jgi-proposal-call-brings-new-investigators-into-community-science-program/
https://jgi.doe.gov/2021-jgi-proposal-call-brings-new-investigators-into-community-science-program/1200-csp21-hatzenpichler-paint-pot-unnamed/
https://jgi.doe.gov/2021-jgi-proposal-call-brings-new-investigators-into-community-science-program/1200-csp21-high_oleic_pennycress_st_paul_2020_chopra/
https://jgi.doe.gov/2021-jgi-proposal-call-brings-new-investigators-into-community-science-program/1200-csp21-mock-cover_tpc_sand/
https://jgi.doe.gov/2021-jgi-proposal-call-brings-new-investigators-into-community-science-program/1200-csp21-proposal_image_bhattacharya/
https://jgi.doe.gov/2021-jgi-proposal-call-brings-new-investigators-into-community-science-program/1200-csp21-spietz-img_20180203_084137126_hdr-pano/
https://jgi.doe.gov/2021-jgi-proposal-call-brings-new-investigators-into-community-science-program/1200-csp21-wommack-fig1_gradients/
https://jgi.doe.gov/2021-jgi-proposal-call-brings-new-investigators-into-community-science-program/csp21-cosgrove-expansin-cell_wall/
https://jgi.doe.gov/2021-jgi-uc-merced-interns-share-experiences/
https://jgi.doe.gov/2021-jgi-uc-merced-interns-share-experiences/beryl-arinda-1000/
https://jgi.doe.gov/2021-jgi-uc-merced-interns-share-experiences/clarence-le-200/
https://jgi.doe.gov/2021-jgi-uc-merced-interns-share-experiences/cristian-espinosa-1000/
https://jgi.doe.gov/2021-jgi-uc-merced-interns-share-experiences/emre-kusakci-1000/
https://jgi.doe.gov/2021-jgi-uc-merced-interns-share-experiences/fogler-truman-1000/
https://jgi.doe.gov/2021-jgi-uc-merced-interns-share-experiences/jacob-espinosa2-500/
https://jgi.doe.gov/2021-jgi-uc-merced-interns-share-experiences/jimmy-nunez-1000/
https://jgi.doe.gov/2021-jgi-uc-merced-interns-share-experiences/laura-blum-1000/
https://jgi.doe.gov/2021-jgi-uc-merced-interns-share-experiences/lindsay-rappaport-1000/
https://jgi.doe.gov/2021-jgi-uc-merced-interns-share-experiences/lorenzo-scaturchio-1000/
https://jgi.doe.gov/2021-jgi-uc-merced-interns-share-experiences/lucia-bazan-williamson-450/
https://jgi.doe.gov/2021-jgi-uc-merced-interns-share-experiences/maria-mendoza-500/
https://jgi.doe.gov/2021-jgi-uc-merced-interns-share-experiences/oscal-davalos-1000/
https://jgi.doe.gov/2021-jgi-uc-merced-interns-share-experiences/paul-nicolopoulos-500/
https://jgi.doe.gov/2021-jgi-uc-merced-interns-share-experiences/rahul-ravi-1000/
https://jgi.doe.gov/2021-jgi-uc-merced-interns-share-experiences/sandra-chacon-1000/
https://jgi.doe.gov/2021-jgi-uc-merced-interns-share-experiences/sean-saki-1000/
https://jgi.doe.gov/2021-jgi-uc-merced-interns-share-experiences/sierra-roberts-1000/
https://jgi.doe.gov/2024-jgi-strategic-plan/
https://jgi.doe.gov/2024-jgi-strategic-plan/2024-jgi-strategic-plan-cover/
https://jgi.doe.gov/2024-jgi-strategic-plan/2024-jgi-strategic-plan-fig1/
https://jgi.doe.gov/2406-2/
https://jgi.doe.gov/2406-2/marinevirus/
https://jgi.doe.gov/28606-2/
https://jgi.doe.gov/310/
https://jgi.doe.gov/32-papers-in-one-day-encode-projects-first-reports/
https://jgi.doe.gov/5-geeky-fun-wallet-friendly-weekend-escapes/
https://jgi.doe.gov/633/
https://jgi.doe.gov/70-projects-in-jgis-2010-pipeline/
https://jgi.doe.gov/713/
https://jgi.doe.gov/82/
https://jgi.doe.gov/?attachment_id=10926
https://jgi.doe.gov/?attachment_id=10927
https://jgi.doe.gov/?attachment_id=10928
https://jgi.doe.gov/?attachment_id=10930
https://jgi.doe.gov/?attachment_id=10931
https://jgi.doe.gov/?attachment_id=10932
https://jgi.doe.gov/?attachment_id=10961
https://jgi.doe.gov/?attachment_id=10963
https://jgi.doe.gov/?attachment_id=11263
https://jgi.doe.gov/?attachment_id=11484
https://jgi.doe.gov/?attachment_id=15154
https://jgi.doe.gov/?attachment_id=17439
https://jgi.doe.gov/?attachment_id=17828
https://jgi.doe.gov/?attachment_id=20411
https://jgi.doe.gov/?attachment_id=23376
https://jgi.doe.gov/?attachment_id=28653
https://jgi.doe.gov/?attachment_id=28654
https://jgi.doe.gov/?attachment_id=28655
https://jgi.doe.gov/?attachment_id=28666
https://jgi.doe.gov/a-better-way-to-find-rna-virus-needles-in-the-proverbial-database-haystacks/
https://jgi.doe.gov/a-better-way-to-find-rna-virus-needles-in-the-proverbial-database-haystacks/rvmt_graphabstract_forjgi-copy_sr/
https://jgi.doe.gov/a-brachypodium-encode-like-project/
https://jgi.doe.gov/a-collaboration-to-improve-plant-genome-annotations-across-species/
https://jgi.doe.gov/a-collaboration-to-improve-plant-genome-annotations-across-species/_jgi-plant-gene-atlas-collage/
https://jgi.doe.gov/a-collaboration-to-improve-plant-genome-annotations-across-species/avinashsreedasyam-4x5/
https://jgi.doe.gov/a-complex-confection-decoded-sugarcane-reference-genome/
https://jgi.doe.gov/a-complex-confection-decoded-sugarcane-reference-genome/sugarcane-genespace_healey-and-lovell/
https://jgi.doe.gov/a-complex-confection-decoded-sugarcane-reference-genome/sugarcanefield_mitr-phol-cc-by-nd-2-0/
https://jgi.doe.gov/a-gluttonous-plant-reveals-how-its-cellular-power-plant-devours-foreign-dna/
https://jgi.doe.gov/a-gluttonous-plant-reveals-how-its-cellular-power-plant-devours-foreign-dna/news_13_12_20-1/
https://jgi.doe.gov/a-gluttonous-plant-reveals-how-its-cellular-power-plant-devours-foreign-dna/news_13_12_20-2/
https://jgi.doe.gov/a-journey-through-the-evolution-of-the-mitochondria-internship-a-sequential-read/
https://jgi.doe.gov/a-journey-through-the-evolution-of-the-mitochondria-internship-a-sequential-read/21-jgi-ucm-kickoff-team-photo-1/
https://jgi.doe.gov/a-journey-through-the-evolution-of-the-mitochondria-internship-a-sequential-read/21-jgi-ucm-kickoff-team-photo-2/
https://jgi.doe.gov/a-journey-through-the-evolution-of-the-mitochondria-internship-a-sequential-read/picture3-1/
https://jgi.doe.gov/a-mentors-perspective-on-training-the-next-generation/
https://jgi.doe.gov/a-mentors-perspective-on-training-the-next-generation/headshot-zw2023/
https://jgi.doe.gov/a-mentors-perspective-on-training-the-next-generation/img_2395/
https://jgi.doe.gov/a-mentors-perspective-on-training-the-next-generation/winterns-coffee-with-zhong-image-768x469/
https://jgi.doe.gov/a-mentors-perspective-on-training-the-next-generation/xbd201408-01011-03-tif/
https://jgi.doe.gov/a-natural-mechanism-can-turbocharge-viral-evolution/
https://jgi.doe.gov/a-natural-mechanism-can-turbocharge-viral-evolution/crage-scihi-featured-images-003-copy/
https://jgi.doe.gov/a-natural-mechanism-can-turbocharge-viral-evolution/dgr-scihi-featured-images-001-copy/
https://jgi.doe.gov/a-natural-mechanism-can-turbocharge-viral-evolution/phage-diversify-2-2/
https://jgi.doe.gov/a-natural-mechanism-can-turbocharge-viral-evolution/phage-diversify-2/
https://jgi.doe.gov/a-natural-mechanism-can-turbocharge-viral-evolution/rasor-scihi-featured-images-002-copy/
https://jgi.doe.gov/a-new-technique-for-microbial-genome-assembly/
https://jgi.doe.gov/a-new-technique-for-microbial-genome-assembly/atpb/
https://jgi.doe.gov/a-niger-genome-project-on-the-bioenergy-site/
https://jgi.doe.gov/a-novel-technique-for-studying-nitrifiers/
https://jgi.doe.gov/a-pathobiome-database-for-bioenergy-trees/
https://jgi.doe.gov/a-personal-stamp-on-the-igb/
https://jgi.doe.gov/a-personal-stamp-on-the-igb/20180622_488-1/
https://jgi.doe.gov/a-personal-stamp-on-the-igb/beamsigning-video-title/
https://jgi.doe.gov/a-personal-stamp-on-the-igb/c570-20180622_488-1/
https://jgi.doe.gov/a-personal-stamp-on-the-igb/xbd/
https://jgi.doe.gov/a-science-illustrators-take-on-the-doe-jgi-2012-genomics-of-energy-environment-meeting/
https://jgi.doe.gov/a-window-into-fungal-endophytism/
https://jgi.doe.gov/a-window-into-fungal-endophytism/lr-rubber-tree-marco-simola-for-cifor-cc-by-nc-2/
https://jgi.doe.gov/aaas-2015-exploring-uncultivable-microbes/
https://jgi.doe.gov/aamu-interns-access-an-abundance-of-knowledge/
https://jgi.doe.gov/aamu-interns-access-an-abundance-of-knowledge/20240807-aamu-suli-poster-session-img_8218-copy/
https://jgi.doe.gov/about-us/
https://jgi.doe.gov/about-us/10-year-jgi-strategic-vision/
https://jgi.doe.gov/about-us/2016_january_jgi_strategic_planning_update/
https://jgi.doe.gov/about-us/2016_jgi_factsheet_update/
https://jgi.doe.gov/about-us/2018_jgi-factsheet-update/
https://jgi.doe.gov/about-us/2019_jgi-strategic-plan/
https://jgi.doe.gov/about-us/advisory-and-review-committees/
https://jgi.doe.gov/about-us/advisory-and-review-committees/fungal-program-user-advisory-committee/
https://jgi.doe.gov/about-us/advisory-and-review-committees/informatics-advisory-committee-iac/
https://jgi.doe.gov/about-us/advisory-and-review-committees/jgi-advisory-committees-code-of-conduct/
https://jgi.doe.gov/about-us/advisory-and-review-committees/jgi-user-executive-committee-uec/
https://jgi.doe.gov/about-us/advisory-and-review-committees/jgi-user-executive-committee-uec/deangelis-cropped-2/
https://jgi.doe.gov/about-us/advisory-and-review-committees/jgi-user-executive-committee-uec/deangelis-cropped/
https://jgi.doe.gov/about-us/advisory-and-review-committees/jgi-user-executive-committee-uec/giovannoni-2/
https://jgi.doe.gov/about-us/advisory-and-review-committees/jgi-user-executive-committee-uec/giovannoni/
https://jgi.doe.gov/about-us/advisory-and-review-committees/jgi-user-executive-committee-uec/greenham-headshot-2/
https://jgi.doe.gov/about-us/advisory-and-review-committees/jgi-user-executive-committee-uec/greenham-headshot/
https://jgi.doe.gov/about-us/advisory-and-review-committees/jgi-user-executive-committee-uec/hess-matthias-2020-2/
https://jgi.doe.gov/about-us/advisory-and-review-committees/jgi-user-executive-committee-uec/hess-matthias-2020/
https://jgi.doe.gov/about-us/advisory-and-review-committees/jgi-user-executive-committee-uec/james-timothy-2/
https://jgi.doe.gov/about-us/advisory-and-review-committees/jgi-user-executive-committee-uec/james-timothy/
https://jgi.doe.gov/about-us/advisory-and-review-committees/jgi-user-executive-committee-uec/kostantinidis-2/
https://jgi.doe.gov/about-us/advisory-and-review-committees/jgi-user-executive-committee-uec/kostantinidis/
https://jgi.doe.gov/about-us/advisory-and-review-committees/jgi-user-executive-committee-uec/michelle-omalley/
https://jgi.doe.gov/about-us/advisory-and-review-committees/jgi-user-executive-committee-uec/mnrosso_picture/
https://jgi.doe.gov/about-us/advisory-and-review-committees/jgi-user-executive-committee-uec/screenshot-2023-01-12-at-9-53-15-am/
https://jgi.doe.gov/about-us/advisory-and-review-committees/jgi-user-executive-committee-uec/screenshot-2023-01-12-at-9-55-50-am/
https://jgi.doe.gov/about-us/advisory-and-review-committees/jgi-user-executive-committee-uec/screenshot-2023-01-12-at-9-57-38-am/
https://jgi.doe.gov/about-us/advisory-and-review-committees/jgi-user-executive-committee-uec/wrighton/
https://jgi.doe.gov/about-us/advisory-and-review-committees/plant-program-user-advisory-committee/
https://jgi.doe.gov/about-us/advisory-and-review-committees/prokaryotic-super-program-advisory-committee/
https://jgi.doe.gov/about-us/advisory-and-review-committees/scientific-advisory-committee-sac/
https://jgi.doe.gov/about-us/advisory-and-review-committees/secondary-metabolites-advisory-committee-smac/
https://jgi.doe.gov/about-us/advisory-and-review-committees/synthetic-biology-advisory-committee/
https://jgi.doe.gov/about-us/diversity/
https://jgi.doe.gov/about-us/diversity/diversity-working-group/
https://jgi.doe.gov/about-us/diversity/diversity-working-group/jgi-diversity-inclusion-advisory-board/
https://jgi.doe.gov/about-us/diversity/diversitystem/
https://jgi.doe.gov/about-us/diversity/jgi-dei-advisory-board-working-group-2018-oct/
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https://jgi.doe.gov/an-inside-look-at-how-plants-and-mycorrhizal-fungi-cooperate/
https://jgi.doe.gov/an-inside-look-at-how-plants-and-mycorrhizal-fungi-cooperate/final-jgi-transcriptomics-filmstrip/
https://jgi.doe.gov/an-inside-look-at-how-plants-and-mycorrhizal-fungi-cooperate/natplants-square-strip/
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https://jgi.doe.gov/an-inside-look-at-how-plants-and-mycorrhizal-fungi-cooperate/natureplants-04-2024-cover/
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https://jgi.doe.gov/an-integrated-dataset-to-understand-ecosystem-interaction/
https://jgi.doe.gov/anaerobic-fungi-for-biogas-production/
https://jgi.doe.gov/ancient-algae-reveal-secrets-of-plant-evolution/
https://jgi.doe.gov/ancient-algae-reveal-secrets-of-plant-evolution/2024-10_algal_natgen_v1-tem-of-sag698-1b/
https://jgi.doe.gov/announcement-2023-functional-genomics/
https://jgi.doe.gov/announcement-2023-functional-genomics/ledeimage_fg23q4/
https://jgi.doe.gov/announcement-2023hcr/
https://jgi.doe.gov/announcement-2023hcr/hcr-2023-for-web/
https://jgi.doe.gov/announcement-2024-cspni/
https://jgi.doe.gov/announcement-2024-cspni/image_ni2024_final-1/
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https://jgi.doe.gov/announcement-2024cspannualcall/
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https://jgi.doe.gov/announcement-csp-functional-genomics-2024/
https://jgi.doe.gov/announcement-csp-functional-genomics-2024/ledeimage_cspfg24/
https://jgi.doe.gov/announcement-fy25-csp-annual/
https://jgi.doe.gov/announcement-fy25-csp-annual/fy25cspls_ledeimage_annual/
https://jgi.doe.gov/ant-model-for-ecosystem-functions/
https://jgi.doe.gov/anuvia-taps-jgi-expertise-beneficial-soil-microbes/
https://jgi.doe.gov/anuvia-taps-jgi-expertise-beneficial-soil-microbes/w-crops_-usaid-photo-by-bita-rodriguez/
https://jgi.doe.gov/arabidopsis-lyrata-genome-project-in-genomeweb/
https://jgi.doe.gov/arabidopsis-root-microbiome-project-in-genomeweb-daily-news/
https://jgi.doe.gov/arabidopsis-root-microbiome-project-release-from-university-of-queensland/
https://jgi.doe.gov/archael-transcriptome-map-on-genomeweb/
https://jgi.doe.gov/archived-educator-resources/
https://jgi.doe.gov/archived-educator-resources/assembly-exercise/
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https://jgi.doe.gov/archived-educator-resources/assembly-exercise/computer-demo/
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https://jgi.doe.gov/archived-educator-resources/assembly-exercise/teacher-instructions/assemblyposter/
https://jgi.doe.gov/archived-educator-resources/bioscriber/
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https://jgi.doe.gov/archived-educator-resources/sanger-sequencing-archive/how-sanger-sequencing-is-done/step-4-sub-cloning-the-sheared-fragment/
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https://jgi.doe.gov/arctic-microbial-community-diversity/
https://jgi.doe.gov/armillaria-white-rot-fungi-size-explained-gene-families/
https://jgi.doe.gov/armillaria-white-rot-fungi-size-explained-gene-families/armillaria-forest-fungi-virag-tomity/
https://jgi.doe.gov/armillaria-white-rot-fungi-size-explained-gene-families/armillaria-fungi-in-the-forest-virag-tomity/
https://jgi.doe.gov/ascomycete-fungi-carbon-cycle/
https://jgi.doe.gov/aspergillus-all-in-the-family-focused-genomic-comparisons/
https://jgi.doe.gov/aspergillus-all-in-the-family-focused-genomic-comparisons/a17122de-e9db-40e8-b562-ac934fed5468/
https://jgi.doe.gov/aspergillus-all-in-the-family-focused-genomic-comparisons/mikael_andersen-um2017/
https://jgi.doe.gov/asr-pathogen-reference-genome/
https://jgi.doe.gov/assembling-plant-microbiomes/
https://jgi.doe.gov/assembling-plant-microbiomes/arabidopsis_keithwellerusda-2/
https://jgi.doe.gov/at-your-service-jgi-synthesizes-dna-for-you/
https://jgi.doe.gov/at-your-service-jgi-synthesizes-dna-for-you/weaving-2/
https://jgi.doe.gov/at-your-service-jgi-synthesizes-dna-for-you/weaving/
https://jgi.doe.gov/at-your-service-jgi-synthesizes-dna-for-you/zhiying-jean-zhao-in-yasuo-88-00_04_47_19-still0190005406/
https://jgi.doe.gov/aureococcus-genome-project-in-knoxville-news-sentinel/
https://jgi.doe.gov/aureococcus-genome-project-in-sify-news/
https://jgi.doe.gov/aureococcus-genome-project-on-dailyindia-com/
https://jgi.doe.gov/aureococcus-genome-project-on-newswise/
https://jgi.doe.gov/aureococcus-genome-project-on-redorbit/
https://jgi.doe.gov/author/aftakemura/
https://jgi.doe.gov/author/ajoy/
https://jgi.doe.gov/author/ashleigh-papp/
https://jgi.doe.gov/author/brooke-goodenough/
https://jgi.doe.gov/author/david-gilbert/
https://jgi.doe.gov/author/gbrutherford/
https://jgi.doe.gov/author/jgi/
https://jgi.doe.gov/author/menaka-wilhelm/
https://jgi.doe.gov/author/mlballon/
https://jgi.doe.gov/author/terri-bartolome/
https://jgi.doe.gov/automating-microbial-genome-sequence-decontamination/
https://jgi.doe.gov/automating-microbial-genome-sequence-decontamination/prodege-screenshot-2015/
https://jgi.doe.gov/automating-microbial-genome-sequence-decontamination/prodege_team2_web/
https://jgi.doe.gov/automating-microbial-genome-sequence-decontamination/prodege_team_web/
https://jgi.doe.gov/automating-selection-process-genome-assembler/
https://jgi.doe.gov/automating-selection-process-genome-assembler/nucleotides1/
https://jgi.doe.gov/award-for-does-magellan-cloud-computing-project/
https://jgi.doe.gov/b-braunii-algae-project-on-redorbit/
https://jgi.doe.gov/b-braunii-algal-genome-project-on-checkbiotech-org/
https://jgi.doe.gov/b-braunii-algal-genome-project-on-physorg-com/
https://jgi.doe.gov/back-in-the-lab-the-2023-summer-intern-experience/
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https://jgi.doe.gov/bacteria-fungi-divvy-up-work-in-forest-floor-ficus/olympus-digital-camera-16/
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https://jgi.doe.gov/bacterial-carbon-sulfur-cycling-coastal-environment/
https://jgi.doe.gov/bacterial-symbionts-of-gutless-marine-worms/
https://jgi.doe.gov/banfield-collaboration-in-quanta-magazine/
https://jgi.doe.gov/barley-selected-as-a-csp-2011-project/
https://jgi.doe.gov/baselining-antarctic-microbial-communities/
https://jgi.doe.gov/bay-area-labs-rake-in-stimulus/
https://jgi.doe.gov/bay-area-national-labs-get-new-recovery-act-funding/
https://jgi.doe.gov/benchmarking-computational-methods-metagenomes/
https://jgi.doe.gov/benchmarking-computational-methods-metagenomes/cami-600/
https://jgi.doe.gov/benchmarking-computational-methods-metagenomes/partial-results-cami-assemblers/
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https://jgi.doe.gov/berkeley-lab-nsbe-41-convention/
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https://jgi.doe.gov/berkeley-lab-seeking-licensees-in-genomeweb/
https://jgi.doe.gov/berkeley-labs-additional-40-3m-arra-funding-benefits-doe-jgi/
https://jgi.doe.gov/berkeley-labs-requirements-for-second-campus-in-san-francisco-business-times/
https://jgi.doe.gov/better-genome-editing-for-bioenergy/
https://jgi.doe.gov/better-genome-editing-for-bioenergy/cory-schwartz/
https://jgi.doe.gov/better-genome-editing-for-bioenergy/yarrowia-hal-alper/
https://jgi.doe.gov/better-genome-editing-for-bioenergy/yarrowia_alper/
https://jgi.doe.gov/better-microbial-genome-binning-with-metabat/
https://jgi.doe.gov/better-microbial-genome-binning-with-metabat/metabat/
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https://jgi.doe.gov/biotech-partners-summer-intern-co-authors-nar-paper/kaushal_sharma/
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https://jgi.doe.gov/biotech-partners-summer-intern-co-authors-nar-paper/reddy_kaushal/
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https://jgi.doe.gov/boldly-illuminating-biologys-dark-matter/news_13_07_14-01-1/
https://jgi.doe.gov/boldly-illuminating-biologys-dark-matter/news_13_07_14-03/
https://jgi.doe.gov/boldly-illuminating-biologys-dark-matter/xbd201203-00115-38-tif/
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https://jgi.doe.gov/brachy-genome-project-on-daily-cal/
https://jgi.doe.gov/brachy-genome-project-on-federal-times/
https://jgi.doe.gov/brachy-genome-project-on-officialwire/
https://jgi.doe.gov/brachy-genome-project-on-sciencecentric/
https://jgi.doe.gov/brachy-genome-work-on-sciencedaily/
https://jgi.doe.gov/brachy-project-on-usda-ars-news-site/
https://jgi.doe.gov/brachypodium-distachyon-genome-work-on-sciencedaily/
https://jgi.doe.gov/brachypodium-genome-on-sciencedaily/
https://jgi.doe.gov/brachypodium-genome-project-collaborator-oregon-states-release/
https://jgi.doe.gov/brachypodium-genome-project-on-cordis/
https://jgi.doe.gov/brachypodium-genome-project-on-farm-futures/
https://jgi.doe.gov/brachypodium-genome-project-on-the-warsaw-voice/
https://jgi.doe.gov/brachypodium-genome-project-on-uc-newsroom/
https://jgi.doe.gov/brachypodium-genome-project-on-upi/
https://jgi.doe.gov/brachypodium-grasses-secrets-behind-stomatal-success/
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https://jgi.doe.gov/brachypodium-model-grass-genus-bioenergy/
https://jgi.doe.gov/brachypodium-one-reference-genome-not-enough/
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https://jgi.doe.gov/brachypodium-project-in-biofuels-digest/
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https://jgi.doe.gov/brachypodium-project/
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https://jgi.doe.gov/building-on-experience-with-a-twist/scrna-seq_workflow/
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https://jgi.doe.gov/doe-jgi-science-highlight-the-inner-workings-of-cyanobacteria-carbon-fixation/fly_geyser_image/
https://jgi.doe.gov/doe-jgi-science-highlights-a-bacterium-for-biohydrogen-production/
https://jgi.doe.gov/doe-jgi-science-highlights-a-bacterium-for-breaking-down-dioxins/
https://jgi.doe.gov/doe-jgi-science-highlights-a-fungal-pathogen-with-a-genetically-flexible-genome/
https://jgi.doe.gov/doe-jgi-science-highlights-a-fungal-pathogen-with-a-genetically-flexible-genome/5071586991_d270d99db5/
https://jgi.doe.gov/doe-jgi-science-highlights-a-gossypium-genome-to-cotton-on-to-cellulose-biosynthesis/
https://jgi.doe.gov/doe-jgi-science-highlights-a-gossypium-genome-to-cotton-on-to-cellulose-biosynthesis/gossypium_kphillips/
https://jgi.doe.gov/doe-jgi-science-highlights-a-highly-adaptable-bacterium-that-can-thrive-alone-or-in-symbiosis/
https://jgi.doe.gov/doe-jgi-science-highlights-a-mechanism-for-de-novo-intron-insertion/
https://jgi.doe.gov/doe-jgi-science-highlights-a-meraculous-way-to-conduct-whole-genome-assemblies/
https://jgi.doe.gov/doe-jgi-science-highlights-a-meraculous-way-to-conduct-whole-genome-assemblies/pichia_kuster/
https://jgi.doe.gov/doe-jgi-science-highlights-a-metagenomic-approach-to-analyzing-rice-endophytes/
https://jgi.doe.gov/doe-jgi-science-highlights-a-new-approach-for-improve-genome-assembly/
https://jgi.doe.gov/doe-jgi-science-highlights-a-peach-of-a-genome-with-breeding-lessons-for-biofuels-crops/
https://jgi.doe.gov/doe-jgi-science-highlights-a-peach-of-a-genome-with-breeding-lessons-for-biofuels-crops/peach_clemson/
https://jgi.doe.gov/doe-jgi-science-highlights-a-photosynthetic-pathway-for-mats-under-anoxic-conditions/
https://jgi.doe.gov/doe-jgi-science-highlights-a-photosynthetic-pathway-for-mats-under-anoxic-conditions/2201111566_4219100b5b/
https://jgi.doe.gov/doe-jgi-science-highlights-a-rotten-coaltastrophe/
https://jgi.doe.gov/doe-jgi-science-highlights-a-rotten-coaltastrophe/coal/
https://jgi.doe.gov/doe-jgi-science-highlights-a-toolkit-for-t-reesei/
https://jgi.doe.gov/doe-jgi-science-highlights-a-trace-elements-central-role-in-harmful-algal-blooms/
https://jgi.doe.gov/doe-jgi-science-highlights-a-trace-elements-central-role-in-harmful-algal-blooms/browntide-2/
https://jgi.doe.gov/doe-jgi-science-highlights-algal-lipid-pathways-linked-to-those-in-plants-and-fungi/
https://jgi.doe.gov/doe-jgi-science-highlights-an-alternative-surrogate-for-gene-discovery-in-switchgrass/
https://jgi.doe.gov/doe-jgi-science-highlights-analysis-of-a-tce-degrading-metagenome/
https://jgi.doe.gov/doe-jgi-science-highlights-analysis-of-a-tce-degrading-metagenome/dehalococcoides-2/
https://jgi.doe.gov/doe-jgi-science-highlights-analyzing-enzymes-for-a-pah-degradation-pathway/
https://jgi.doe.gov/doe-jgi-science-highlights-analyzing-the-role-of-dna-methylation-in-a-bioremediation-bacterium/
https://jgi.doe.gov/doe-jgi-science-highlights-analyzing-the-role-of-dna-methylation-in-a-bioremediation-bacterium/soneidensis-pnnl-r/
https://jgi.doe.gov/doe-jgi-science-highlights-another-brown-mercury-producer-genome-sequenced/
https://jgi.doe.gov/doe-jgi-science-highlights-arabidopsis-lyrata-reference-genome-now-available/
https://jgi.doe.gov/doe-jgi-science-highlights-arabidopsis-lyrata-reference-genome-now-available/alyrata/
https://jgi.doe.gov/doe-jgi-science-highlights-bacterial-lessons-in-rare-metal-recovery/
https://jgi.doe.gov/doe-jgi-science-highlights-bacterial-sequence-to-help-understand-ant-fungal-gardens/
https://jgi.doe.gov/doe-jgi-science-highlights-bacterial-sequence-to-help-understand-ant-fungal-gardens/leafcutterants/
https://jgi.doe.gov/doe-jgi-science-highlights-beetle-gut-microbes-bore-through-woody-tissues/
https://jgi.doe.gov/doe-jgi-science-highlights-beetle-gut-microbes-bore-through-woody-tissues/alb/
https://jgi.doe.gov/doe-jgi-science-highlights-bioinformatics-challenges-for-metagenomic-analyses/
https://jgi.doe.gov/doe-jgi-science-highlights-bioscriber-an-online-synthetic-biology-tutorial-debuts/
https://jgi.doe.gov/doe-jgi-science-highlights-bioscriber-an-online-synthetic-biology-tutorial-debuts/bioscriber-2/
https://jgi.doe.gov/doe-jgi-science-highlights-boosting-knowledge-of-nitrogen-fixing-bacteria/
https://jgi.doe.gov/doe-jgi-science-highlights-breaking-down-biomass-with-thermophilic-bacteria/
https://jgi.doe.gov/doe-jgi-science-highlights-breaking-down-biomass-with-thermophilic-bacteria/yellowstone/
https://jgi.doe.gov/doe-jgi-science-highlights-breaking-the-petabit-barrier-a-tweet-at-a-time/
https://jgi.doe.gov/doe-jgi-science-highlights-button-mushroom-marks-niche-in-forest-carbon-storage/
https://jgi.doe.gov/doe-jgi-science-highlights-button-mushroom-marks-niche-in-forest-carbon-storage/buttonmushroom_fstevensmycoweb/
https://jgi.doe.gov/doe-jgi-science-highlights-capsella-provides-insight-into-the-genomic-results-of-selfing/
https://jgi.doe.gov/doe-jgi-science-highlights-capsella-provides-insight-into-the-genomic-results-of-selfing/2479556499_61c10b65d1/
https://jgi.doe.gov/doe-jgi-science-highlights-capturing-carbon-in-the-dark-ocean/
https://jgi.doe.gov/doe-jgi-science-highlights-characterizespublishes-anti-reservoir-souring-microbe/
https://jgi.doe.gov/doe-jgi-science-highlights-characterizespublishes-anti-reservoir-souring-microbe/dacetiphilus-40793_2015_2030270_fig2/
https://jgi.doe.gov/doe-jgi-science-highlights-chlorella-for-the-carbon-cycle-and-biodiesel-production/
https://jgi.doe.gov/doe-jgi-science-highlights-clostridia-bacterial-genomes-sequenced-for-biofuel-production/
https://jgi.doe.gov/doe-jgi-science-highlights-combining-profiling-and-genomics-yields-novel-metabolites/
https://jgi.doe.gov/doe-jgi-science-highlights-combining-profiling-and-genomics-yields-novel-metabolites/cyanobacteria-dark-field-cropped/
https://jgi.doe.gov/doe-jgi-science-highlights-comparative-genomics-method-to-tag-novel-nitrogen-fixation-genes/
https://jgi.doe.gov/doe-jgi-science-highlights-comparative-genomics-method-to-tag-novel-nitrogen-fixation-genes/smeliloti-2/
https://jgi.doe.gov/doe-jgi-science-highlights-comparative-genomics-of-social-amoebae/
https://jgi.doe.gov/doe-jgi-science-highlights-comparative-genomics-of-social-amoebae/dpurpureum/
https://jgi.doe.gov/doe-jgi-science-highlights-comparing-extremophile-isolates-from-yellowstone-metagenomes/
https://jgi.doe.gov/doe-jgi-science-highlights-comparing-extremophile-isolates-from-yellowstone-metagenomes/8273509572_6bb20a42ef_z/
https://jgi.doe.gov/doe-jgi-science-highlights-comparing-white-rots-to-shed-light-on-wood-colonizing-habit/
https://jgi.doe.gov/doe-jgi-science-highlights-comparing-white-rots-to-shed-light-on-wood-colonizing-habit/pcarnosa_jmcdonald_utoronto/
https://jgi.doe.gov/doe-jgi-science-highlights-consortium-drives-genome-standards/
https://jgi.doe.gov/doe-jgi-science-highlights-consortium-drives-genome-standards/gsc8/
https://jgi.doe.gov/doe-jgi-science-highlights-cyanobacteria-shed-light-on-carboxysome-complexity/
https://jgi.doe.gov/doe-jgi-science-highlights-cyanobacterial-genomics-a-basis-for-improvements-in-photosynthesis/
https://jgi.doe.gov/doe-jgi-science-highlights-cyanobacterial-genomics-a-basis-for-improvements-in-photosynthesis/6774067788_04a3c50391/
https://jgi.doe.gov/doe-jgi-science-highlights-daphnia-pulex-the-first-crustacean-genome/
https://jgi.doe.gov/doe-jgi-science-highlights-daphnia-pulex-the-first-crustacean-genome/dpulexbyjmichels/
https://jgi.doe.gov/doe-jgi-science-highlights-decoupling-marine-microbial-abundance-and-activity-levels/
https://jgi.doe.gov/doe-jgi-science-highlights-decoupling-marine-microbial-abundance-and-activity-levels/prochlorococcus_cting_williams/
https://jgi.doe.gov/doe-jgi-science-highlights-destroyer-of-houses-harnessed-for-biofuel-production/
https://jgi.doe.gov/doe-jgi-science-highlights-dietary-impacts-on-hoatzin-crop-microbial-communities/
https://jgi.doe.gov/doe-jgi-science-highlights-drifting-poplar-populations-inform-breeding-strategies/
https://jgi.doe.gov/doe-jgi-science-highlights-effects-of-symbiosis-on-a-fungal-transcriptome/
https://jgi.doe.gov/doe-jgi-science-highlights-efficiency-improvements-in-biofuels-production/
https://jgi.doe.gov/doe-jgi-science-highlights-efficiency-improvements-in-biofuels-production/gsluibel/
https://jgi.doe.gov/doe-jgi-science-highlights-ehux-the-alga-of-many-faces/
https://jgi.doe.gov/doe-jgi-science-highlights-ehux-the-alga-of-many-faces/news_13_06_12-1/
https://jgi.doe.gov/doe-jgi-science-highlights-elucidating-bacterias-roles-in-ant-fungal-gardens/
https://jgi.doe.gov/doe-jgi-science-highlights-engineering-bacteria-to-produce-biodiesel/
https://jgi.doe.gov/doe-jgi-science-highlights-ethanol-contaminant-could-assist-production-efficiency/
https://jgi.doe.gov/doe-jgi-science-highlights-finding-cellulases-in-sediment-from-a-paper-mill/
https://jgi.doe.gov/doe-jgi-science-highlights-finding-cellulases-in-sediment-from-a-paper-mill/riverbrianforbes/
https://jgi.doe.gov/doe-jgi-science-highlights-first-analysis-of-trichoderma-species-as-biocontrol-agents/
https://jgi.doe.gov/doe-jgi-science-highlights-first-analysis-of-trichoderma-species-as-biocontrol-agents/tatroviride/
https://jgi.doe.gov/doe-jgi-science-highlights-first-finished-filamentous-fungus/
https://jgi.doe.gov/doe-jgi-science-highlights-first-finished-filamentous-fungus/septoriatriticiblotchcourtesygertkemawageningen/
https://jgi.doe.gov/doe-jgi-science-highlights-foxtail-millet-genome-an-improved-reference-for-switchgrass/
https://jgi.doe.gov/doe-jgi-science-highlights-fungal-enzymes-to-improve-biomass-pretreatment-processes/
https://jgi.doe.gov/doe-jgi-science-highlights-fungal-genome-offers-clues-on-how-leaf-cutter-ants-farm/
https://jgi.doe.gov/doe-jgi-science-highlights-fungal-genome-offers-clues-on-how-leaf-cutter-ants-farm/ants_jscott/
https://jgi.doe.gov/doe-jgi-science-highlights-fungal-lessons-for-large-scale-green-chemical-production/
https://jgi.doe.gov/doe-jgi-science-highlights-fungal-pathogens-the-common-thread-between-pine-and-tomato/
https://jgi.doe.gov/doe-jgi-science-highlights-fungal-pathogens-the-common-thread-between-pine-and-tomato/needleblight_rbradshaw/
https://jgi.doe.gov/doe-jgi-science-highlights-geba-gets-more-cellulase/
https://jgi.doe.gov/doe-jgi-science-highlights-genome-evolution-with-the-help-of-plasmid-gene-pools/
https://jgi.doe.gov/doe-jgi-science-highlights-genome-evolution-with-the-help-of-plasmid-gene-pools/benfleet_sewage_treatment_plant_primary_settling_tanks_-_geograph-org-uk_-_1450088/
https://jgi.doe.gov/doe-jgi-science-highlights-genome-streamlining-a-survival-strategy-in-marine-microbes/5987036735_26df71d36f/
https://jgi.doe.gov/doe-jgi-science-highlights-genomic-analysis-of-self-fertilizing-fungi/
https://jgi.doe.gov/doe-jgi-science-highlights-greencut2-algorithm-to-id-plant-protein-functions/
https://jgi.doe.gov/doe-jgi-science-highlights-greencut2-algorithm-to-id-plant-protein-functions/soybeanscottbauerusda/
https://jgi.doe.gov/doe-jgi-science-highlights-high-temperature-enzymes-for-biomass-breakdown/
https://jgi.doe.gov/doe-jgi-science-highlights-hope-for-re-establishing-gulf-of-mexico-microbial-populations/
https://jgi.doe.gov/doe-jgi-science-highlights-hope-for-re-establishing-gulf-of-mexico-microbial-populations/7085032489_fb5182f388/
https://jgi.doe.gov/doe-jgi-science-highlights-how-salt-loving-archaea-can-assist-with-biofuel-production/
https://jgi.doe.gov/doe-jgi-science-highlights-large-toolset-for-detecting-genetic-variation-in-poplars/
https://jgi.doe.gov/doe-jgi-science-highlights-large-toolset-for-detecting-genetic-variation-in-poplars/poplar-trees/
https://jgi.doe.gov/doe-jgi-science-highlights-leaf-cutter-ant-microbiome-breaks-down-plant-biomass/
https://jgi.doe.gov/doe-jgi-science-highlights-lessons-from-the-adaptive-strategies-of-a-fungal-pathogen/
https://jgi.doe.gov/doe-jgi-science-highlights-lessons-learned-from-comparing-cochliobolus-fungi/
https://jgi.doe.gov/doe-jgi-science-highlights-lessons-learned-from-comparing-cochliobolus-fungi/5575807251_e914764ce4/
https://jgi.doe.gov/doe-jgi-science-highlights-lifestyles-of-a-fungal-plant-pathogen-family/
https://jgi.doe.gov/doe-jgi-science-highlights-lifestyles-of-a-fungal-plant-pathogen-family/csativus-2/
https://jgi.doe.gov/doe-jgi-science-highlights-lost-in-symbiosis-genes-dropped-in-piggy-backing-bacterial-strain/
https://jgi.doe.gov/doe-jgi-science-highlights-lost-in-symbiosis-genes-dropped-in-piggy-backing-bacterial-strain/euplotes/
https://jgi.doe.gov/doe-jgi-science-highlights-making-sciences-insights-of-the-decade-list-twice/
https://jgi.doe.gov/doe-jgi-science-highlights-marine-metagenome-offers-clues-to-ocean-nitrogen-cycle/
https://jgi.doe.gov/doe-jgi-science-highlights-marine-metagenome-offers-clues-to-ocean-nitrogen-cycle/dead_zones_nasa_eo-2/
https://jgi.doe.gov/doe-jgi-science-highlights-marine-metagenome-offers-clues-to-ocean-nitrogen-cycle/dead_zones_nasa_eo/
https://jgi.doe.gov/doe-jgi-science-highlights-marine-metagenomics-elucidate-role-in-global-carbon-cycle/
https://jgi.doe.gov/doe-jgi-science-highlights-maturing-metagenomics-needs-ground-rules/
https://jgi.doe.gov/doe-jgi-science-highlights-metagenomic-study-of-methane-in-marine-microbial-communities/
https://jgi.doe.gov/doe-jgi-science-highlights-metagenomic-study-of-methane-in-marine-microbial-communities/4212432030_c170d9c452/
https://jgi.doe.gov/doe-jgi-science-highlights-methanotroph-methylosinus-trichosporium/
https://jgi.doe.gov/doe-jgi-science-highlights-methylobacteria-shed-light-on-the-c-and-n-cycles/
https://jgi.doe.gov/doe-jgi-science-highlights-microbes-as-the-unknown-variable-in-thawing-permafrost/
https://jgi.doe.gov/doe-jgi-science-highlights-microbes-as-the-unknown-variable-in-thawing-permafrost/ngee-alaska_rkaltschmidtlbnl/
https://jgi.doe.gov/doe-jgi-science-highlights-microbial-genomes-help-propose-phylum-name/
https://jgi.doe.gov/doe-jgi-science-highlights-microbial-genomes-help-propose-phylum-name/peacockjp_plos/
https://jgi.doe.gov/doe-jgi-science-highlights-microbial-response-to-the-thawing-arctic/
https://jgi.doe.gov/doe-jgi-science-highlights-mite-genome-to-help-protect-bioenergy-feedstocks/
https://jgi.doe.gov/doe-jgi-science-highlights-mite-genome-to-help-protect-bioenergy-feedstocks/sem_ghent_spidermite/
https://jgi.doe.gov/doe-jgi-science-highlights-moss-sequencing-ennobles-flagship-genome/
https://jgi.doe.gov/doe-jgi-science-highlights-moss-sequencing-ennobles-flagship-genome/physcomitrella-2/
https://jgi.doe.gov/doe-jgi-science-highlights-new-clues-for-understanding-a-novel-cellulolytic-process/
https://jgi.doe.gov/doe-jgi-science-highlights-new-tool-helps-find-gene-markers-in-microorganisms/
https://jgi.doe.gov/doe-jgi-science-highlights-new-tool-helps-find-gene-markers-in-microorganisms/phylogenetic_tree_of_life/
https://jgi.doe.gov/doe-jgi-science-highlights-new-tools-for-the-imgm-analysis-system/
https://jgi.doe.gov/doe-jgi-science-highlights-new-tools-for-the-imgm-analysis-system/markowitzkyrpides/
https://jgi.doe.gov/doe-jgi-science-highlights-noncoding-dna-map-provides-insight-to-plant-gene-regulation/5650317561_2283c0bde3/
https://jgi.doe.gov/doe-jgi-science-highlights-on-the-hunt-for-industrial-enzymes/
https://jgi.doe.gov/doe-jgi-science-highlights-on-the-hunt-for-industrial-enzymes/trichoderma_harzianum/
https://jgi.doe.gov/doe-jgi-science-highlights-ornl-collaboration-to-understand-methylmercury-production/
https://jgi.doe.gov/doe-jgi-science-highlights-ornl-collaboration-to-understand-methylmercury-production/ddesulfuricanspnnl/
https://jgi.doe.gov/doe-jgi-science-highlights-overcoming-short-read-genome-sequence-assembly-challenges/
https://jgi.doe.gov/doe-jgi-science-highlights-poplar-rust-fungus-in-comparative-genomics-study/
https://jgi.doe.gov/doe-jgi-science-highlights-poplar-rust-fungus-in-comparative-genomics-study/poplar-rust-1-2/
https://jgi.doe.gov/doe-jgi-science-highlights-popseq-for-plant-genome-assembly/
https://jgi.doe.gov/doe-jgi-science-highlights-popseq-for-plant-genome-assembly/729511482_26eb513c8b/
https://jgi.doe.gov/doe-jgi-science-highlights-protein-studies-offer-clues-on-how-palm-worms-can-take-the-heat/
https://jgi.doe.gov/doe-jgi-science-highlights-protein-studies-offer-clues-on-how-palm-worms-can-take-the-heat/smoker_noaa/
https://jgi.doe.gov/doe-jgi-science-highlights-prototypical-genomic-study-of-plant-microbe-interaction/
https://jgi.doe.gov/doe-jgi-science-highlights-rethinking-rhodanobacter/
https://jgi.doe.gov/doe-jgi-science-highlights-root-dwelling-denizen-of-sheoak-trees-characterized/
https://jgi.doe.gov/doe-jgi-science-highlights-root-dwelling-denizen-of-sheoak-trees-characterized/she-oaks-cropped-2/
https://jgi.doe.gov/doe-jgi-science-highlights-rumenating-on-improving-biofuel-production/
https://jgi.doe.gov/doe-jgi-science-highlights-s-commune-genome-makes-three-biomass-degrading-fungi-characterized/
https://jgi.doe.gov/doe-jgi-science-highlights-searching-for-the-basis-of-ligninolytic-selectivity/
https://jgi.doe.gov/doe-jgi-science-highlights-sinking-sos-levels-lead-to-reduced-salt-tolerance/
https://jgi.doe.gov/doe-jgi-science-highlights-sinking-sos-levels-lead-to-reduced-salt-tolerance/athaliana_wikimedia/
https://jgi.doe.gov/doe-jgi-science-highlights-soil-biocrust-microbial-genome/
https://jgi.doe.gov/doe-jgi-science-highlights-solving-microbial-dark-matter-with-single-cell-genomics/
https://jgi.doe.gov/doe-jgi-science-highlights-solving-microbial-dark-matter-with-single-cell-genomics/picture1/
https://jgi.doe.gov/doe-jgi-science-highlights-solving-the-secrets-of-sedimentary-microbes/
https://jgi.doe.gov/doe-jgi-science-highlights-solving-the-secrets-of-sedimentary-microbes/coloradoriver/
https://jgi.doe.gov/doe-jgi-science-highlights-some-enzymes-like-it-hot/
https://jgi.doe.gov/doe-jgi-science-highlights-soybeans-annotated-revisited/
https://jgi.doe.gov/doe-jgi-science-highlights-spikemoss-genome-aids-biofuels-researchers-and-botanists/
https://jgi.doe.gov/doe-jgi-science-highlights-spikemoss-genome-aids-biofuels-researchers-and-botanists/spikemoss-2/
https://jgi.doe.gov/doe-jgi-science-highlights-standardizing-metagenomic-classifications/
https://jgi.doe.gov/doe-jgi-science-highlights-structural-analysis-of-cow-and-hoatzin-microbial-communities/
https://jgi.doe.gov/doe-jgi-science-highlights-structural-analysis-of-cow-and-hoatzin-microbial-communities/hoatzin_mgbello/
https://jgi.doe.gov/doe-jgi-science-highlights-student-tools-for-hands-on-genomics-and-bioinformatics-lessons/
https://jgi.doe.gov/doe-jgi-science-highlights-student-tools-for-hands-on-genomics-and-bioinformatics-lessons/journal-pbio-1000448-g001/
https://jgi.doe.gov/doe-jgi-science-highlights-subsurface-sediment-yields-novel-organism/
https://jgi.doe.gov/doe-jgi-science-highlights-subsurface-sediment-yields-novel-organism/2281643145_69e6c5949d/
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https://jgi.doe.gov/doe-jgi-science-highlights-the-poplar-genomes-impact-a-decade-on/
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https://jgi.doe.gov/doe-jgi-science-highlights-toward-a-genomic-encyclopedia-of-fungi/
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https://jgi.doe.gov/doe-jgi-science-highlights-updating-genomics-and-bioinformatics-courses-for-undergraduates/
https://jgi.doe.gov/doe-jgi-science-highlights-uv-treatments-for-contaminated-mda-reagents/
https://jgi.doe.gov/doe-jgi-science-highlights-uv-treatments-for-contaminated-mda-reagents/pfluorescens_wikimedia/
https://jgi.doe.gov/doe-jgi-science-highlights-volvox-genome-belies-small-is-simple-axiom/
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https://jgi.doe.gov/doe-jgi-science-in-the-washington-post/
https://jgi.doe.gov/doe-jgi-sequences-dna-for-gatton-academy-courses/
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https://jgi.doe.gov/doe-jgis-prochnik-in-discovery-news/
https://jgi.doe.gov/doe-jgis-role-in-managing-human-microbiome-project-data-on-medical-news/
https://jgi.doe.gov/doe-jgis-role-in-managing-human-microbiome-project-data-on-redorbit/
https://jgi.doe.gov/doe-jgis-role-in-managing-human-microbiome-project-data/
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https://jgi.doe.gov/doe-jgis-use-of-isilon-scale-out-nas-on-redorbit/
https://jgi.doe.gov/doe-jgis-use-of-isilon-scale-out-nas-on-san-diego-cas-cbs-8/
https://jgi.doe.gov/doe-joint-genome-institute-expands-capabilities-via-new-partnerships/
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https://jgi.doe.gov/doe-science-highlights-an-insiders-view-of-bacterial-assembly-line/
https://jgi.doe.gov/doe-science-highlights-an-insiders-view-of-bacterial-assembly-line/carboxysome-images/
https://jgi.doe.gov/doe-science-highlights-monkeying-around-with-gene-shuffling/
https://jgi.doe.gov/doe-science-highlights-monkeying-around-with-gene-shuffling/mimulus-guttatus/
https://jgi.doe.gov/doe-science-highlights-one-big-family-understanding-the-polyporales-phylogenetic-and-phylogenomic-trees/
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https://jgi.doe.gov/doe-science-highlights-surprising-finds-in-a-rare-plants-mitochondrial-genome/
https://jgi.doe.gov/doe-science-highlights-surprising-finds-in-a-rare-plants-mitochondrial-genome/amborella-in-fruit_cropped2/
https://jgi.doe.gov/doe-user-facilities-emsl-ficus-partner-greater-scientific-impact/
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https://jgi.doe.gov/does-magellan-cloud-project-on-esnet/
https://jgi.doe.gov/driving-the-carbon-cycle-in-the-dark-ocean/
https://jgi.doe.gov/dry-rot-serpula-genome-on-sciencenewsline/
https://jgi.doe.gov/dry-rot-serpula-genome-project-in-basqueresearch-com/
https://jgi.doe.gov/dry-rot-serpula-genome-project-on-enews-park-forest/
https://jgi.doe.gov/dry-rot-serpula-genome-project-on-greenwire/
https://jgi.doe.gov/dry-rot-serpula-genome-project-on-walesonline/
https://jgi.doe.gov/dry-rot-serpula-project-in-biofuels-journal/
https://jgi.doe.gov/dung-fungi-as-a-model-system/
https://jgi.doe.gov/dyeing-learn-marine-viruses/
https://jgi.doe.gov/dyeing-learn-marine-viruses/c25a_1_lideng_web/
https://jgi.doe.gov/dyeing-learn-marine-viruses/viral_tagging_schematic_schirmer/
https://jgi.doe.gov/early-diverging-lineages-of-fungi/
https://jgi.doe.gov/earth-microbiome-project-in-genomeweb/
https://jgi.doe.gov/earth-microbiome-project-in-sacramento-bee/
https://jgi.doe.gov/ecology-of-the-warming-arctic-peninsula/
https://jgi.doe.gov/eddy-rubin-and-neanderthal-genome-on-sf-chronicle/
https://jgi.doe.gov/eelgrass-genome-paper-makes-2016-nature-editors-choice-list/
https://jgi.doe.gov/effects-mutations-aspergillus-genomes/
https://jgi.doe.gov/effects-of-polar-light-cycle-ace-lake-microbes/
https://jgi.doe.gov/effects-of-polar-light-cycle-ace-lake-microbes/ace-lake-melted-aerial/
https://jgi.doe.gov/effects-of-polar-light-cycle-ace-lake-microbes/screencap-microbiome-ace-lake-video/
https://jgi.doe.gov/effects-redox-fluctuation/
https://jgi.doe.gov/ehux-pangenome-project-in-redorbit/
https://jgi.doe.gov/ehux-pangenome-project-in-san-diego-union-tribune/
https://jgi.doe.gov/eisen-blogs-twitter-wrap-up-of-the-doe-jgi-user-meeting/
https://jgi.doe.gov/elucidating-extremophilic-microbial-dark-matter/
https://jgi.doe.gov/elucidating-extremophilic-microbial-dark-matter/greatbasin_robert_dodsworth/
https://jgi.doe.gov/emergency-operations-info/
https://jgi.doe.gov/encode-like-model-for-chlamydomonas/
https://jgi.doe.gov/engagement-webinar-accessing-neon-archives-jgi-emsl-omics-tools/
https://jgi.doe.gov/engagement-webinar-accessing-neon-archives-jgi-emsl-omics-tools/neon_sites_map-1200x9999/
https://jgi.doe.gov/engineering-efficient-system-harnessing-co2/
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https://jgi.doe.gov/engineering-efficient-system-harnessing-co2/erbcetchimg/
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https://jgi.doe.gov/engineering-efficient-system-harnessing-co2/tobias-erb_mpi-marburg/
https://jgi.doe.gov/engineering-efficient-system-harnessing-co2/yasuoyoshikuni/
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https://jgi.doe.gov/envo-brings-structure-biological-environments/killer-whale/
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https://jgi.doe.gov/etop-target-microbial-needle-within-community-haystack/microbiome-video-screencap/
https://jgi.doe.gov/etop-target-microbial-needle-within-community-haystack/pipeline_jgi/
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https://jgi.doe.gov/eucalyptus-genome-project-on-science-in-public/
https://jgi.doe.gov/eucalyptus-genome-sequence-in-sciencedaily/
https://jgi.doe.gov/eucalyptus-grandis-genome-2-0-community-resource/
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https://jgi.doe.gov/evaluating-cost-accuracy-sequencing-approaches/sakinaw-lake-ubc/
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https://jgi.doe.gov/events/vega/
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https://jgi.doe.gov/events/vega/lbnl-campus-vega-2022/
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https://jgi.doe.gov/events/vega/vega-agenda/
https://jgi.doe.gov/events/vega/vega-faq/
https://jgi.doe.gov/events/vega/vega-faq/screenshot-2024-10-11-at-9-18-38-am/
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https://jgi.doe.gov/events/vega/vega-speakers/katrine/
https://jgi.doe.gov/events/vega/vega-speakers/martial-marbouty/
https://jgi.doe.gov/events/vega/vega-speakers/untitled-1-2/
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https://jgi.doe.gov/events/vega/vega-speakers/untitled-4-2/
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https://jgi.doe.gov/evolutionary-changes-genetic-code-of-yeasts/tfg-jgi2018jeffries/
https://jgi.doe.gov/evolutionary-changes-genetic-code-of-yeasts/tfg-yeast-codon/
https://jgi.doe.gov/examining-predominant-deepwater-horizon-microbe/
https://jgi.doe.gov/examining-predominant-deepwater-horizon-microbe/argonneoilplume570/
https://jgi.doe.gov/expanded-version-of-phytozome-net-released-by-doe-jgi/
https://jgi.doe.gov/expanding-barley-genetics-resources/
https://jgi.doe.gov/expanding-barley-genetics-resources/barley-craignagy-flickr_cc-by-sa-2-0-570/
https://jgi.doe.gov/expanding-fungal-diversity-one-cell/
https://jgi.doe.gov/expanding-fungal-diversity-one-cell/perch-fen-coll-5-24-14-100x-01e_joycelongcore/
https://jgi.doe.gov/expanding-fungal-diversity-one-cell/tim_james_jgi2018/
https://jgi.doe.gov/expanding-grass-genome-comparators/
https://jgi.doe.gov/expanding-research-communities-and-collaborations-doe-jgi-2014-community-science-program-portfolio-announced/
https://jgi.doe.gov/expanding-research-communities-and-collaborations-doe-jgi-2014-community-science-program-portfolio-announced/emsl-1621-070/
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https://jgi.doe.gov/expanding-research-communities-and-collaborations-doe-jgi-2014-community-science-program-portfolio-announced/news_13_10_28-9/
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https://jgi.doe.gov/expanding-stable-workhorse-yeasts/pachysolen-cropped-by-cletus-kurtzman-usda-ars/
https://jgi.doe.gov/expanding-stable-workhorse-yeasts/riley-umscreen/
https://jgi.doe.gov/expanding-stable-workhorse-yeasts/rileyum2016/
https://jgi.doe.gov/expanding-stable-workhorse-yeasts/scheffersomyces-stipitis-004-courtesy-of-tjeffries-uwiscmadison/
https://jgi.doe.gov/expanding-universe-methane-metabolisms-archaea/
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https://jgi.doe.gov/npaw-2018-meet-jgi-postdoc-maureen-berg/maureenb-20180910/
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https://jgi.doe.gov/ocean-sponge-dwelling-bacteria-hidden-talents/
https://jgi.doe.gov/ocean-sponge-dwelling-bacteria-hidden-talents/news_14_01_30/
https://jgi.doe.gov/oct-12-igor-grigoriev-plos-sciwed-reddit-ama/
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https://jgi.doe.gov/olpidium-key-to-the-origin-of-terrestrial-fungi/
https://jgi.doe.gov/olpidium-key-to-the-origin-of-terrestrial-fungi/2018-zygolife-consortium/
https://jgi.doe.gov/olpidium-key-to-the-origin-of-terrestrial-fungi/olpidium_sekimoto2011/
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https://jgi.doe.gov/on-white-rot-coal-and-biofuels-in-climatewire/
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https://jgi.doe.gov/our-science/science-programs/fungal-genomics/1000-fungal-genomes/
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https://jgi.doe.gov/our-science/science-programs/fungal-genomics/algae-strategic-plan/
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https://jgi.doe.gov/our-science/science-programs/fungal-genomics/combined_fungi_algal-sm/
https://jgi.doe.gov/our-science/science-programs/fungal-genomics/fungal-and-algal-pubs/
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https://jgi.doe.gov/our-science/science-programs/fungal-genomics/fungal/
https://jgi.doe.gov/our-science/science-programs/fungal-genomics/fungalalgalannotationsop_20210313-docx/
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https://jgi.doe.gov/our-science/science-programs/fungal-genomics/genomic-encyclopedia-of-fungi/
https://jgi.doe.gov/our-science/science-programs/fungal-genomics/genomic-encyclopedia-of-fungi/fungi_diversity/
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https://jgi.doe.gov/past-events/application-of-high-performance-computing-to-the-doe-joint-genomic-institutes-data-challenges/
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https://jgi.doe.gov/past-events/csp-2012-pi-workshop/
https://jgi.doe.gov/past-events/microbial-genome-reannotation-workshop/
https://jgi.doe.gov/past-events/microbial-genome-reannotation-workshop/logo-reannotation/
https://jgi.doe.gov/past-events/microbial-plant-systems-modulated-secondary-metabolites-meeting/
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https://jgi.doe.gov/past-events/microbial-plant-systems-modulated-secondary-metabolites-meeting/agenda/
https://jgi.doe.gov/past-events/microbial-plant-systems-modulated-secondary-metabolites-meeting/revised_synthesis_figure/
https://jgi.doe.gov/past-events/nelli/
https://jgi.doe.gov/past-events/nelli/archaeatree-print-4/
https://jgi.doe.gov/past-events/nelli/nelli-2017-agenda/
https://jgi.doe.gov/past-events/nelli/nelli_04052017_poster-session-1/
https://jgi.doe.gov/past-events/program-meetings-and-workshops/
https://jgi.doe.gov/peach-genome-on-wsu-today-online/
https://jgi.doe.gov/peach-genome-project-in-biofuels-digest/
https://jgi.doe.gov/peach-genome-project-on-7th-space-interactive/
https://jgi.doe.gov/peach-genome-project-on-freshplaza/
https://jgi.doe.gov/peach-genome-project-on-gdr/
https://jgi.doe.gov/peach-genome-project-on-gen/
https://jgi.doe.gov/peach-genome-project-on-genomeweb/
https://jgi.doe.gov/peach-genome-project-on-goupstate-com/
https://jgi.doe.gov/peach-genome-project-on-sciencedaily/
https://jgi.doe.gov/peach-genome-project-on-wsu-today-online/
https://jgi.doe.gov/peat-moss-as-a-comparative-genomics-resource/
https://jgi.doe.gov/permafrost-metagenome-study-on-voa-special-english-report/
https://jgi.doe.gov/permafrost-soil-metagenome-study-in-alaska-dispatch/
https://jgi.doe.gov/permafrost-soil-metagenome-study-in-discover/
https://jgi.doe.gov/permafrost-soil-metagenome-study-in-genomeweb/
https://jgi.doe.gov/permafrost-soil-metagenome-study-in-gizmodo/
https://jgi.doe.gov/permafrost-soil-metagenome-study-in-time/
https://jgi.doe.gov/permafrost-soil-metagenome-study-in-uk-press-association/
https://jgi.doe.gov/permafrost-soil-metagenome-study-in-wired-uk/
https://jgi.doe.gov/permafrost-soil-metagenome-study-on-examiner-com/
https://jgi.doe.gov/permafrost-soil-metagenome-study-on-livescience/
https://jgi.doe.gov/permafrost-soil-metagenome-study-on-medill-news-reports/
https://jgi.doe.gov/permafrost-soil-metagenome-study-on-voice-of-america/
https://jgi.doe.gov/permafrost-study-referenced-in-sciencenews/
https://jgi.doe.gov/permafrost-thaw-chronosequence-sweden/
https://jgi.doe.gov/phil-hugenholtz-on-metagenomics-and-ecogenomics-in-australian-life-scientist/
https://jgi.doe.gov/phosphorus-response-plant-microbe-symbioses/
https://jgi.doe.gov/photosynthesis-in-chlamydomonas/
https://jgi.doe.gov/photosynthetic-diversity-cryptophyte-algae/
https://jgi.doe.gov/phycocosm-one-stop-shop-for-analyzing-algal-genomes/
https://jgi.doe.gov/phycocosm-one-stop-shop-for-analyzing-algal-genomes/chorella/
https://jgi.doe.gov/phycocosm-one-stop-shop-for-analyzing-algal-genomes/phycocosm-4/
https://jgi.doe.gov/picking-up-threads-of-cotton-genomics/
https://jgi.doe.gov/picking-up-threads-of-cotton-genomics/cotton-jgi-v1-bn3/
https://jgi.doe.gov/picking-up-threads-of-cotton-genomics/w-cotton-boll-2-ghirsutum_cotton-inc-dsc05140/
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https://jgi.doe.gov/picking-up-threads-of-cotton-genomics/w-cotton-harvest-green_2_cotton-inc/
https://jgi.doe.gov/pilot-phase-of-the-thousand-microbial-genomes-project/
https://jgi.doe.gov/pine-suillus-symbiosis-study/
https://jgi.doe.gov/pinning-down-a-piece-of-photosynthesis/
https://jgi.doe.gov/pinning-down-a-piece-of-photosynthesis/domainrelatedtoiron/
https://jgi.doe.gov/plant-bacteria-symbiosis-for-nitrogen-fixation/
https://jgi.doe.gov/plant-endophyte-pathogen-interactions-using-poplar/
https://jgi.doe.gov/plant-microbe-shares-features-with-drug-resistant-pathogen-2/
https://jgi.doe.gov/plant-microbe-shares-features-with-drug-resistant-pathogen/
https://jgi.doe.gov/plant-pathogen-genomes-on-physorg/
https://jgi.doe.gov/plant-pathogens-supernumerary-chromosomes/
https://jgi.doe.gov/plant-root-atlas-for-tracking-developmental-trajectories/
https://jgi.doe.gov/plant-root-atlas-for-tracking-developmental-trajectories/dev-cell-022822-cover-tif/
https://jgi.doe.gov/plant-root-atlas-for-tracking-developmental-trajectories/video-from-shahan-et-al-dev-cell-paper/
https://jgi.doe.gov/plants-and-fungi-working-hand-in-hand/
https://jgi.doe.gov/plants-and-fungi-working-hand-in-hand/amf-in-carrot-roots/
https://jgi.doe.gov/plotting-a-model-for-virus-host-warfare-deep-below-ground/
https://jgi.doe.gov/plotting-a-model-for-virus-host-warfare-deep-below-ground/altiarchaea-image_probst-lab/
https://jgi.doe.gov/plotting-a-model-for-virus-host-warfare-deep-below-ground/waltiarchaea-and-viruses_victoria-turzynksi-and-lea-griesdorn/
https://jgi.doe.gov/polar-phytoplankton-need-zinc-to-cope-with-the-cold/
https://jgi.doe.gov/polar-phytoplankton-need-zinc-to-cope-with-the-cold/2022-05-26-email-lianna-nixon-melosira-arctica-diatoms-blogpost-resized/
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https://jgi.doe.gov/pond-dwelling-powerhouses-genome-points-biofuel-potential/
https://jgi.doe.gov/pond-dwelling-powerhouses-genome-points-biofuel-potential/basic-rgb-2/
https://jgi.doe.gov/pond-dwelling-powerhouses-genome-points-biofuel-potential/frog-in-duckweed/
https://jgi.doe.gov/poplar-and-epigenomic-reprogramming/
https://jgi.doe.gov/poplar-bacteria-project-on-eurekalert/
https://jgi.doe.gov/poplar-bacteria-project-on-genomeweb/
https://jgi.doe.gov/poplar-bacteria-project-on-nano-patents-blog/
https://jgi.doe.gov/poplar-bacteria-project-on-physorg/
https://jgi.doe.gov/poplar-bacteria-project-on-redorbit/
https://jgi.doe.gov/poplar-bacteria-project-on-sciencedaily/
https://jgi.doe.gov/poplar-disease-resistance-septoria-canker/
https://jgi.doe.gov/poplar-leaf-rust-fungal-genome-project-on-hoosier-farmers/
https://jgi.doe.gov/poplar-leaf-rust-fungal-genome-project-on-krvn/
https://jgi.doe.gov/poplar-leaf-rust-genome-project-in-genomeweb-daily-news/
https://jgi.doe.gov/poplar-leaf-rust-genome-project-on-seedquest/
https://jgi.doe.gov/poplar-rust-fungal-genome-project-in-western-farm-press/
https://jgi.doe.gov/poplar-rust-genome-project-on-wisconsin-ag-connection/
https://jgi.doe.gov/population-studies-soil-microbial-communities/
https://jgi.doe.gov/postdoc-visit-hydrothermal-vents-and-international-science/
https://jgi.doe.gov/postdoc-visit-hydrothermal-vents-and-international-science/jgi-meeting/
https://jgi.doe.gov/postdoc-visit-hydrothermal-vents-and-international-science/nikos-group/
https://jgi.doe.gov/potential-new-bacterial-phylum-the-scientist/
https://jgi.doe.gov/preparing-for-sequence-data-deluge/
https://jgi.doe.gov/preparing-for-sequence-data-deluge/airo-jgi_csp_504326_-_airo_-_public_image/
https://jgi.doe.gov/preparing-for-sequence-data-deluge/blanchard-csp19-barrewoodsdesign/
https://jgi.doe.gov/preparing-for-sequence-data-deluge/judith-brown-csp19-picture/
https://jgi.doe.gov/preparing-for-sequence-data-deluge/moore-csp19-project_graphic/
https://jgi.doe.gov/preparing-for-sequence-data-deluge/rodrigues-csp19-2015-07-02_14-58-14/
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https://jgi.doe.gov/preparing-for-sequence-data-deluge/wgladieux-csp19-sordariales/
https://jgi.doe.gov/prochlorococcus-genomic-backbones-study-scientist/
https://jgi.doe.gov/profile-richard-myers-of-hudsonalpha/
https://jgi.doe.gov/promoting-the-power-of-viral-metagenomics/
https://jgi.doe.gov/promoting-the-power-of-viral-metagenomics/call-et-al_fig-2_bd40369-f2/
https://jgi.doe.gov/protein-modeling-for-biofuel-production-and-carbon-cycle-studies/
https://jgi.doe.gov/proving-codon-genetic-code-flexibility/
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https://jgi.doe.gov/proving-codon-genetic-code-flexibility/570-aminoacids_table/
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https://jgi.doe.gov/publication/1001-proteomes-a-functional-proteomics-portal-for-the-analysis-of-arabidopsis-thaliana-accessions/
https://jgi.doe.gov/publication/1003-reference-genomes-of-bacterial-and-archaeal-isolates-expand-coverage-of-the-tree-of-life-2/
https://jgi.doe.gov/publication/1003-reference-genomes-of-bacterial-and-archaeal-isolates-expand-coverage-of-the-tree-of-life/
https://jgi.doe.gov/publication/101-dothideomycetes-genomes-a-test-case-for-predicting-lifestyles-and-emergence-of-pathogens/
https://jgi.doe.gov/publication/16s-rrna-gene-amplicon-sequencing-data-from-flooded-rice-paddy-mesocosms-treated-with-different-silicon-rich-soil-amendments-3/
https://jgi.doe.gov/publication/16s-rrna-gene-amplicon-sequencing-data-from-flooded-rice-paddy-mesocosms-treated-with-different-silicon-rich-soil-amendments/
https://jgi.doe.gov/publication/a-34k-snp-genotyping-array-for-populus-trichocarpa-design-application-to-the-study-of-natural-populations-and-transferability-to-other-populus-species/
https://jgi.doe.gov/publication/a-360-kb-interchromosomal-duplication-of-the-human-hydin-locus/
https://jgi.doe.gov/publication/a-5-enolpyruvylshikimate-3-phosphate-synthase-functions-as-a-transcriptional-repressor-in-populus/
https://jgi.doe.gov/publication/a-bacterial-metapopulation-adapts-locally-to-phage-predation-despite-global-dispersal/
https://jgi.doe.gov/publication/a-bacterial-pioneer-produces-cellulase-complexes-that-persist-through-community-succession/
https://jgi.doe.gov/publication/a-bacterial-toolkit-for-plants/
https://jgi.doe.gov/publication/a-bioinformaticians-guide-to-metagenomics/
https://jgi.doe.gov/publication/a-call-for-standardized-classification-of-metagenome-projects/
https://jgi.doe.gov/publication/a-catalog-of-reference-genomes-from-the-human-microbiome/
https://jgi.doe.gov/publication/a-catalog-of-the-diversity-and-ubiquity-of-bacterial-microcompartments/
https://jgi.doe.gov/publication/a-centimeter-long-bacterium-with-dna-contained-in-metabolically-active-membrane-bound-organelles-2/
https://jgi.doe.gov/publication/a-changing-of-the-guard/
https://jgi.doe.gov/publication/a-chromosome-based-draft-sequence-of-the-hexaploid-bread-wheat-triticum-aestivum-genome/
https://jgi.doe.gov/publication/a-chromosome-scale-genome-assembly-and-dense-genetic-map-for-xenopus-tropicalis/
https://jgi.doe.gov/publication/a-chromosome-scale-reference-genome-of-trifoliate-orange-poncirus-trifoliata-provides-insights-into-disease-resistance-cold-tolerance-and-genome-evolution-in-citrus/
https://jgi.doe.gov/publication/a-combinatorial-approach-to-synthetic-transcription-factor-promoter-combinations-for-yeast-strain-engineering/
https://jgi.doe.gov/publication/a-comparative-analysis-of-the-lactuca-and-helianthus-asteraceae-plastid-genomes-identification-of-divergent-regions-and-categorization-of-shared-repeats/
https://jgi.doe.gov/publication/a-comparative-genomics-perspective-on-the-genetic-content-of-the-alkaliphilic-haloarchaeon-natrialba-magadii-atcc-43099t/
https://jgi.doe.gov/publication/a-comparative-genomics-screen-identifies-a-sinorhizobium-meliloti-1021-sodm-like-gene-strongly-expressed-within-host-plant-nodules/
https://jgi.doe.gov/publication/a-comparative-genomics-study-of-23-aspergillus-species-from-section-flavi/
https://jgi.doe.gov/publication/a-comparison-of-microbial-genome-web-portals/
https://jgi.doe.gov/publication/a-comparison-of-taxon-co-occurrence-patterns-for-macro-and-microorganisms/
https://jgi.doe.gov/publication/a-compendium-of-bacterial-and-archaeal-single-cell-amplified-genomes-from-oxygen-deficient-marine-waters/
https://jgi.doe.gov/publication/a-compendium-of-geochemical-information-from-the-saanich-inlet-water-column/
https://jgi.doe.gov/publication/a-compendium-of-multi-omic-sequence-information-from-the-saanich-inlet-water-column/
https://jgi.doe.gov/publication/a-complete-toolset-for-the-study-of-ustilago-bromivora-and-brachypodium-sp-as-a-fungal-temperate-grass-pathosystem/
https://jgi.doe.gov/publication/a-concept-for-international-societally-relevant-microbiology-education-and-microbiology-knowledge-promulgation-in-society-2/
https://jgi.doe.gov/publication/a-concept-for-international-societally-relevant-microbiology-education-and-microbiology-knowledge-promulgation-in-society/
https://jgi.doe.gov/publication/a-cryptic-third-active-site-in-cyanophycin-synthetase-creates-primers-for-polymerization-2/
https://jgi.doe.gov/publication/a-customizable-approach-for-the-enzymatic-production-and-purification-of-diterpenoid-natural-products/
https://jgi.doe.gov/publication/a-data-analysis-and-coordination-center-for-the-human-microbiome-project/
https://jgi.doe.gov/publication/a-detailed-gene-expression-study-of-the-miscanthus-genus-reveals-changes-in-the-transcriptome-associated-with-the-rejuvenation-of-spring-rhizomes/
https://jgi.doe.gov/publication/a-distinct-lineage-of-giant-viruses-brings-a-rhodopsin-photosystem-to-unicellular-marine-predators/
https://jgi.doe.gov/publication/a-droplet-microfluidic-platform-for-automating-genetic-engineering/
https://jgi.doe.gov/publication/a-dynamic-microbial-sulfur-cycle-in-a-serpentinizing-continental-ophiolite/
https://jgi.doe.gov/publication/a-framework-for-human-microbiome-research/
https://jgi.doe.gov/publication/a-framework-genetic-map-for-miscanthus-sinensis-from-rnaseq-based-markers-shows-recent-tetraploidy/
https://jgi.doe.gov/publication/a-functional-mini-integrase-in-a-two-protein-type-v-c-crispr-system/
https://jgi.doe.gov/publication/a-fungal-transcription-factor-essential-for-starch-degradation-affects-integration-of-carbon-and-nitrogen-metabolism-2/
https://jgi.doe.gov/publication/a-fungal-transcription-factor-essential-for-starch-degradation-affects-integration-of-carbon-and-nitrogen-metabolism/
https://jgi.doe.gov/publication/a-generalist-specialist-trade-off-between-switchgrass-cytotypes-impacts-climate-adaptation-and-geographic-range-2/
https://jgi.doe.gov/publication/a-genetic-engineering-toolbox-for-the-lignocellulolytic-anaerobic-gut-fungus-neocallimastix-frontalis/
https://jgi.doe.gov/publication/a-genetic-linkage-map-for-the-ectomycorrhizal-fungus-laccaria-bicolor-and-its-alignment-to-the-whole-genome-sequence-assemblies/
https://jgi.doe.gov/publication/a-genetic-perspective-on-the-geographic-association-of-taxa-among-and-north-american-lizards-of-the-sceloporus-magister-complex-squamata-iguanidae-phrynosomatinae/
https://jgi.doe.gov/publication/a-genetic-survey-of-heavily-exploited-endangered-turtles-caveats-on-the-conservation-value-of-trade-animals/
https://jgi.doe.gov/publication/a-genetic-toolbox-for-metabolic-engineering-of-issatchenkia-orientalis/
https://jgi.doe.gov/publication/a-genetic-variation-map-for-chicken-with-2-8-million-single-nucleotide-polymorphisms/
https://jgi.doe.gov/publication/a-genome-assembly-and-the-somatic-genetic-and-epigenetic-mutation-rate-in-a-wild-long-lived-perennial-populus-trichocarpa/
https://jgi.doe.gov/publication/a-genome-resource-for-green-millet-setaria-viridis-enables-discovery-of-agronomically-valuable-loci/
https://jgi.doe.gov/publication/a-genome-wide-scan-for-evidence-of-selection-in-a-maize-population-under-long-term-artificial-selection-for-ear-number/
https://jgi.doe.gov/publication/a-genome-wide-snp-genotyping-array-reveals-patterns-of-global-and-repeated-species-pair-divergence-in-sticklebacks/
https://jgi.doe.gov/publication/a-genome-wide-survey-of-switchgrass-genome-structure-and-organization/
https://jgi.doe.gov/publication/a-genomewide-survey-of-developmentally-relevant-genes-in-ciona-intestinalis-i-genes-for-bhlh-transcription-factors/
https://jgi.doe.gov/publication/a-genomewide-survey-of-developmentally-relevant-genes-in-ciona-intestinalis-ii-genes-for-homeobox-transcription-factors/
https://jgi.doe.gov/publication/a-genomewide-survey-of-developmentally-relevant-genes-in-ciona-intestinalis-iii-genes-for-fox-ets-nuclear-receptors-and-nf-kappa-b/
https://jgi.doe.gov/publication/a-genomic-analysis-of-the-archaeal-system-ignicoccus-hospitalis-nanoarchaeum-equitans-2/
https://jgi.doe.gov/publication/a-genomic-analysis-of-the-archaeal-system-ignicoccus-hospitalis-nanoarchaeum-equitans/
https://jgi.doe.gov/publication/a-genomic-catalog-of-earths-microbiomes/
https://jgi.doe.gov/publication/a-genomic-catalog-of-stress-response-genes-in-anaerobic-fungi-for-applications-in-bioproduction/
https://jgi.doe.gov/publication/a-genomic-encyclopedia-of-the-root-nodule-bacteria-assessing-genetic-diversity-through-a-systematic-biogeographic-survey/
https://jgi.doe.gov/publication/a-genomic-perspective-across-earths-microbiomes-reveals-that-genome-size-in-archaea-and-bacteria-is-linked-to-ecosystem-type-and-trophic-strategy-2/
https://jgi.doe.gov/publication/a-genomic-perspective-on-stoichiometric-regulation-of-soil-carbon-cycling/
https://jgi.doe.gov/publication/a-genomic-perspective-on-the-potential-of-actinobacillus-succinogenes-for-industrial-succinate-production/
https://jgi.doe.gov/publication/a-giant-virus-infecting-the-amoeboflagellate-naegleria-2/
https://jgi.doe.gov/publication/a-giant-virus-infecting-the-amoeboflagellate-naegleria/
https://jgi.doe.gov/publication/a-global-atlas-of-soil-viruses-reveals-unexplored-biodiversity-and-potential-biogeochemical-impacts-2/
https://jgi.doe.gov/publication/a-global-atlas-of-soil-viruses-reveals-unexplored-biodiversity-and-potential-biogeochemical-impacts/
https://jgi.doe.gov/publication/a-global-metagenomic-map-of-urban-microbiomes-and-antimicrobial-resistance/
https://jgi.doe.gov/publication/a-global-phylogenomic-analysis-of-the-shiitake-genus-lentinula/
https://jgi.doe.gov/publication/a-global-survey-of-arsenic-related-genes-in-soil-microbiomes/
https://jgi.doe.gov/publication/a-glycan-array-based-assay-for-the-identification-and-characterization-of-plant-glycosyltransferases/
https://jgi.doe.gov/publication/a-guide-to-conquer-the-biological-network-era-using-graph-theory/
https://jgi.doe.gov/publication/a-guide-to-gene%e2%80%90centric-analysis-using-treesapp/
https://jgi.doe.gov/publication/a-hemoprotein-with-a-zinc-mirror-heme-site-ties-heme-availability-to-carbon-metabolism-in-cyanobacteria-2/
https://jgi.doe.gov/publication/a-hemoprotein-with-a-zinc-mirror-heme-site-ties-heme-availability-to-carbon-metabolism-in-cyanobacteria/
https://jgi.doe.gov/publication/a-horizontal-gene-transfer-event-defines-two-distinct-groups-within-burkholderia-pseudomallei-that-have-dissimilar-geographic-distributions-2/
https://jgi.doe.gov/publication/a-horizontal-gene-transfer-event-defines-two-distinct-groups-within-burkholderia-pseudomallei-that-have-dissimilar-geographic-distributions/
https://jgi.doe.gov/publication/a-k-mer-based-approach-for-phylogenetic-classification-of-taxa-in-environmental-genomic-data-2/
https://jgi.doe.gov/publication/a-k-mer-based-approach-for-phylogenetic-classification-of-taxa-in-environmental-genomic-data-3/
https://jgi.doe.gov/publication/a-k-mer-based-approach-for-phylogenetic-classification-of-taxa-in-environmental-genomic-data/
https://jgi.doe.gov/publication/a-korarchaeal-genome-reveals-insights-into-the-evolution-of-the-archaea/
https://jgi.doe.gov/publication/a-large-sequenced-mutant-library-valuable-reverse-genetic-resource-that-covers-98-of-sorghum-genes-2/
https://jgi.doe.gov/publication/a-large-sequenced-mutant-library-valuable-reverse-genetic-resource-that-covers-98-of-sorghum-genes-3/
https://jgi.doe.gov/publication/a-large-sequenced-mutant-library-valuable-reverse-genetic-resource-that-covers-98-of-sorghum-genes/
https://jgi.doe.gov/publication/a-metagenome-level-analysis-of-a-microbial-community-fermenting-ultra-filtered-milk-permeate-2/
https://jgi.doe.gov/publication/a-metagenome-level-analysis-of-a-microbial-community-fermenting-ultra-filtered-milk-permeate-3/
https://jgi.doe.gov/publication/a-metagenome-level-analysis-of-a-microbial-community-fermenting-ultra-filtered-milk-permeate/
https://jgi.doe.gov/publication/a-metagenomic-insight-into-freshwater-methane-utilizing-communities-and-evidence-for-cooperation-between-the-methylococcaceae-and-the-methylophilaceae-2/
https://jgi.doe.gov/publication/a-metagenomics-roadmap-to-the-uncultured-genome-diversity-in-hypersaline-soda-lake-sediments/
https://jgi.doe.gov/publication/a-microarray-for-assessing-transcription-from-pelagic-marine-microbial-taxa/
https://jgi.doe.gov/publication/a-molecular-study-of-microbe-transfer-between-distant-environments/
https://jgi.doe.gov/publication/a-molecular-survey-of-australian-and-north-american-termite-genera-indicates-that-vertical-inheritance-is-the-primary-force-shaping-termite-gut-microbiomes/
https://jgi.doe.gov/publication/a-mosaic-monoploid-reference-sequence-for-the-highly-complex-genome-of-sugarcane/
https://jgi.doe.gov/publication/a-most-wanted-list-of-conserved-microbial-protein-families-with-no-known-domains/
https://jgi.doe.gov/publication/a-multi-omic-characterization-of-temperature-stress-in-a-halotolerant-scenedesmus-strain-for-algal-biotechnology/
https://jgi.doe.gov/publication/a-multi-omic-survey-of-black-cottonwood-tissues-highlights-coordinated-transcriptomic-and-metabolomic-mechanisms-for-plant-adaptation-to-phosphorus-deficiency-2/
https://jgi.doe.gov/publication/a-multi-omic-survey-of-black-cottonwood-tissues-highlights-coordinated-transcriptomic-and-metabolomic-mechanisms-for-plant-adaptation-to-phosphorus-deficiency/
https://jgi.doe.gov/publication/a-multiomic-approach-to-understand-how-pleurotus-eryngii-transforms-non-woody-lignocellulosic-material/
https://jgi.doe.gov/publication/a-mutation-in-the-adhe-alcohol-dehydrogenase-of-clostridium-thermocellum-increases-tolerance-to-several-primary-alcohols-including-isobutanol-n-butanol-and-ethanol/
https://jgi.doe.gov/publication/a-near-complete-haplotype-phased-genome-of-the-dikaryotic-wheat-stripe-rust-fungus-puccinia-striiformis-f-sp-tritici-reveals-high-interhaplotype-diversity/
https://jgi.doe.gov/publication/a-near-complete-snapshot-of-the-zea-mays-seedling-transcriptome-revealed-from-ultra-deep-sequencing/
https://jgi.doe.gov/publication/a-new-method-to-correct-for-habitat-filtering-in-microbial-correlation-networks/
https://jgi.doe.gov/publication/a-new-nomenclature-of-xenopus-laevis-chromosomes-based-on-the-phylogenetic-relationship-to-siluranaxenopus-tropicalis-11/
https://jgi.doe.gov/publication/a-new-reference-genome-for-sorghum-bicolor-reveals-high-levels-of-sequence-similarity-between-sweet-and-grain-genotypes-implications-for-the-genetics-of-sugar-metabolism/
https://jgi.doe.gov/publication/a-new-to-nature-carboxylation-module-to-improve-natural-and-synthetic-co2-fixation/
https://jgi.doe.gov/publication/a-novel-ecological-role-of-the-firmicutes-identified-in-thermophilic-microbial-fuel-cells/
https://jgi.doe.gov/publication/a-novel-freshwater-to-marine-evolutionary-transition-revealed-within-methylophilaceae-bacteria-from-the-arctic-ocean/
https://jgi.doe.gov/publication/a-parts-list-for-fungal-cellulosomes-revealed-by-comparative-genomics-2/
https://jgi.doe.gov/publication/a-parts-list-for-fungal-cellulosomes-revealed-by-comparative-genomics/
https://jgi.doe.gov/publication/a-perspective-metatranscriptomics-as-a-tool-for-the-discovery-of-novel-biocatalysts/
https://jgi.doe.gov/publication/a-photoactive-carotenoid-protein-acting-as-light-intensity-sensor/
https://jgi.doe.gov/publication/a-phylogenetically-novel-cyanobacterium-most-closely-related-to-gloeobacter/
https://jgi.doe.gov/publication/a-phylogeny-driven-genomic-encyclopaedia-of-bacteria-and-archaea-2/
https://jgi.doe.gov/publication/a-phylogeny-driven-genomic-encyclopaedia-of-bacteria-and-archaea/
https://jgi.doe.gov/publication/a-phylum-level-phylogenetic-classification-of-zygomycete-fungi-based-on-genome-scale-data-2/
https://jgi.doe.gov/publication/a-phylum-level-phylogenetic-classification-of-zygomycete-fungi-based-on-genome-scale-data/
https://jgi.doe.gov/publication/a-physical-map-of-the-highly-heterozygous-populus-genome-integration-with-the-genome-sequence-and-genetic-map-and-analysis-of-haplotype-variation/
https://jgi.doe.gov/publication/a-pipeline-for-targeted-metagenomics-of-environmental-bacteria/
https://jgi.doe.gov/publication/a-plant-host-nicotiana-benthamiana-enables-the-production-and-study-of-fungal-lignin-degrading-enzymes/
https://jgi.doe.gov/publication/a-pleiotropic-flowering-time-qtl-exhibits-gene-by-environment-interaction-for-fitness-in-a-perennial-grass-2/
https://jgi.doe.gov/publication/a-practical-approach-to-using-the-genomic-standards-consortium-mixs-reporting-standard-for-comparative-genomics-and-metagenomics-2/
https://jgi.doe.gov/publication/a-practical-approach-to-using-the-genomic-standards-consortium-mixs-reporting-standard-for-comparative-genomics-and-metagenomics/
https://jgi.doe.gov/publication/a-predicted-crispr-mediated-symbiosis-between-uncultivated-archaea/
https://jgi.doe.gov/publication/a-programmable-droplet-based-microfluidic-device-applied-to-multiparameter-analysis-of-single-microbes-and-microbial-communities/
https://jgi.doe.gov/publication/a-proposal-to-sequence-the-amphioxus-genome-submitted-to-the-joint-genome-institute-of-the-us-department-of-energy/
https://jgi.doe.gov/publication/a-reassessment-of-the-referral-of-sea-turtle-skulls-to-the-genus-osteopygis-late-cretaceous-new-jersey-usa/
https://jgi.doe.gov/publication/a-recommendation-for-naming-transcription-factor-proteins-in-the-grasses/
https://jgi.doe.gov/publication/a-remarkable-expansion-of-oligopeptide-transporter-genes-in-rust-fungi-pucciniales-suggests-a-specialization-in-nutrient-acquisition-for-obligate-biotrophy/
https://jgi.doe.gov/publication/a-renaissance-for-the-pioneering-16s-rrna-gene-2/
https://jgi.doe.gov/publication/a-renaissance-for-the-pioneering-16s-rrna-gene/
https://jgi.doe.gov/publication/a-restricted-spectrum-of-nras-mutations-causes-noonan-syndrome/
https://jgi.doe.gov/publication/a-roadmap-for-research-on-crassulacean-acid-metabolism-cam-to-enhance-sustainable-food-and-bioenergy-production-in-a-hotter-drier-world-11/
https://jgi.doe.gov/publication/a-robust-gene-stacking-method-utilizing-yeast-assembly-for-plant-synthetic-biology/
https://jgi.doe.gov/publication/a-saturation-screen-for-cis-acting-regulatory-dna-in-the-hox-genes-of-ciona-intestinalis/
https://jgi.doe.gov/publication/a-scaffolded-and-annotated-reference-genome-of-giant-kelp-macrocystis-pyrifera/
https://jgi.doe.gov/publication/a-second-special-issue-of-standards-in-genomic-sciences-from-the-genomic-standards-consortium/
https://jgi.doe.gov/publication/a-segmental-genomic-duplication-generates-a-functional-intron/
https://jgi.doe.gov/publication/a-simple-fast-and-accurate-method-of-phylogenomic-inference/
https://jgi.doe.gov/publication/a-single-base-resolution-map-of-an-archaeal-transcriptome/
https://jgi.doe.gov/publication/a-single-cell-arabidopsis-root-atlas-reveals-developmental-trajectories-in-wild-type-and-cell-identity-mutants-2/
https://jgi.doe.gov/publication/a-single-cell-genome-perspective-on-studying-intracellular-associations-in-unicellular-eukaryotes/
https://jgi.doe.gov/publication/a-single-cell-genomics-pipeline-for-environmental-microbial-eukaryotes/
https://jgi.doe.gov/publication/a-single-nucleotide-change-in-the-polc-dna-polymerase-iii-in-clostridium-thermocellum-is-sufficient-to-create-a-hypermutator-phenotype-2/
https://jgi.doe.gov/publication/a-sorghum-genome-wide-association-study-gwas-identifies-a-wrky-transcription-factor-as-a-candidate-gene-underlying-sugarcane-aphid-melanaphis-sacchari-resistance-2/
https://jgi.doe.gov/publication/a-standard-enabled-workflow-for-synthetic-biology-2/
https://jgi.doe.gov/publication/a-standard-enabled-workflow-for-synthetic-biology/
https://jgi.doe.gov/publication/a-standardized-quantitative-analysis-strategy-for-stable-isotope-probing-metagenomics/
https://jgi.doe.gov/publication/a-standardized-synthetic-eucalyptus-transcription-factor-and-promoter-panel-for-re-engineering-secondary-cell-wall-regulation-in-biomass-and-bioenergy-crops/
https://jgi.doe.gov/publication/a-sweet-spot-in-marine-ecosystems-2/
https://jgi.doe.gov/publication/a-synthesis-of-bacterial-and-archaeal-phenotypic-trait-data/
https://jgi.doe.gov/publication/a-synthetic-gene-library-yields-a-previously-unknown-glycoside-phosphorylase-that-degrades-and-assembles-poly-%ce%b2-13-glcnac-completing-the-suite-of-%ce%b2%e2%80%91linked-glcnac-polysaccharides-2/
https://jgi.doe.gov/publication/a-synthetic-pathway-for-the-fixation-of-carbon-dioxide-in-vitro/
https://jgi.doe.gov/publication/a-tale-of-two-codes/
https://jgi.doe.gov/publication/a-taxonomy-of-bacterial-microcompartment-loci-constructed-by-a-novel-scoring-method/
https://jgi.doe.gov/publication/a-telomere-to-telomere-genome-assembly-resource-of-bipolaris-sorokiniana-the-fungal-pathogen-causing-spot-blotch-and-common-root-rot-diseases-in-barley-and-wheat/
https://jgi.doe.gov/publication/a-thermophilic-ionic-liquid-tolerant-cellulase-cocktail-for-the-production-of-cellulosic-biofuels/
https://jgi.doe.gov/publication/a-thermostable-cas9-with-increased-lifetime-in-human-plasma/
https://jgi.doe.gov/publication/a-thousand-genome-panel-retraces-the-global-spread-and-adaptation-of-a-major-fungal-crop-pathogen/
https://jgi.doe.gov/publication/a-toolkit-for-microbial-community-editing-2/
https://jgi.doe.gov/publication/a-toolset-of-constitutive-promoters-for-metabolic-engineering-of-rhodosporidium-toruloides/
https://jgi.doe.gov/publication/a-transcriptomic-atlas-of-acute-stress-response-to-low-ph-in-multiple-issatchenkia-orientalis-strains-2/
https://jgi.doe.gov/publication/a-transcriptomic-atlas-of-acute-stress-response-to-low-ph-in-multiple-issatchenkia-orientalis-strains-3/
https://jgi.doe.gov/publication/a-transcriptomic-atlas-of-acute-stress-response-to-low-ph-in-multiple-issatchenkia-orientalis-strains/
https://jgi.doe.gov/publication/a-txtl-based-assay-to-rapidly-identify-pams-for-crispr-cas-systems-with-multi-protein-effector-complexes-2/
https://jgi.doe.gov/publication/a-variable-polyglutamine-repeat-affects-subcellular-localization-and-regulatory-activity-of-a-populus-angustifolia-protein/
https://jgi.doe.gov/publication/a-vast-collection-of-microbial-genes-that-are-toxic-to-bacteria/
https://jgi.doe.gov/publication/a-versatile-toolkit-for-high-throughput-functional-genomics-with-trichoderma-reesei/
https://jgi.doe.gov/publication/a-viability-linked-metagenomic-analysis-of-cleanroom-environments-eukarya-prokaryotes-and-viruses/
https://jgi.doe.gov/publication/a-view-of-the-pan%e2%80%90genome-of-domesticated-cowpea-vigna-unguiculata-l-walp/
https://jgi.doe.gov/publication/a-viral-ecogenomics-framework-to-uncover-the-secrets-of-natures-microbe-whisperers/
https://jgi.doe.gov/publication/a-viral-reckoning-viruses-emerge-as-essential-manipulators-of-global-ecosystems/
https://jgi.doe.gov/publication/a-whole-genome-shotgun-approach-for-assembling-and-anchoring-the-hexaploid-bread-wheat-genome/
https://jgi.doe.gov/publication/a-willow-sex-chromosome-reveals-convergent-evolution-of-complex-palindromic-repeats/
https://jgi.doe.gov/publication/a-xyloglucan-backbone-6-o-acetyltransferase-from-brachypodium-distachyon-modulates-xyloglucan-xylosylation/
https://jgi.doe.gov/publication/a-zinc-finger-family-transcription-factor-abvf19-is-required-for-the-induction-of-a-gene-subset-important-for-virulence-in-alternaria-brassicicola/
https://jgi.doe.gov/publication/abiotic-selection-of-microbial-genome-size-in-the-global-ocean/
https://jgi.doe.gov/publication/abiotic-stress-reorganizes-rhizosphere-and-endosphere-network-structure-of-sorghum-bicolor-2/
https://jgi.doe.gov/publication/abiotic-stress-reorganizes-rhizosphere-and-endosphere-network-structure-of-sorghum-bicolor/
https://jgi.doe.gov/publication/abscisic-acid-supports-colonization-of-eucalyptus-grandis-roots-by-the-mutualistic-ectomycorrhizal-fungus-pisolithus-microcarpus-2/
https://jgi.doe.gov/publication/absence-of-genome-reduction-in-diverse-facultative-endohyphal-bacteria/
https://jgi.doe.gov/publication/abundant-atribacteria-in-deep-marine-sediment-from-the-adelie-basin-antarctica-11/
https://jgi.doe.gov/publication/abundant-nitrite-oxidizing-metalloenzymes-in-the-mesopelagic-zone-of-the-tropical-pacific-ocean/
https://jgi.doe.gov/publication/accelerated-evolution-of-conserved-noncoding-sequences-in-humans/
https://jgi.doe.gov/publication/accrispr-an-activity-correction-method-for-improving-the-accuracy-of-crispr-screens/
https://jgi.doe.gov/publication/accurate-phylogenetic-classification-of-variable-length-dna-fragments/
https://jgi.doe.gov/publication/acdc-automated-contamination-detection-and-confidence-estimation-for-single-cell-genome-data/
https://jgi.doe.gov/publication/acidithiobacillus-ferrooxidans-metabolism-from-genome-sequence-to-industrial-applications/
https://jgi.doe.gov/publication/acidobacteria-phylum-sequences-in-uranium-contaminated-subsurface-sediments-greatly-expand-the-known-diversity-within-the-phylum/
https://jgi.doe.gov/publication/acquisition-of-host-derived-carbon-in-biomass-of-the-ectomycorrhizal-fungus-pisolithus-microcarpus-is-correlated-to-fungal-carbon-demand-and-plant-defences/
https://jgi.doe.gov/publication/actinobase-tools-and-protocols-for-researchers-working-on-streptomyces-and-other-filamentous-actinobacteria-2/
https://jgi.doe.gov/publication/active-anaerobic-methane-oxidation-and-sulfur-disproportionation-in-the-deep-terrestrial-subsurface-2/
https://jgi.doe.gov/publication/active-site-and-laminarin-binding-in-glycoside-hydrolase-family-55/
https://jgi.doe.gov/publication/activity-based-genome-resolved-metagenomics-uncovers-key-populations-and-pathways-involved-in-subsurface-conversions-of-coal-to-methane-2/
https://jgi.doe.gov/publication/acute-limonene-toxicity-in-escherichia-coli-is-caused-by-limonene-hydroperoxide-and-alleviated-by-a-point-mutation-in-alkyl-hydroperoxidase-ahpc-11/
https://jgi.doe.gov/publication/adaptation-strategies-of-giant-viruses-to-low-temperature-marine-ecosystems-2/
https://jgi.doe.gov/publication/adaptation-strategies-of-giant-viruses-to-low-temperature-marine-ecosystems-3/
https://jgi.doe.gov/publication/adaptation-strategies-of-giant-viruses-to-low-temperature-marine-ecosystems/
https://jgi.doe.gov/publication/adaptation-to-environmental-extremes-structures-functional-traits-in-biological-soil-crust-and-hypolithic-microbial-communities-2/
https://jgi.doe.gov/publication/adaptation-to-herbivory-by-the-tammar-wallaby-includes-bacterial-and-glycoside-hydrolase-profiles-different-from-other-herbivores/
https://jgi.doe.gov/publication/adaptations-to-marine-versus-terrestrial-low-temperature-environments-as-revealed-by-comparative-genomic-analyses-of-the-genus-psychrobacter/
https://jgi.doe.gov/publication/adaptations-to-submarine-hydrothermal-environments-exemplified-by-the-genome-of-nautilia-profundicola/
https://jgi.doe.gov/publication/adapted-laboratory-evolution-of-thermotoga-sp-strain-rq7-under-carbon-starvation-2/
https://jgi.doe.gov/publication/adaptive-evolution-of-pelvic-reduction-in-sticklebacks-by-recurrent-deletion-of-a-pitx1-enhancer/
https://jgi.doe.gov/publication/adaptive-laboratory-evolution-for-improved-tolerance-of-isobutyl-acetate-in-escherichia-coli-2/
https://jgi.doe.gov/publication/advancements-in-the-application-of-nanosims-and-raman-microspectroscopy-to-investigate-the-activity-of-microbial-cells-in-soils-11/
https://jgi.doe.gov/publication/advancing-genome-resolved-metagenomics-beyond-the-shotgun/
https://jgi.doe.gov/publication/advantages-and-limits-of-metagenomic-assembly-and-binning-of-a-giant-virus/
https://jgi.doe.gov/publication/aerobic-bacteria-and-archaea-tend-to-have-larger-and-more-versatile-genomes/
https://jgi.doe.gov/publication/aerobic-bacterial-methane-synthesis/
https://jgi.doe.gov/publication/agave-reveille1-regulates-the-onset-and-release-of-seasonal-dormancy-in-populus-2/
https://jgi.doe.gov/publication/agrobacterium-mediated-transformation-of-brachypodium-distachyon-2/
https://jgi.doe.gov/publication/agrobacterium-mediated-transformation-of-brachypodium-distachyon/
https://jgi.doe.gov/publication/airway-microbiota-and-bronchial-hyperresponsiveness-in-patients-with-suboptimally-controlled-asthma/
https://jgi.doe.gov/publication/ale-a-generic-assembly-likelihood-evaluation-framework-for-assessing-the-accuracy-of-genome-and-metagenome-assemblies/
https://jgi.doe.gov/publication/algal-genomes-reveal-evolutionary-mosaicism-and-the-fate-of-nucleomorphs/
https://jgi.doe.gov/publication/alignathon-a-competitive-assessment-of-whole-genome-alignment-methods/
https://jgi.doe.gov/publication/altered-expression-of-two-small-secreted-proteins-ssp4-and-ssp6-affects-the-degradation-of-a-natural-lignocellulosic-substrate-by-pleurotus-ostreatus-2/
https://jgi.doe.gov/publication/altered-expression-of-two-small-secreted-proteins-ssp4-and-ssp6-affects-the-degradation-of-a-natural-lignocellulosic-substrate-by-pleurotus-ostreatus-3/
https://jgi.doe.gov/publication/altered-expression-of-two-small-secreted-proteins-ssp4-and-ssp6-affects-the-degradation-of-a-natural-lignocellulosic-substrate-by-pleurotus-ostreatus/
https://jgi.doe.gov/publication/amigo-online-access-to-ontology-and-annotation-data/
https://jgi.doe.gov/publication/ammonia-oxidising-archaea-living-at-low-ph-insights-from-comparative-genomics/
https://jgi.doe.gov/publication/amplification-and-adaptation-of-centromeric-repeats-in-polyploid-switchgrass-species/
https://jgi.doe.gov/publication/an-adaptive-radiation-model-for-the-origin-of-new-gene-functions/
https://jgi.doe.gov/publication/an-amoeba-and-a-cyanobacterium-walk-into-a-bar-2/
https://jgi.doe.gov/publication/an-analysis-of-codon-bias-in-six-red-yeast-species-2/
https://jgi.doe.gov/publication/an-analysis-of-codon-bias-in-six-red-yeast-species/
https://jgi.doe.gov/publication/an-ancestral-matryoshka-doll/
https://jgi.doe.gov/publication/an-atlas-of-over-90000-conserved-noncoding-sequences-provides-insight-into-crucifer-regulatory-regions/
https://jgi.doe.gov/publication/an-ectomycorrhizal-fungus-alters-sensitivity-to-jasmonate-salicylate-gibberellin-and-ethylene-in-host-roots/
https://jgi.doe.gov/publication/an-efficient-cre%e2%80%90based-workflow-for-genomic-integration-and-expression-of-large-biosynthetic-pathways-in-eubacterium-limosum-2/
https://jgi.doe.gov/publication/an-efficient-cre%e2%80%90based-workflow-for-genomic-integration-and-expression-of-large-biosynthetic-pathways-in-eubacterium-limosum-3/
https://jgi.doe.gov/publication/an-efficient-cre%e2%80%90based-workflow-for-genomic-integration-and-expression-of-large-biosynthetic-pathways-in-eubacterium-limosum/
https://jgi.doe.gov/publication/an-environmental-bacterial-taxon-with-a-large-and-distinct-metabolic-repertoire/
https://jgi.doe.gov/publication/an-experimental-metagenome-data-management-and-analysis-system/
https://jgi.doe.gov/publication/an-extremely-halophilic-proteobacterium-combines-a-highly-acidic-proteome-with-a-low-cytoplasmic-potassium-content/
https://jgi.doe.gov/publication/an-hmm-approach-expands-the-landscape-of-sesquiterpene-cyclases-across-the-kingdom-fungi/
https://jgi.doe.gov/publication/an-improved-genome-of-the-model-marine-alga-ostreococcus-tauri-unfolds-by-assessing-illumina-de-novo-assemblies-11/
https://jgi.doe.gov/publication/an-improved-high-quality-draft-genome-sequence-of-carnobacterium-inhibens-subsp-inhibens-strain-k1t/
https://jgi.doe.gov/publication/an-improved-method-for-the-in-vitro-evolution-of-aptamers-and-applications-in-protein-detection-and-purification/
https://jgi.doe.gov/publication/an-insect-herbivore-microbiome-with-high-plant-biomass-degrading-capacity/
https://jgi.doe.gov/publication/an-integrated-in-vivo-in-vitro-framework-to-enhance-cell-free-biosynthesis-with-metabolically-rewired-yeast-extracts/
https://jgi.doe.gov/publication/an-integrated-metagenomic-metabolomic-and-transcriptomic-survey-of-populus-across-genotypes-and-environments-2/
https://jgi.doe.gov/publication/an-integrated-metagenomic-metabolomic-and-transcriptomic-survey-of-populus-across-genotypes-and-environments/
https://jgi.doe.gov/publication/an-integrated-workflow-for-phenazine-modifying-enzyme-characterization/
https://jgi.doe.gov/publication/an-integrative-computational-approach-for-prioritization-of-genomic-variants/
https://jgi.doe.gov/publication/an-optimized-chip%e2%80%90seq-framework-for-profiling-histone-modifications-in-chromochloris-zofingiensis-2/
https://jgi.doe.gov/publication/an-orthogonal-metabolic-framework-for-one-carbon-utilization-2/
https://jgi.doe.gov/publication/anaerobic-decomposition-of-switchgrass-by-tropical-soil-derived-feedstock-adapted-consortia/
https://jgi.doe.gov/publication/anaerobic-degradation-of-syringic-acid-by-an-adapted-strain-of-rhodopseudomonas-palustris/
https://jgi.doe.gov/publication/anaerobic-gut-fungi-are-an-untapped-reservoir-of-natural-products/
https://jgi.doe.gov/publication/analyses-of-expressed-sequence-tags-from-the-maize-foliar-pathogen-cercospora-zeae-maydis-identify-novel-genes-expressed-during-vegetative-infectious-and-reproductive-growth/
https://jgi.doe.gov/publication/analysis-of-1000-type-strain-genomes-improves-taxonomic-classification-of-bacteroidetes-2/
https://jgi.doe.gov/publication/analysis-of-1000-type-strain-genomes-improves-taxonomic-classification-of-bacteroidetes/
https://jgi.doe.gov/publication/analysis-of-1000-type-strain-genomes-substantially-improves-taxonomic-classification-of-alphaproteobacteria/
https://jgi.doe.gov/publication/analysis-of-4664-high-quality-sequence-finished-poplar-full-length-cdna-clones-and-their-utility-for-the-discovery-of-genes-responding-to-insect-feeding/
https://jgi.doe.gov/publication/analysis-of-81-genes-from-64-plastid-genomes-resolves-relationships-in-angiosperms-and-identifies-genome-scale-evolutionary-patterns/
https://jgi.doe.gov/publication/analysis-of-amino-acid-substitutions-in-arac-variants-that-respond-to-triacetic-acid-lactone/
https://jgi.doe.gov/publication/analysis-of-apolipoprotein-a5-c3-and-plasma-triglyceride-concentrations-in-genetically-engineered-mice/
https://jgi.doe.gov/publication/analysis-of-brachypodium-genomes-with-genome-wide-optical-maps/
https://jgi.doe.gov/publication/analysis-of-clock-regulated-genes-in-neurospora-reveals-widespread-posttranscriptional-control-of-metabolic-potential/
https://jgi.doe.gov/publication/analysis-of-leaf-and-root-transcriptomes-of-soil-grown-avena-barbata-plants/
https://jgi.doe.gov/publication/analysis-of-plant-pan-genomes-and-transcriptomes-with-get_homologues-est-a-clustering-solution-for-sequences-of-the-same-species/
https://jgi.doe.gov/publication/analysis-of-porphyra-membrane-transporters-demonstrates-gene-transfer-among-photosynthetic-eukaryotes-and-numerous-sodium-coupled-transport-systems/
https://jgi.doe.gov/publication/analysis-of-saccharification-in-brachypodium-distachyon-stems-under-mild-conditions-of-hydrolysis/
https://jgi.doe.gov/publication/analysis-of-ten-brucella-genomes-reveals-evidence-for-horizontal-gene-transfer-despite-a-preferred-intracellular-lifestyle/
https://jgi.doe.gov/publication/analysis-of-the-complete-mitochondrial-genome-sequences-of-the-soybean-rust-pathogens-phakopsora-pachyrhizi-and-p-meibomiae/
https://jgi.doe.gov/publication/analysis-of-the-neurotoxin-complex-genes-in-clostridium-botulinum-a1-a4-and-b1-strains-bonta3-ba4-and-b1-clusters-are-located-within-plasmids-2/
https://jgi.doe.gov/publication/analysis-of-the-neurotoxin-complex-genes-in-clostridium-botulinum-a1-a4-and-b1-strains-bonta3-ba4-and-b1-clusters-are-located-within-plasmids/
https://jgi.doe.gov/publication/analysis-of-the-phlebiopsis-gigantea-genome-transcriptome-and-secretome-provides-insight-into-its-pioneer-colonization-strategies-of-wood/
https://jgi.doe.gov/publication/analysis-of-twelve-genomes-of-the-bacterium-kerstersia-gyiorum-from-brown-throated-sloths-bradypus-variegatus-the-first-from-a-non-human-host-2/
https://jgi.doe.gov/publication/analysis-of-twelve-genomes-of-the-bacterium-kerstersia-gyiorum-from-brown-throated-sloths-bradypus-variegatus-the-first-from-a-non-human-host/
https://jgi.doe.gov/publication/anatomy-and-development-of-the-nervous-system-of-nematostella-vectensis-an-anthozoan-cnidarian/
https://jgi.doe.gov/publication/anchoring-and-ordering-ngs-contig-assemblies-by-population-sequencing-popseq-2/
https://jgi.doe.gov/publication/ancient-hybridizations-among-the-ancestral-genomes-of-bread-wheat/
https://jgi.doe.gov/publication/ancient-polymorphisms-contribute-to-genome-wide-variation-by-long-term-balancing-selection-and-divergent-sorting-in-boechera-stricta/
https://jgi.doe.gov/publication/annotated-genome-sequence-of-the-high-biomass-producing-yellow-green-alga-tribonema-minus/
https://jgi.doe.gov/publication/annotation-and-sequence-diversity-of-transposable-elements-in-common-bean-phaseolus-vulgaris/
https://jgi.doe.gov/publication/annotation-of-metagenome-short-reads-using-proxygenes/
https://jgi.doe.gov/publication/annotation-of-protein-coding-genes-in-fungal-genomes/
https://jgi.doe.gov/publication/annotation-of-the-corymbia-terpene-synthase-gene-family-shows-broad-conservation-but-dynamic-evolution-of-physical-clusters-relative-to-eucalyptus/
https://jgi.doe.gov/publication/annotation-survey-and-life-cycle-transcriptomics-of-transcription-factors-in-rust-fungi-pucciniales-identify-a-possible-role-for-cold-shock-proteins-in-dormancy-exit-2/
https://jgi.doe.gov/publication/anoxic-carbon-flux-in-photosynthetic-microbial-mats-as-revealed-by-metatranscriptomics/
https://jgi.doe.gov/publication/anoxygenic-phototroph-of-the-chloroflexota-uses-a-type-i-reaction-centre-2/
https://jgi.doe.gov/publication/anoxygenic-phototroph-of-the-chloroflexota-uses-a-type-i-reaction-centre/
https://jgi.doe.gov/publication/antarctic-archaea-virus-interactions-metaproteome-led-analysis-of-invasion-evasion-and-adaptation-11/
https://jgi.doe.gov/publication/antarctic-lake-viromes-reveal-potential-virus-associated-influences-on-nutrient-cycling-in-ice-covered-lakes-2/
https://jgi.doe.gov/publication/antarctic-lake-viromes-reveal-potential-virus-associated-influences-on-nutrient-cycling-in-ice-covered-lakes-3/
https://jgi.doe.gov/publication/antarctic-lake-viromes-reveal-potential-virus-associated-influences-on-nutrient-cycling-in-ice-covered-lakes/
https://jgi.doe.gov/publication/antiquaquibacter-oligotrophicus-gen-nov-sp-nov-a-novel-oligotrophic-bacterium-from-groundwater-2/
https://jgi.doe.gov/publication/antiquaquibacter-oligotrophicus-gen-nov-sp-nov-a-novel-oligotrophic-bacterium-from-groundwater-3/
https://jgi.doe.gov/publication/antiquaquibacter-oligotrophicus-gen-nov-sp-nov-a-novel-oligotrophic-bacterium-from-groundwater/
https://jgi.doe.gov/publication/antisense-down-regulation-of-4cl-expression-alters-lignification-tree-growth-and-saccharification-potential-of-field-grown-poplar/
https://jgi.doe.gov/publication/apolipoprotein-a5-a-crucial-determinant-of-plasma-triglyceride-levels-is-highly-responsive-to-peroxisome-proliferator-activated-receptor-alpha-activators/
https://jgi.doe.gov/publication/apolipoprotein-a5-a-newly-identified-gene-that-affects-plasma-triglyceride-levels-in-humans-and-mice/
https://jgi.doe.gov/publication/application-of-a-high-density-oligonucleotide-microarray-approach-to-study-bacterial-population-dynamics-during-uranium-reduction-and-reoxidation/
https://jgi.doe.gov/publication/application-of-sequence-based-methods-in-human-microbial-ecology/
https://jgi.doe.gov/publication/applying-promiscuous-ripp-enzymes-to-peptide-backbone-n%e2%80%91methylation-chemistry-2/
https://jgi.doe.gov/publication/aquifer-environment-selects-for-microbial-species-cohorts-in-sediment-and-groundwater/
https://jgi.doe.gov/publication/arabidopsis-root-microbiome-microfluidic-armm-device-for-imaging-bacterial-colonization-and-morphogenesis-of-arabidopsis-roots-2/
https://jgi.doe.gov/publication/arabidopsis-root-microbiome-microfluidic-armm-device-for-imaging-bacterial-colonization-and-morphogenesis-of-arabidopsis-roots-3/
https://jgi.doe.gov/publication/arabidopsis-root-microbiome-microfluidic-armm-device-for-imaging-bacterial-colonization-and-morphogenesis-of-arabidopsis-roots/
https://jgi.doe.gov/publication/arar-plays-a-more-dominant-role-than-xlnr-in-plant-biomass-conversion-in-penicillium-subrubescens-2/
https://jgi.doe.gov/publication/arar-plays-a-more-dominant-role-than-xlnr-in-plant-biomass-conversion-in-penicillium-subrubescens-3/
https://jgi.doe.gov/publication/arar-plays-a-more-dominant-role-than-xlnr-in-plant-biomass-conversion-in-penicillium-subrubescens/
https://jgi.doe.gov/publication/arbitrator-a-software-pipeline-for-on-demand-retrieval-of-auto-curated-nifh-sequences-from-genbank/
https://jgi.doe.gov/publication/arboriscoccus-pini-gen-nov-sp-nov-an-endophyte-from-a-pine-tree-of-the-class-alphaproteobacteria-emended-description-of-geminicoccus-roseus-and-proposal-of-geminicoccaceae-fam-nov/
https://jgi.doe.gov/publication/architecture-of-thermal-adaptation-in-an-exiguobacterium-sibiricum-strain-isolated-from-3-million-year-old-permafrost-a-genome-and-transcriptome-approach/
https://jgi.doe.gov/publication/arhgef9-disruption-in-a-female-patient-is-associated-with-x-linked-mental-retardation-and-sensory-hyperarousal/
https://jgi.doe.gov/publication/aromatic-dimer-dehydrogenases-from-novosphingobium-aromaticivorans-reduce-monoaromatic-diketones-2/
https://jgi.doe.gov/publication/array2bio-from-microarray-expression-data-to-functional-annotation-of-co-regulated-genes/
https://jgi.doe.gov/publication/artificial-polyploidy-improves-bacterial-single-cell-genome-recovery/
https://jgi.doe.gov/publication/aspects-of-the-neurospora-crassa-sulfur-starvation-response-are-revealed-by-transcriptional-profiling-and-dna-affinity-purification-sequencing/
https://jgi.doe.gov/publication/aspergillus-niger-genomics-past-present-and-into-the-future/
https://jgi.doe.gov/publication/assemblathon-1-a-competitive-assessment-of-de-novo-short-read-assembly-methods-2/
https://jgi.doe.gov/publication/assemblathon-1-a-competitive-assessment-of-de-novo-short-read-assembly-methods/
https://jgi.doe.gov/publication/assemblathon-2-evaluating-de-novo-methods-of-genome-assembly-in-three-vertebrate-species/
https://jgi.doe.gov/publication/assembled-genomic-and-tissue-specific-transcriptomic-data-resources-for-two-genetically-distinct-lines-of-cowpea-vigna-unguiculata-l-walp-2/
https://jgi.doe.gov/publication/assembled-genomic-and-tissue-specific-transcriptomic-data-resources-for-two-genetically-distinct-lines-of-cowpea-vigna-unguiculata-l-walp/
https://jgi.doe.gov/publication/assembling-single-cell-genomes-and-mini-metagenomes-from-chimeric-mda-products/
https://jgi.doe.gov/publication/assembling-the-marine-metagenome-one-cell-at-a-time/
https://jgi.doe.gov/publication/assembly-and-seasonality-of-core-phyllosphere-microbiota-on-perennial-biofuel-crops/
https://jgi.doe.gov/publication/assembly-and-succession-of-iron-oxide-microbial-mat-communities-in-acidic-geothermal-springs/
https://jgi.doe.gov/publication/assembly-comparative-analysis-and-utilization-of-a-single-haplotype-reference-genome-for-soybean-2/
https://jgi.doe.gov/publication/assembly-comparative-analysis-and-utilization-of-a-single-haplotype-reference-genome-for-soybean-3/
https://jgi.doe.gov/publication/assembly-comparative-analysis-and-utilization-of-a-single-haplotype-reference-genome-for-soybean/
https://jgi.doe.gov/publication/assembly-of-500000-inter-specific-catfish-expressed-sequence-tags-and-large-scale-gene-associated-marker-development-for-whole-genome-association-studies-2/
https://jgi.doe.gov/publication/assembly-of-500000-inter-specific-catfish-expressed-sequence-tags-and-large-scale-gene-associated-marker-development-for-whole-genome-association-studies/
https://jgi.doe.gov/publication/assembly-of-robust-bacterial-microcompartment-shells-using-building-blocks-from-an-organelle-of-unknown-function/
https://jgi.doe.gov/publication/assembly-of-the-373k-gene-space-of-the-polyploid-sugarcane-genome-reveals-reservoirs-of-functional-diversity-in-the-worlds-leading-biomass-crop/
https://jgi.doe.gov/publication/assembly-of-the-boechera-retrofracta-genome-and-evolutionary-analysis-of-apomixis-associated-genes/
https://jgi.doe.gov/publication/assembly-of-viral-metagenomes-from-yellowstone-hot-springs/
https://jgi.doe.gov/publication/assessment-of-the-deepwater-horizon-oil-spill-impact-on-gulf-coast-microbial-communities/
https://jgi.doe.gov/publication/association-mapping-by-aerial-drone-reveals-213-genetic-associations-for-sorghum-bicolor-biomass-traits-under-drought/
https://jgi.doe.gov/publication/association-mapping-transcriptomics-and-transient-expression-identify-candidate-genes-mediating-plant-pathogen-interactions-in-a-tree/
https://jgi.doe.gov/publication/association-of-common-variants-in-the-joubert-syndrome-gene-ahi1-with-autism/
https://jgi.doe.gov/publication/association-of-functionally-significant-melanocortin-4-but-not-melanocortin-3-receptor-mutations-with-severe-adult-obesity-in-a-large-north-american-case-control-study/
https://jgi.doe.gov/publication/astrovirology-how-viruses-enhance-our-understanding-of-life-in-the-universe-2/
https://jgi.doe.gov/publication/astrovirology-how-viruses-enhance-our-understanding-of-life-in-the-universe-3/
https://jgi.doe.gov/publication/astrovirology-how-viruses-enhance-our-understanding-of-life-in-the-universe/
https://jgi.doe.gov/publication/at-the-nexus-of-three-kingdoms-the-genome-of-the-mycorrhizal-fungus-gigaspora-margarita-provides-insights-into-plant-endobacterial-and-fungal-interactions/
https://jgi.doe.gov/publication/atgc-a-database-of-orthologous-genes-from-closely-related-prokaryotic-genomes-and-a-research-platform-for-microevolution-of-prokaryotes/
https://jgi.doe.gov/publication/atomic-level-models-of-the-bacterial-carboxysome-shell/
https://jgi.doe.gov/publication/atypical-divergence-of-sars-cov-2-orf8-from-orf7a-within-the-coronavirus-lineage-suggests-potential-stealthy-viral-strategies-in-immune-evasion/
https://jgi.doe.gov/publication/automated-annotation-of-scientific-texts-for-ml-based-keyphrase-extraction-and-validation-2/
https://jgi.doe.gov/publication/automated-annotation-of-scientific-texts-for-ml-based-keyphrase-extraction-and-validation-3/
https://jgi.doe.gov/publication/automated-annotation-of-scientific-texts-for-ml-based-keyphrase-extraction-and-validation/
https://jgi.doe.gov/publication/automated-group-assignment-in-large-phylogenetic-trees-using-grunt-grouping-ungrouping-naming-tool/
https://jgi.doe.gov/publication/automated-whole-genome-multiple-alignment-of-rat-mouse-and-human/
https://jgi.doe.gov/publication/automatic-annotation-of-organellar-genomes-with-dogma/
https://jgi.doe.gov/publication/avid-a-global-alignment-program/
https://jgi.doe.gov/publication/awakening-the-sleeping-carboxylase-function-of-enzymes-engineering-the-natural-co2-binding-potential-of-reductases/
https://jgi.doe.gov/publication/bacillus-anthracis-genome-organization-in-light-of-whole-transcriptome-sequencing/
https://jgi.doe.gov/publication/bacterial-barcoding-facilitates-plant-microbiome-studies-2/
https://jgi.doe.gov/publication/bacterial-barcoding-facilitates-plant-microbiome-studies/
https://jgi.doe.gov/publication/bacterial-diversity-in-the-cecum-of-the-worlds-largest-living-rodent-hydrochoerus-hydrochaeris/
https://jgi.doe.gov/publication/bacterial-endosymbionts-influence-host-sexuality-and-reveal-reproductive-genes-of-early-divergent-fungi/
https://jgi.doe.gov/publication/bacterial-genome-annotation/
https://jgi.doe.gov/publication/bacterial-genome-editing-by-coupling-cre-lox-and-crispr-cas9-systems/
https://jgi.doe.gov/publication/bacterial-microcompartments/
https://jgi.doe.gov/publication/baltic-sea-coastal-sediment-bound-eukaryotes-have-increased-year-round-activities-under-predicted-climate-change-related-warming-2/
https://jgi.doe.gov/publication/baltic-sea-coastal-sediment-bound-eukaryotes-have-increased-year-round-activities-under-predicted-climate-change-related-warming/
https://jgi.doe.gov/publication/basal-chromatin-modification-at-the-il-4-gene-in-helper-t-cells/
https://jgi.doe.gov/publication/bayesian-analysis-of-congruence-of-core-genes-in-prochlorococcus-and-synechococcus-and-implications-on-horizontal-gene-transfer/
https://jgi.doe.gov/publication/bayesian-spatial-temporal-modeling-of-ecological-zero-inflated-count-data/
https://jgi.doe.gov/publication/bbmerge-accurate-paired-shotgun-read-merging-via-overlap/
https://jgi.doe.gov/publication/bdcesa7-bdcesa8-and-bdpmt-utility-promoter-constructs-for-targeted-expression-to-secondary-cell-wall-forming-cells-of-grasses/
https://jgi.doe.gov/publication/bderecta-controls-vasculature-patterning-and-phloem-xylem-organization-in-brachypodium-distachyon/
https://jgi.doe.gov/publication/bdrcn4-a-brachypodium-distachyon-tfl1-homologue-is-involved-in-regulation-of-apical-meristem-fate-2/
https://jgi.doe.gov/publication/bdrcn4-a-brachypodium-distachyon-tfl1-homologue-is-involved-in-regulation-of-apical-meristem-fate/
https://jgi.doe.gov/publication/bellerophon-a-program-to-detect-chimeric-sequences-in-multiple-sequence-alignments/
https://jgi.doe.gov/publication/benchmarking-viromics-an-in-silico-evaluation-of-metagenome-enabled-estimates-of-viral-community-composition-and-diversity/
https://jgi.doe.gov/publication/best-practices-for-the-execution-analysis-and-data-storage-of-plant-single-cell-nucleus-transcriptomics/
https://jgi.doe.gov/publication/beyond-linear-sequence-comparisons-the-use-of-genome-level-characters-for-phylogenetic-reconstruction/
https://jgi.doe.gov/publication/beyond-the-census-of-human-gut-dwellers/
https://jgi.doe.gov/publication/beyond-the-tip-of-the-iceberg-a-new-view-of-the-diversity-of-sulfite-and-sulfate-reducing-microorganisms/
https://jgi.doe.gov/publication/biases-in-genome-reconstruction-from-metagenomic-data/
https://jgi.doe.gov/publication/bidirectional-titration-of-yeast-gene-expression-using-a-pooled-crispr-guide-rna-approach/
https://jgi.doe.gov/publication/bigmac-breaking-inaccurate-genomes-and-merging-assembled-contigs-for-long-read-metagenomic-assembly/
https://jgi.doe.gov/publication/binarena-a-dedicated-interactive-platform-for-human-guided-exploration-and-binning-of-metagenomes/
https://jgi.doe.gov/publication/bioactive-diterpenoids-impact-the-composition-of-the-root-associated-microbiome-in-maize-zea-mays/
https://jgi.doe.gov/publication/bioactive-exometabolites-drive-maintenance-competition-in-simple-bacterial-communities-2/
https://jgi.doe.gov/publication/bioactive-exometabolites-drive-maintenance-competition-in-simple-bacterial-communities/
https://jgi.doe.gov/publication/bioavailable-iron-titrations-reveal-oceanic-synechococcus-ecotypes-optimized-for-different-iron-availabilities-2/
https://jgi.doe.gov/publication/bioboxes-standardised-containers-for-interchangeable-bioinformatics-software/
https://jgi.doe.gov/publication/biocatalytic-stereoselective-oxidation-of-2%e2%80%91arylindoles/
https://jgi.doe.gov/publication/biochemical-characterization-of-fsa16295glu-from-fervidibacter-sacchari-the-first-hyperthermophilic-gh50-with-%ce%b2-13-endoglucanase-activity-and-founding-member-of-the-subfamily-2/
https://jgi.doe.gov/publication/biochemical-characterization-of-fsa16295glu-from-fervidibacter-sacchari-the-first-hyperthermophilic-gh50-with-%ce%b2-13-endoglucanase-activity-and-founding-member-of-the-subfamily/
https://jgi.doe.gov/publication/biochemical-characterization-of-plant-aromatic-aminotransferases-2/
https://jgi.doe.gov/publication/biochemistry-guided-prediction-of-the-absolute-configuration-of-fungal-reduced-polyketides/
https://jgi.doe.gov/publication/biocorrosive-thermophilic-microbial-communities-in-alaskan-north-slope-oil-facilities/
https://jgi.doe.gov/publication/biodiversity-of-magnetotactic-bacteria-in-the-freshwater-lake-beloe-bordukovskoe-russia/
https://jgi.doe.gov/publication/bioenergy-feedstock-specific-enrichment-of-microbial-populations-during-high-solids-thermophilic-deconstruction/
https://jgi.doe.gov/publication/bioenergy-sorghum-stem-growth-regulation-intercalary-meristem-localization-development-and-gene-regulatory-network-analysis-2/
https://jgi.doe.gov/publication/bioenergy-sorghums-deep-roots-a-key-to-sustainable-biomass-production-on-annual-cropland-2/
https://jgi.doe.gov/publication/biogenesis-of-a-bacterial-organelle-the-carboxysome-assembly-pathway/
https://jgi.doe.gov/publication/biogeochemical-cycling-by-a-low-diversity-microbial-community-in-deep-groundwater/
https://jgi.doe.gov/publication/biogeography-and-organic-matter-removal-shape-long-term-effects-of-timber-harvesting-on-forest-soil-microbial-communities/
https://jgi.doe.gov/publication/bioinformatic-analysis-of-the-distribution-of-inorganic-carbon-transporters-and-prospective-targets-for-bioengineering-to-increase-c-uptake-by-cyanobacteria/
https://jgi.doe.gov/publication/bioinformatic-analysis-of-the-distribution-of-inorganic-carbon-transporters-and-prospective-targets-for-bioengineering-to-increase-ci-uptake-by-cyanobacteria-2/
https://jgi.doe.gov/publication/bioinformatic-analysis-of-the-distribution-of-inorganic-carbon-transporters-and-prospective-targets-for-bioengineering-to-increase-ci-uptake-by-cyanobacteria/
https://jgi.doe.gov/publication/bioinformatics-analysis-tools-for-studying-microbiomes-at-the-doe-joint-genome-institute/
https://jgi.doe.gov/publication/biological-consequences-of-ancient-gene-acquisition-and-duplication-in-the-large-genome-of-candidatus-solibacter-usitatus-ellin6076/
https://jgi.doe.gov/publication/biology-of-fungi-and-their-bacterial-endosymbionts/
https://jgi.doe.gov/publication/biomarker-candidate-identification-in-yersinia-pestis-using-organism-wide-semiquantitative-proteomics/
https://jgi.doe.gov/publication/biomimetic-strategy-for-constructing-clostridium-thermocellum-cellulosomal-operons-in-bacillus-subtilis/
https://jgi.doe.gov/publication/biopig-a-hadoop-based-analytic-toolkit-for-large-scale-sequence-data/
https://jgi.doe.gov/publication/bioreactor-microbial-ecosystems-for-thiocyanate-and-cyanide-degradation-unravelled-with-genome-resolved-metagenomics-11/
https://jgi.doe.gov/publication/biosynthesis-and-emission-of-stress-induced-volatile-terpenes-in-roots-and-leaves-of-switchgrass-panicum-virgatum-l/
https://jgi.doe.gov/publication/biosynthesis-of-cytosporones-in-leotiomycetous-filamentous-fungi/
https://jgi.doe.gov/publication/biosynthesis-of-haloterpenoids-in-red-algae-via-microbial-like-type-i-terpene-synthases-2/
https://jgi.doe.gov/publication/biosynthesis-of-haloterpenoids-in-red-algae-via-microbial-like-type-i-terpene-synthases-3/
https://jgi.doe.gov/publication/biosynthesis-of-haloterpenoids-in-red-algae-via-microbial-like-type-i-terpene-synthases/
https://jgi.doe.gov/publication/biotechnological-innovations-through-fungi/
https://jgi.doe.gov/publication/bipartite-graphs-in-systems-biology-and-medicine-a-survey-of-methods-and-applications/
https://jgi.doe.gov/publication/blink-enables-ultrafast-tandem-mass-spectrometry-cosine-similarity-scoring/
https://jgi.doe.gov/publication/blueprint-for-a-pop-up-sars-cov-2-testing-lab/
https://jgi.doe.gov/publication/boncat-facs-seq-reveals-the-active-fraction-of-a-biocrust-community-undergoing-a-wet-up-event/
https://jgi.doe.gov/publication/bosea-psychrotolerans-sp-nov-a-psychrotrophic-alphaproteobacterium-isolated-from-lake-michigan-water/
https://jgi.doe.gov/publication/brachypodium-20-years-as-a-grass-biology-model-system-the-way-forward-2/
https://jgi.doe.gov/publication/brachypodium-a-monocot-grass-model-genus-for-plant-biology/
https://jgi.doe.gov/publication/brachypodium-as-an-emerging-model-for-cereal-pathogen-interactions/
https://jgi.doe.gov/publication/brachypodium-distachyon-a-new-model-for-biomass-crops/
https://jgi.doe.gov/publication/brachypodium-distachyon-and-setaria-viridis-model-genetic-systems-for-the-grasses-11/
https://jgi.doe.gov/publication/brachypodium-distachyon-genotypes-vary-in-resistance-to-rhizoctonia-solani-ag8/
https://jgi.doe.gov/publication/bradyrhizobium-sacchari-sp-nov-a-legume-nodulating-bacterium-isolated-from-sugarcane-roots/
https://jgi.doe.gov/publication/brassinosteroids-modulate-meristem-fate-and-differentiation-of-unique-inflorescence-morphology-in-setaria-viridis/
https://jgi.doe.gov/publication/bright-luminescence-of-vibrio-fischeri-aconitase-mutants-reveals-a-connection-between-citrate-and-the-gaccsr-regulatory-system/
https://jgi.doe.gov/publication/broad-genomic-sampling-reveals-a-smut-pathogenic-ancestry-of-the-fungal-clade-ustilaginomycotina/
https://jgi.doe.gov/publication/broad-specificity-gh131-beta-glucanases-are-a-hallmark-of-fungi-and-oomycetes-that-colonise-plants/
https://jgi.doe.gov/publication/broad-spectrum-developmental-role-of-brachypodium-aux1/
https://jgi.doe.gov/publication/brockarchaeota-a-novel-archaeal-phylum-with-unique-and-versatile-carbon-cycling-pathways/
https://jgi.doe.gov/publication/building-on-basic-metagenomics-with-complementary-technologies/
https://jgi.doe.gov/publication/building-the-crops-of-tomorrow-advantages-of-symbiont-based-approaches-to-improving-abiotic-stress-tolerance/
https://jgi.doe.gov/publication/burkholderia-xenovorans-lb400-harbors-a-multi-replicon-9-73-mbp-genome-shaped-for-versatility/
https://jgi.doe.gov/publication/candidatus-adiutrix-intracellularis-an-endosymbiont-of-termite-gut-flagellates-is-the-first-representative-of-a-deep-branching-clade-of-deltaproteobacteria-and-a-putative-homoacetogen/
https://jgi.doe.gov/publication/candidatus-prosiliicoccus-vernus-a-spring-phytoplankton-bloom-associated-member-of-the-flavobacteriaceae/
https://jgi.doe.gov/publication/capturing-single-cell-genomes-of-active-polysaccharide-degraders-an-unexpected-contribution-of-verrucomicrobia/
https://jgi.doe.gov/publication/capturing-the-genetic-makeup-of-the-active-microbiome-in-situ-2/
https://jgi.doe.gov/publication/capturing-the-genetic-makeup-of-the-active-microbiome-in-situ/
https://jgi.doe.gov/publication/carbon-negative-production-of-acetone-and-isopropanol-by-gas-fermentation-at-industrial-pilot-scale-2/
https://jgi.doe.gov/publication/carboxydotrophy-potential-of-uncultivated-hydrothermarchaeota-from-the-subseafloor-crustal-biosphere/
https://jgi.doe.gov/publication/carboxysomal-carbonic-anhydrases-structure-and-role-in-microbial-co2-fixation/
https://jgi.doe.gov/publication/carotenoid-protein-interaction-alters-the-s1-energy-of-hydroxyechinenone-in-the-orange-carotenoid-protein/
https://jgi.doe.gov/publication/cas9-based-metabolic-engineering-of-issatchenkia-orientalis-for-enhanced-utilization-of-cellulosic-hydrolysates-2/
https://jgi.doe.gov/publication/cas9-based-metabolic-engineering-of-issatchenkia-orientalis-for-enhanced-utilization-of-cellulosic-hydrolysates/
https://jgi.doe.gov/publication/catabolic-repression-in-early-diverging-anaerobic-fungi-is-partially-mediated-by-natural-antisense-transcripts-2/
https://jgi.doe.gov/publication/catabolic-repression-in-early-diverging-anaerobic-fungi-is-partially-mediated-by-natural-antisense-transcripts/
https://jgi.doe.gov/publication/cave-thiovulum-candidatus-thiovulum-stygium-differs-metabolically-and-genomically-from-marine-species-2/
https://jgi.doe.gov/publication/cell-by-cell-population-genetics-in-the-wild/
https://jgi.doe.gov/publication/cell-extracts-from-bacteria-and-yeast-retain-metabolic-activity-after-extended-storage-and-repeated-thawing/
https://jgi.doe.gov/publication/cell-free-biosynthesis-of-limonene-using-enzyme-enriched-escherichia-coli-lysates/
https://jgi.doe.gov/publication/cell-free-prototyping-enables-implementation-of-optimized-reverse-%ce%b2-oxidation-pathways-in-heterotrophic-and-autotrophic-bacteria-2/
https://jgi.doe.gov/publication/cell-wall-compositions-of-sorghum-bicolor-leaves-and-roots-remain-relatively-constant-under-drought-conditions-2/
https://jgi.doe.gov/publication/cellular-assays-identify-barriers-impeding-iron-sulfur-enzyme-activity-in-a-non-native-prokaryotic-host-2/
https://jgi.doe.gov/publication/cellulose-degrading-bacteria-associated-with-the-invasive-woodwasp-sirex-noctilio/
https://jgi.doe.gov/publication/changes-in-ambient-temperature-are-the-prevailing-cue-in-determining-brachypodium-distachyon-diurnal-gene-regulation/
https://jgi.doe.gov/publication/changing-expression-patterns-of-tonb-dependent-transporters-suggest-shifts-in-polysaccharide-consumption-over-the-course-of-a-spring-phytoplankton-bloom/
https://jgi.doe.gov/publication/chapter-4-functional-genomics-of-chlamydomonas-reinhardtii/
https://jgi.doe.gov/publication/chapter-5-trace-metal-nutrition-and-response-to-deficiency/
https://jgi.doe.gov/publication/characteristics-of-wetting-induced-bacteriophage-blooms-in-biological-soil-crust/
https://jgi.doe.gov/publication/characterization-and-whole-genome-sequencing-of-arthrobacter-phenanthrenivorans-a-new-phenanthrene-degrading-bacterium/
https://jgi.doe.gov/publication/characterization-of-a-diesel-sludge-microbial-consortia-for-bioremediation/
https://jgi.doe.gov/publication/characterization-of-a-large-sex-determination-region-in-salix-purpurea-l-salicaceae-2/
https://jgi.doe.gov/publication/characterization-of-a-large-sex-determination-region-in-salix-purpurea-l-salicaceae/
https://jgi.doe.gov/publication/characterization-of-a-novel-polyextremotolerant-fungus-exophiala-viscosa-with-insights-into-its-melanin-regulation-and-ecological-niche/
https://jgi.doe.gov/publication/characterization-of-a-planctomycetal-organelle-a-novel-bacterial-microcompartment-for-the-aerobic-degradation-of-plant-saccharides/
https://jgi.doe.gov/publication/characterization-of-a-polyketide-synthase-in-aspergillus-niger-whose-product-is-a-precursor-for-both-dihydroxynaphthalene-dhn-melanin-and-naphtho-gamma-pyrone-2/
https://jgi.doe.gov/publication/characterization-of-a-polyketide-synthase-in-aspergillus-niger-whose-product-is-a-precursor-for-both-dihydroxynaphthalene-dhn-melanin-and-naphtho-gamma-pyrone/
https://jgi.doe.gov/publication/characterization-of-digestate-microbial-community-structure-following-thermophilic-anaerobic-digestion-with-varying-levels-of-green-and-food-wastes/
https://jgi.doe.gov/publication/characterization-of-evolutionary-rates-and-constraints-in-three-mammalian-genomes/
https://jgi.doe.gov/publication/characterization-of-filamentous-bacteria-belonging-to-candidate-phylum-ksb3-that-are-associated-with-bulking-in-methanogenic-granular-sludges/
https://jgi.doe.gov/publication/characterization-of-four-endophytic-fungi-as-potential-consolidated-bioprocessing-hosts-for-conversion-of-lignocellulose-into-advanced-biofuels/
https://jgi.doe.gov/publication/characterization-of-streptomyces-nymphaeiformis-sp-nov-and-its-taxonomic-relatedness-to-other-polyhydroxybutyrate-degrading-streptomycetes-2/
https://jgi.doe.gov/publication/characterization-of-switchgrass-panicum-virgatum-l-pvksl1-as-a-levopimaradiene-abietadiene%e2%80%90type-diterpene-synthase-2/
https://jgi.doe.gov/publication/characterization-of-switchgrass-panicum-virgatum-l-pvksl1-as-a-levopimaradiene-abietadiene%e2%80%90type-diterpene-synthase-3/
https://jgi.doe.gov/publication/characterization-of-switchgrass-panicum-virgatum-l-pvksl1-as-a-levopimaradiene-abietadiene%e2%80%90type-diterpene-synthase/
https://jgi.doe.gov/publication/characterization-of-the-clostridium-thermocellum-adhe-nfnab-ferredoxin-and-pfor-proteins-for-their-ability-to-support-high-titer-ethanol-production-in-thermoanaerobacterium-saccharolyticum/
https://jgi.doe.gov/publication/characterization-of-trapped-lignin-degrading-microbes-in-tropical-forest-soil/
https://jgi.doe.gov/publication/characterization-of-ubia-terpene-synthases-with-a-precursor-overproduction-system-in-escherichia-coli/
https://jgi.doe.gov/publication/checkv-assesses-the-quality-and-completeness-of-metagenome-assembled-viral-genomes/
https://jgi.doe.gov/publication/chemical-synthesis-rewriting-of-a-bacterial-genome-to-achieve-design-flexibility-and-biological-functionality/
https://jgi.doe.gov/publication/chemical-ultrastructural-and-supramolecular-analysis-of-tension-wood-in-populus-tremula-x-alba-as-a-model-substrate-for-reduced-recalcitrance/
https://jgi.doe.gov/publication/chemiluminescent-biosensors-for-detection-of-second-messenger-cyclic-di-gmp/
https://jgi.doe.gov/publication/chimeric-plastid-proteome-in-the-florida-red-tide-dinoflagellate-karenia-brevis/
https://jgi.doe.gov/publication/chip-seq-accurately-predicts-tissue-specific-activity-of-enhancers/
https://jgi.doe.gov/publication/chip-seq-identification-of-weakly-conserved-heart-enhancers/
https://jgi.doe.gov/publication/chlamydomonas-reinhardtii-at-the-crossroads-of-genomics/
https://jgi.doe.gov/publication/chloroflexi-cl500-11-populations-that-predominate-deep-lake-hypolimnion-bacterioplankton-rely-on-nitrogen-rich-dissolved-organic-matter-metabolism-and-c1-compound-oxidation/
https://jgi.doe.gov/publication/chloroplast-genomes-of-the-diatoms-phaeodactylum-tricornutum-and-thalassiosira-pseudonana-comparison-with-other-plastid-genomes-of-the-red-lineage/
https://jgi.doe.gov/publication/chordate-evolution-and-the-three-phylum-system-3/
https://jgi.doe.gov/publication/chromatin-connectivity-maps-reveal-dynamic-promoter-enhancer-long-range-associations/
https://jgi.doe.gov/publication/chromosomal-integration-of-complex-dna-constructs-using-crage-and-crage-duet-systems-2/
https://jgi.doe.gov/publication/chromosome-assembled-and-annotated-genome-sequence-of-aspergillus-flavus-nrrl-3357/
https://jgi.doe.gov/publication/chromosome-evolution-and-the-genetic-basis-of-agronomically-important-traits-in-greater-yam-2/
https://jgi.doe.gov/publication/chromosome-scale-shotgun-assembly-using-an-in-vitro-method-for-long-range-linkage/
https://jgi.doe.gov/publication/chthoniobacter-flavus-gen-nov-sp-nov-the-first-pure-culture-representative-of-subdivision-two-spartobacteria-classis-nov-of-the-phylum-verrucomicrobia/
https://jgi.doe.gov/publication/cilium-evolution-identification-of-a-novel-protein-nematocilin-in-the-mechanosensory-cilium-of-hydra-nematocytes/
https://jgi.doe.gov/publication/cinnamic-acid-and-sorbic-acid-conversion-are-mediated-by-the-same-transcriptional-regulator-in-aspergillus-niger/
https://jgi.doe.gov/publication/clades-of-huge-phages-from-across-earths-ecosystems/
https://jgi.doe.gov/publication/clams-a-classifier-for-metagenomic-sequences-2/
https://jgi.doe.gov/publication/clams-a-classifier-for-metagenomic-sequences/
https://jgi.doe.gov/publication/climate-change-related-warming-reduces-thermal-sensitivity-and-modifies-metabolic-activity-of-coastal-benthic-bacterial-communities/
https://jgi.doe.gov/publication/climate-driven-divergence-in-plant-microbiome-interactions-generates-range-wide-variation-in-bud-break-phenology/
https://jgi.doe.gov/publication/climate-smart-crops-with-enhanced-photosynthesis/
https://jgi.doe.gov/publication/close-association-of-rna-polymerase-ii-and-many-transcription-factors-with-pol-iii-genes/
https://jgi.doe.gov/publication/closing-the-gaps-on-human-chromosome-19-revealed-genes-with-a-high-density-of-repetitive-tandemly-arrayed-elements/
https://jgi.doe.gov/publication/cloud-enabled-microscopy-and-droplet-microfluidic-platform-for-specific-detection-of-escherichia-coli-in-water/
https://jgi.doe.gov/publication/clustering-categorical-data/
https://jgi.doe.gov/publication/co%e2%80%91cultivation-of-anaerobic-fungi-with-clostridium-acetobutylicum-bolsters-butyrate-and-butanol-production-from-cellulose-and-lignocellulose-2/
https://jgi.doe.gov/publication/co%e2%80%91cultivation-of-the-anaerobic-fungus-caecomyces-churrovis-with-methanobacterium-bryantii-enhances-transcription-of-carbohydrate-binding-modules-dockerins-and-pyruvate-formate-lyases-on-spe-2/
https://jgi.doe.gov/publication/co-catabolism-of-arginine-and-succinate-drives-symbiotic-nitrogen-fixation/
https://jgi.doe.gov/publication/co-occurrence-networks-reveal-more-complexity-than-community-composition-in-resistance-and-resilience-of-microbial-communities-2/
https://jgi.doe.gov/publication/co2-response-screen-in-grass-brachypodium-reveals-the-key-role-of-a-map-kinase-in-co2-triggered-stomatal-closure-2/
https://jgi.doe.gov/publication/co2-response-screen-in-grass-brachypodium-reveals-the-key-role-of-a-map-kinase-in-co2-triggered-stomatal-closure/
https://jgi.doe.gov/publication/coassembly-and-binning-of-a-twenty-year-metagenomic-time-series-from-lake-mendota-2/
https://jgi.doe.gov/publication/coassembly-and-binning-of-a-twenty-year-metagenomic-time-series-from-lake-mendota-3/
https://jgi.doe.gov/publication/coassembly-and-binning-of-a-twenty-year-metagenomic-time-series-from-lake-mendota/
https://jgi.doe.gov/publication/cocultivation-of-anaerobic-fungi-with-rumen-bacteria-establishes-an-antagonistic-relationship/
https://jgi.doe.gov/publication/coevolution-of-the-ess1-ctd-axis-in-polar-fungi-suggests-a-role-for-phase-separation-in-cold-tolerance-2/
https://jgi.doe.gov/publication/cold-adaptive-traits-revealed-by-comparative-genomic-analysis-of-the-eurypsychrophile-rhodococcus-sp-jg3-isolated-from-high-elevation-mcmurdo-dry-valley-permafrost-antarctica/
https://jgi.doe.gov/publication/combating-a-global-threat-to-a-clonal-crop-banana-black-sigatoka-pathogen-pseudocercospora-fijiensis-synonym-mycosphaerella-fijiensis-genomes-reveal-clues-for-disease-control/
https://jgi.doe.gov/publication/combinatorial-library-design-for-improving-isobutanol-production-in-saccharomyces-cerevisiae-2/
https://jgi.doe.gov/publication/combinatorial-regulation-of-endothelial-gene-expression-by-ets-and-forkhead-transcription-factors/
https://jgi.doe.gov/publication/combining-gwas-and-population-genomic-analyses-to-characterize-coevolution-in-a-legume%e2%80%90rhizobia-symbiosis-2/
https://jgi.doe.gov/publication/combining-hadoop-with-mpi-to-solve-metagenomics-problems-that-are-both-data-and-compute-intensive/
https://jgi.doe.gov/publication/combining-promiscuous-acyl-coa-oxidase-and-enoyl-coa-carboxylase-reductases-for-atypical-polyketide-extender-unit-biosynthesis/
https://jgi.doe.gov/publication/common-ancestry-and-novel-genetic-traits-of-francisella-novicida-like-isolates-from-north-america-and-australia-as-revealed-by-comparative-genomic-analyses/
https://jgi.doe.gov/publication/common-bacterial-responses-in-six-ecosystems-exposed-to-10-years-of-elevated-atmospheric-carbon-dioxide/
https://jgi.doe.gov/publication/community-composition-and-seasonal-changes-of-archaea-in-coarse-and-fine-air-particulate-matter/
https://jgi.doe.gov/publication/community-ecology-across-bacteria-archaea-and-microbial-eukaryotes-in-the-sediment-and-seawater-of-coastal-puerto-nuevo-baja-california/
https://jgi.doe.gov/publication/community-genomic-analyses-constrain-distribution-metabolic-traits-across-chloroflexi-phylum-indicate-roles-sediment-carbon-cycling/
https://jgi.doe.gov/publication/community-proteogenomics-reveals-the-systemic-impact-of-phosphorus-availability-on-microbial-functions-in-tropical-soil-2/
https://jgi.doe.gov/publication/community-proteogenomics-reveals-the-systemic-impact-of-phosphorus-availability-on-microbial-functions-in-tropical-soil/
https://jgi.doe.gov/publication/community-structure-and-function-of-high-temperature-chlorophototrophic-microbial-mats-inhabiting-diverse-geothermal-environments/
https://jgi.doe.gov/publication/community-structure-and-metabolism-through-reconstruction-of-microbial-genomes-from-the-environment/
https://jgi.doe.gov/publication/community-structure-and-microbial-associations-in-sediment-free-methanotrophic-enrichment-cultures-from-a-marine-methane-seep-2/
https://jgi.doe.gov/publication/community-structure-explains-antibiotic-resistance-gene-dynamics-over-a-temperature-gradient-in-soil/
https://jgi.doe.gov/publication/community-wide-plasmid-gene-mobilization-and-selection/
https://jgi.doe.gov/publication/comparative-analyses-of-foregut-and-hindgut-bacterial-communities-in-hoatzins-and-cows/
https://jgi.doe.gov/publication/comparative-analyses-of-two-cryptic-plasmids-from-haemophilus-somnus-histophilus-somni/
https://jgi.doe.gov/publication/comparative-analysis-of-126-cyanobacterial-genomes-reveals-evidence-of-functional-diversity-among-homologs-of-the-redox-regulated-cp12-protein/
https://jgi.doe.gov/publication/comparative-analysis-of-carboxysome-shell-proteins/
https://jgi.doe.gov/publication/comparative-analysis-of-chicken-chromosome-28-provides-new-clues-to-the-evolutionary-fragility-of-gene-rich-vertebrate-regions/
https://jgi.doe.gov/publication/comparative-analysis-of-gt14gt14-like-gene-family-in-arabidopsis-oryza-populus-sorghum-and-vitis/
https://jgi.doe.gov/publication/comparative-analysis-of-secretome-profiles-of-manganeseii-oxidizing-ascomycete-fungi/
https://jgi.doe.gov/publication/comparative-analysis-of-the-transcriptomes-of-populus-trichocarpa-and-arabidopsis-thaliana-suggests-extensive-evolution-of-gene-expression-regulation-in-angiosperms/
https://jgi.doe.gov/publication/comparative-analysis-reveals-signatures-of-differentiation-amid-genomic-polymorphism-in-lake-malawi-cichlids/
https://jgi.doe.gov/publication/comparative-and-functional-analysis-of-cardiovascular-related-genes/
https://jgi.doe.gov/publication/comparative-and-pangenomic-analysis-of-the-genus-streptomyces-2/
https://jgi.doe.gov/publication/comparative-and-transcriptional-analysis-of-the-predicted-secretome-in-the-lignocellulose-degrading-basidiomycete-fungus-pleurotus-ostreatus/
https://jgi.doe.gov/publication/comparative-biochemical-and-structural-analysis-of-novel-cellulose-binding-proteins-tapirins-from-extremely-thermophilic-caldicellulosiruptor-species/
https://jgi.doe.gov/publication/comparative-chloroplast-genomics-analyses-including-new-sequences-from-the-angiosperms-nuphar-advena-and-ranunculus-macranthus/
https://jgi.doe.gov/publication/comparative-genome-analysis-in-the-integrated-microbial-genomes-img-system/
https://jgi.doe.gov/publication/comparative-genome-sequence-analysis-underscores-mycoparasitism-as-the-ancestral-life-style-of-trichoderma/
https://jgi.doe.gov/publication/comparative-genome-sequencing-of-drosophila-pseudoobscura-chromosomal-gene-and-cis-element-evolution/
https://jgi.doe.gov/publication/comparative-genome-structure-secondary-metabolite-and-effector-coding-capacity-across-cochliobolus-pathogens/
https://jgi.doe.gov/publication/comparative-genomic-analyses-of-cellulolytic-machinery-reveal-two-nutritional-strategies-of-marine-labyrinthulomycetes-protists/
https://jgi.doe.gov/publication/comparative-genomic-analysis-as-a-tool-for-biological-discovery/
https://jgi.doe.gov/publication/comparative-genomic-analysis-of-phylogenetically-closely-related-hydrogenobaculum-sp-isolates-from-yellowstone-national-park/
https://jgi.doe.gov/publication/comparative-genomic-analysis-of-the-class-epsilonproteobacteria-and-proposed-reclassification-to-epsilonbacteraeota-phyl-nov-2/
https://jgi.doe.gov/publication/comparative-genomic-analysis-of-the-class-epsilonproteobacteria-and-proposed-reclassification-to-epsilonbacteraeota-phyl-nov/
https://jgi.doe.gov/publication/comparative-genomic-analysis-of-the-endosymbionts-of-herbivorous-insects-reveals-eco-environmental-adaptations-biotechnology-applications/
https://jgi.doe.gov/publication/comparative-genomic-analysis-of-the-gut-bacterium-bifidobacterium-longum-reveals-loci-susceptible-to-deletion-during-pure-culture-growth/
https://jgi.doe.gov/publication/comparative-genomic-analysis-of-the-thermophilic-biomass-degrading-fungi-myceliophthora-thermophila-and-thielavia-terrestris/
https://jgi.doe.gov/publication/comparative-genomic-analysis-of-thermophilic-fungi-reveals-convergent-evolutionary-adaptations-and-gene-losses-2/
https://jgi.doe.gov/publication/comparative-genomic-analysis-of-thermophilic-fungi-reveals-convergent-evolutionary-adaptations-and-gene-losses-3/
https://jgi.doe.gov/publication/comparative-genomic-analysis-of-thermophilic-fungi-reveals-convergent-evolutionary-adaptations-and-gene-losses/
https://jgi.doe.gov/publication/comparative-genomic-analysis-reveals-evidence-of-two-novel-vibrio-species-closely-related-to-v-cholerae/
https://jgi.doe.gov/publication/comparative-genomic-insights-into-ecophysiology-of-neutrophilic-microaerophilic-iron-oxidizing-bacteria/
https://jgi.doe.gov/publication/comparative-genomic-reconstruction-of-transcriptional-networks-controlling-central-metabolism-in-the-shewanella-genus/
https://jgi.doe.gov/publication/comparative-genomic-tools-and-databases-providing-insights-into-the-human-genome/
https://jgi.doe.gov/publication/comparative-genomics-analysis-of-drought-response-between-obligate-cam-and-c3-photosynthesis-plants-2/
https://jgi.doe.gov/publication/comparative-genomics-analysis-of-trichoderma-reesei-strains/
https://jgi.doe.gov/publication/comparative-genomics-and-evolution-of-eukaryotic-phospholipid-biosynthesis/
https://jgi.doe.gov/publication/comparative-genomics-and-expression-levels-of-hydrophobins-from-eight-mycorrhizal-genomes/
https://jgi.doe.gov/publication/comparative-genomics-and-physiology-of-the-genus-methanohalophilus-a-prevalent-methanogen-in-hydraulically-fractured-shale/
https://jgi.doe.gov/publication/comparative-genomics-and-transcriptomics-analyses-reveal-divergent-plant-biomass-degrading-strategies-in-fungi/
https://jgi.doe.gov/publication/comparative-genomics-and-transcriptomics-depict-ericoid-mycorrhizal-fungi-as-versatile-saprotrophs-and-plant-mutualists/
https://jgi.doe.gov/publication/comparative-genomics-and-transcriptomics-to-analyze-fruiting-body-development-in-filamentous-ascomycetes/
https://jgi.doe.gov/publication/comparative-genomics-at-the-vertebrate-extremes/
https://jgi.doe.gov/publication/comparative-genomics-of-a-plant-pathogenic-fungus-pyrenophora-tritici-repentis-reveals-transduplication-and-the-impact-of-repeat-elements-on-pathogenicity-and-population-divergence/
https://jgi.doe.gov/publication/comparative-genomics-of-biotechnologically-important-yeasts/
https://jgi.doe.gov/publication/comparative-genomics-of-ceriporiopsis-subvermispora-and-phanerochaete-chrysosporium-provide-insight-into-selective-ligninolysis/
https://jgi.doe.gov/publication/comparative-genomics-of-citric-acid-producing-aspergillus-niger-atcc-1015-versus-enzyme-producing-cbs-513-88/
https://jgi.doe.gov/publication/comparative-genomics-of-clinical-and-environmental-vibrio-mimicus-2/
https://jgi.doe.gov/publication/comparative-genomics-of-clinical-and-environmental-vibrio-mimicus/
https://jgi.doe.gov/publication/comparative-genomics-of-coniophora-olivacea-reveals-different-patterns-of-genome-expansion-in-boletales/
https://jgi.doe.gov/publication/comparative-genomics-of-early-diverging-mushroom-forming-fungi-provides-insights-into-the-origins-of-lignocellulose-decay-capabilities/
https://jgi.doe.gov/publication/comparative-genomics-of-freshwater-fe-oxidizing-bacteria-implications-for-physiology-ecology-and-systematics/
https://jgi.doe.gov/publication/comparative-genomics-of-mollicutes-related-endobacteria-supports-a-late-invasion-into-mucoromycota-fungi/
https://jgi.doe.gov/publication/comparative-genomics-of-mortierella-elongata-and-its-bacterial-endosymbiont-mycoavidus-cysteinexigens/
https://jgi.doe.gov/publication/comparative-genomics-of-pyrophilous-fungi-reveals-a-link-between-fire-events-and-developmental-genes/
https://jgi.doe.gov/publication/comparative-genomics-of-regulation-of-fatty-acid-and-branched-chain-amino-acid-utilization-in-proteobacteria/
https://jgi.doe.gov/publication/comparative-genomics-of-rhizophagus-irregularis-r-cerebriforme-r-diaphanus-and-gigaspora-rosea-highlights-specific-genetic-features-in-glomeromycotina/
https://jgi.doe.gov/publication/comparative-genomics-of-rumen-butyrivibrio-spp-uncovers-a-continuum-of-polysaccharide-degrading-capabilities/
https://jgi.doe.gov/publication/comparative-genomics-of-saccharomyces-cerevisiae-natural-isolates-for-bioenergy-production/
https://jgi.doe.gov/publication/comparative-genomics-of-the-dormancy-regulons-in-mycobacteria/
https://jgi.doe.gov/publication/comparative-genomics-of-the-ectomycorrhizal-sister-species-rhizopogon-vinicolor-and-rhizopogon-vesiculosus-basidiomycota-boletales-reveals-a-divergence-of-the-mating-type-b-locus/
https://jgi.doe.gov/publication/comparative-genomics-of-the-extremophile-cryomyces-antarcticus-and-other-psychrophilic-dothideomycetes-2/
https://jgi.doe.gov/publication/comparative-genomics-of-the-extremophile-cryomyces-antarcticus-and-other-psychrophilic-dothideomycetes-3/
https://jgi.doe.gov/publication/comparative-genomics-of-the-extremophile-cryomyces-antarcticus-and-other-psychrophilic-dothideomycetes/
https://jgi.doe.gov/publication/comparative-genomics-of-the-genus-desulfitobacterium/
https://jgi.doe.gov/publication/comparative-genomics-of-the-lactic-acid-bacteria-2/
https://jgi.doe.gov/publication/comparative-genomics-of-the-lactic-acid-bacteria/
https://jgi.doe.gov/publication/comparative-genomics-of-the-social-amoebae-dictyostelium-discoideum-and-dictyostelium-purpureum/
https://jgi.doe.gov/publication/comparative-genomics-of-the-white-rot-fungi-phanerochaete-carnosa-and-p-chrysosporium-to-elucidate-the-genetic-basis-of-the-distinct-wood-types-they-colonize/
https://jgi.doe.gov/publication/comparative-genomics-of-two-candidatus-accumulibacter-clades-performing-biological-phosphorus-removal/
https://jgi.doe.gov/publication/comparative-genomics-of-xylose-fermenting-fungi-for-enhanced-biofuel-production/
https://jgi.doe.gov/publication/comparative-genomics-proteomics-and-transcriptomics-give-new-insight-into-the-exoproteome-of-the-basidiomycete-hebeloma-cylindrosporum-and-its-involvement-in-ectomycorrhizal-symbiosis-11/
https://jgi.doe.gov/publication/comparative-genomics-provides-insights-into-the-lifestyle-and-reveals-functional-heterogeneity-of-dark-septate-endophytic-fungi/
https://jgi.doe.gov/publication/comparative-genomics-reveals-a-dynamic-genome-evolution-in-the-ectomycorrhizal-milk%e2%80%90cap-lactarius-mushrooms-2/
https://jgi.doe.gov/publication/comparative-genomics-reveals-dynamic-genome-evolution-in-host-specialist-ectomycorrhizal-fungi/
https://jgi.doe.gov/publication/comparative-genomics-reveals-electron-transfer-and-syntrophic-mechanisms-differentiating-methanotrophic-and-methanogenic-archaea-2/
https://jgi.doe.gov/publication/comparative-genomics-reveals-high-biological-diversity-and-specific-adaptations-in-the-industrially-and-medically-important-fungal-genus-aspergillus/
https://jgi.doe.gov/publication/comparative-genomics-reveals-mechanism-for-short-term-and-long-term-clonal-transitions-in-pandemic-vibrio-cholerae/
https://jgi.doe.gov/publication/comparative-genomics-reveals-mobile-pathogenicity-chromosomes-in-fusarium/
https://jgi.doe.gov/publication/comparative-genomics-reveals-unique-wood-decay-strategies-and-fruiting-body-development-in-the-schizophyllaceae-2/
https://jgi.doe.gov/publication/comparative-genomics-reveals-unique-wood-decay-strategies-and-fruiting-body-development-in-the-schizophyllaceae/
https://jgi.doe.gov/publication/comparative-genomics-suggests-an-independent-origin-of-cytoplasmic-incompatibility-in-cardinium-hertigii/
https://jgi.doe.gov/publication/comparative-genomics-using-the-integrated-microbial-genomes-and-microbiomes-img-m-system-a-deinococcus-use-case/
https://jgi.doe.gov/publication/comparative-metagenomic-and-metatranscriptomic-analysis-of-hindgut-paunch-microbiota-in-wood-and-dung-feeding-higher-termites/
https://jgi.doe.gov/publication/comparative-metagenomics-of-hydrocarbon-and-methane-seeps-of-the-gulf-of-mexico-2/
https://jgi.doe.gov/publication/comparative-metagenomics-of-hydrocarbon-and-methane-seeps-of-the-gulf-of-mexico/
https://jgi.doe.gov/publication/comparative-metagenomics-of-microbial-communities/
https://jgi.doe.gov/publication/comparative-metagenomics-reveals-impact-of-contaminants-on-groundwater-microbiomes/
https://jgi.doe.gov/publication/comparative-plastome-genomics-and-phylogenomics-of-brachypodium-flowering-time-signatures-introgression-and-recombination-in-recently-diverged-ecotypes-2/
https://jgi.doe.gov/publication/comparative-plastome-genomics-and-phylogenomics-of-brachypodium-flowering-time-signatures-introgression-and-recombination-in-recently-diverged-ecotypes/
https://jgi.doe.gov/publication/comparative-proteomic-profiles-of-the-marine-cyanobacterium-trichodesmium-erythraeum-ims101-under-different-nitrogen-regimes/
https://jgi.doe.gov/publication/comparative-single-cell-genomics-reveals-potential-ecological-niches-for-the-freshwater-aci-actinobacteria-lineage/
https://jgi.doe.gov/publication/comparative-transcriptome-analysis-of-methylibium-petroleiphilum-pm1-exposed-to-the-fuel-oxygenates-methyl-tert-butyl-ether-and-ethanol/
https://jgi.doe.gov/publication/comparative-transcriptome-and-secretome-analysis-of-wood-decay-fungi-postia-placenta-and-phanerochaete-chrysosporium/
https://jgi.doe.gov/publication/comparative-transcriptomics-and-metabolomics-reveal-specialized-metabolite-drought-stress-responses-in-switchgrass-panicum-virgatum-2/
https://jgi.doe.gov/publication/comparative-transcriptomics-as-a-guide-to-natural-product-discovery-and-biosynthetic-gene-cluster-functionality/
https://jgi.doe.gov/publication/comparative-transcriptomics-between-synechococcus-pcc-7942-and-synechocystis-pcc-6803-provide-insights-into-mechanisms-of-stress-acclimation/
https://jgi.doe.gov/publication/comparative-transcriptomics-provides-insights-into-molecular-mechanisms-of-zinc-tolerance-in-the-ectomycorrhizal-fungus-suillus-luteus-2/
https://jgi.doe.gov/publication/comparative-transcriptomics-provides-insights-into-molecular-mechanisms-of-zinc-tolerance-in-the-ectomycorrhizal-fungus-suillus-luteus-3/
https://jgi.doe.gov/publication/comparative-transcriptomics-provides-insights-into-molecular-mechanisms-of-zinc-tolerance-in-the-ectomycorrhizal-fungus-suillus-luteus/
https://jgi.doe.gov/publication/comparing-polysaccharide-decomposition-between-the-type-strains-gramella-echinicola-kmm-6050t-dsm-19838t-and-gramella-portivictoriae-ust040801-001t-dsm-23547t-and-emended-description-of-g/
https://jgi.doe.gov/publication/comparison-of-26-sphingomonad-genomes-reveals-diverse-environmental-adaptations-and-biodegradative-capabilities-2/
https://jgi.doe.gov/publication/comparison-of-soil-biosolarization-with-mesophilic-and-thermophilic-solid-digestates-on-soil-microbial-quantity-and-diversity/
https://jgi.doe.gov/publication/compendium-of-metabolomic-and-genomic-datasets-for-cyanobacteria-mined-the-gap-2/
https://jgi.doe.gov/publication/compendium-of-metabolomic-and-genomic-datasets-for-cyanobacteria-mined-the-gap/
https://jgi.doe.gov/publication/complementary-metagenomic-approaches-improve-reconstruction-of-microbial-diversity-in-a-forest-soil/
https://jgi.doe.gov/publication/complementary-microorganisms-in-highly-corrosive-biofilms-from-an-offshore-oil-production-facility/
https://jgi.doe.gov/publication/complete-genome-of-enterobacteriaceae-bacterium-strain-fgi-57-a-strain-associated-with-leaf-cutter-ant-fungus-gardens-2/
https://jgi.doe.gov/publication/complete-genome-of-nitrosospira-briensis-c-128-an-ammonia-oxidizing-bacterium-from-agricultural-soil/
https://jgi.doe.gov/publication/complete-genome-of-serratia-sp-strain-fgi-94-a-strain-associated-with-leaf-cutter-ant-fungus-gardens-2/
https://jgi.doe.gov/publication/complete-genome-of-the-cellulolytic-ruminal-bacterium-ruminococcus-albus-7-2/
https://jgi.doe.gov/publication/complete-genome-of-the-cellulolytic-ruminal-bacterium-ruminococcus-albus-7/
https://jgi.doe.gov/publication/complete-genome-of-the-cellulolytic-thermophile-acidothermus-cellulolyticus-11b-provides-insights-into-its-ecophysiological-and-evolutionary-adaptations/
https://jgi.doe.gov/publication/complete-genome-sequence-and-the-expression-pattern-of-plasmids-of-the-model-ethanologen-zymomonas-mobilis-zm4-and-its-xylose-utilizing-derivatives-8b-and-2032/
https://jgi.doe.gov/publication/complete-genome-sequence-and-updated-annotation-of-desulfovibrio-alaskensis-g20-2/
https://jgi.doe.gov/publication/complete-genome-sequence-and-updated-annotation-of-desulfovibrio-alaskensis-g20/
https://jgi.doe.gov/publication/complete-genome-sequence-for-asinibacterium-sp-strain-or53-and-draft-genome-sequence-for-asinibacterium-sp-strain-or43-two-bacteria-tolerant-to-uranium/
https://jgi.doe.gov/publication/complete-genome-sequence-of-a-thermotolerant-sporogenic-lactic-acid-bacterium-bacillus-coagulans-strain-36d1/
https://jgi.doe.gov/publication/complete-genome-sequence-of-acetohalobium-arabaticum-type-strain-z-7288/
https://jgi.doe.gov/publication/complete-genome-sequence-of-acidaminococcus-fermentans-type-strain-vr4/
https://jgi.doe.gov/publication/complete-genome-sequence-of-acidimicrobium-ferrooxidans-type-strain-icpt/
https://jgi.doe.gov/publication/complete-genome-sequence-of-actinosynnema-mirum-type-strain-101t/
https://jgi.doe.gov/publication/complete-genome-sequence-of-agrobacterium-sp-strain-33mfta1-1-isolated-from-thlaspi-arvense-roots/
https://jgi.doe.gov/publication/complete-genome-sequence-of-alicyclobacillus-acidocaldarius-type-strain-104-iat/
https://jgi.doe.gov/publication/complete-genome-sequence-of-alkaliphilus-metalliredigens-strain-qymf-an-alkaliphilic-and-metal-reducing-bacterium-isolated-from-borax-contaminated-leachate-ponds/
https://jgi.doe.gov/publication/complete-genome-sequence-of-allochromatium-vinosum-dsm-180t/
https://jgi.doe.gov/publication/complete-genome-sequence-of-aminobacterium-colombiense-type-strain-ala-1/
https://jgi.doe.gov/publication/complete-genome-sequence-of-an-evolved-thermotoga-maritima-isolate-11/
https://jgi.doe.gov/publication/complete-genome-sequence-of-anabaena-variabilis-atcc-29413/
https://jgi.doe.gov/publication/complete-genome-sequence-of-anaerococcus-prevotii-type-strain-pc1/
https://jgi.doe.gov/publication/complete-genome-sequence-of-anaeromyxobacter-sp-fw109-5-an-anaerobic-metal-reducing-bacterium-isolated-from-a-contaminated-subsurface-environment/
https://jgi.doe.gov/publication/complete-genome-sequence-of-arcanobacterium-haemolyticum-type-strain-11018t/
https://jgi.doe.gov/publication/complete-genome-sequence-of-archaeoglobus-profundus-type-strain-av18/
https://jgi.doe.gov/publication/complete-genome-sequence-of-arcobacter-nitrofigilis-type-strain-ci/
https://jgi.doe.gov/publication/complete-genome-sequence-of-arthrobacter-sp-strain-fb24/
https://jgi.doe.gov/publication/complete-genome-sequence-of-atopobium-parvulum-type-strain-ipp-1246t-vol-1-pg-166-2009/
https://jgi.doe.gov/publication/complete-genome-sequence-of-bacteroides-helcogenes-type-strain-p-36-108/
https://jgi.doe.gov/publication/complete-genome-sequence-of-bacteroides-salanitronis-type-strain-bl78/
https://jgi.doe.gov/publication/complete-genome-sequence-of-beutenbergia-cavernae-type-strain-hki-0122-2/
https://jgi.doe.gov/publication/complete-genome-sequence-of-beutenbergia-cavernae-type-strain-hki-0122/
https://jgi.doe.gov/publication/complete-genome-sequence-of-brachybacterium-faecium-type-strain-schefferle-6-10/
https://jgi.doe.gov/publication/complete-genome-sequence-of-brachyspira-murdochii-type-strain-56-150/
https://jgi.doe.gov/publication/complete-genome-sequence-of-burkholderia-phymatum-stm815t-a-broad-host-range-and-efficient-nitrogen-fixing-symbiont-of-mimosa-species/
https://jgi.doe.gov/publication/complete-genome-sequence-of-calditerrivibrio-nitroreducens-type-strain-yu37-1/
https://jgi.doe.gov/publication/complete-genome-sequence-of-capnocytophaga-ochracea-type-strain-vpi-2845/
https://jgi.doe.gov/publication/complete-genome-sequence-of-catenulispora-acidiphila-type-strain-id-139908t/
https://jgi.doe.gov/publication/complete-genome-sequence-of-cellulomonas-flavigena-type-strain-134/
https://jgi.doe.gov/publication/complete-genome-sequence-of-cellulophaga-algicola-type-strain-ic166/
https://jgi.doe.gov/publication/complete-genome-sequence-of-cellulophaga-lytica-type-strain-lim-21/
https://jgi.doe.gov/publication/complete-genome-sequence-of-chitinophaga-pinensis-type-strain-uqm-2034/
https://jgi.doe.gov/publication/complete-genome-sequence-of-clostridium-clariflavum-dsm-19732/
https://jgi.doe.gov/publication/complete-genome-sequence-of-conexibacter-woesei-type-strain-id131577/
https://jgi.doe.gov/publication/complete-genome-sequence-of-coraliomargarita-akajimensis-type-strain-04oka010-24t/
https://jgi.doe.gov/publication/complete-genome-sequence-of-coriobacterium-glomerans-type-strain-pw2t-from-the-midgut-of-pyrrhocoris-apterus-l-red-soldier-bug/
https://jgi.doe.gov/publication/complete-genome-sequence-of-cryptobacterium-curtum-type-strain-12-3/
https://jgi.doe.gov/publication/complete-genome-sequence-of-cupriavidus-basilensis-4g11-isolated-from-the-oak-ridge-field-research-center-site-11/
https://jgi.doe.gov/publication/complete-genome-sequence-of-dehalobacter-restrictus-per-k23-t/
https://jgi.doe.gov/publication/complete-genome-sequence-of-dehalogenimonas-lykanthroporepellens-type-strain-bl-dc-9t-and-comparison-to-dehalococcoides-strains/
https://jgi.doe.gov/publication/complete-genome-sequence-of-deinococcus-maricopensis-type-strain-lb-34/
https://jgi.doe.gov/publication/complete-genome-sequence-of-denitrovibrio-acetiphilus-type-strain-n2460/
https://jgi.doe.gov/publication/complete-genome-sequence-of-desulfobulbus-propionicus-type-strain-1pr3/
https://jgi.doe.gov/publication/complete-genome-sequence-of-desulfomicrobium-baculatum-type-strain-x/
https://jgi.doe.gov/publication/complete-genome-sequence-of-desulfotomaculum-acetoxidans-type-strain-5575t/
https://jgi.doe.gov/publication/complete-genome-sequence-of-desulfurispirillum-indicum-strain-s5t/
https://jgi.doe.gov/publication/complete-genome-sequence-of-desulfurivibrio-alkaliphilus-strain-aht2t-a-haloalkaliphilic-sulfidogen-from-egyptian-hypersaline-alkaline-lakes/
https://jgi.doe.gov/publication/complete-genome-sequence-of-desulfurococcus-fermentans-a-hyperthermophilic-cellulolytic-crenarchaeon-isolated-from-a-freshwater-hot-spring-in-kamchatka-russia/
https://jgi.doe.gov/publication/complete-genome-sequence-of-desulfurococcus-mucosus-type-strain-o71/
https://jgi.doe.gov/publication/complete-genome-sequence-of-dsm-30083t-the-type-strain-u541t-of-escherichia-coli-and-a-proposal-for-delineating-subspecies-in-microbial-taxonomy/
https://jgi.doe.gov/publication/complete-genome-sequence-of-dyadobacter-fermentans-type-strain-ns114/
https://jgi.doe.gov/publication/complete-genome-sequence-of-eggerthella-lenta-type-strain-ipp-vpi-0255/
https://jgi.doe.gov/publication/complete-genome-sequence-of-enterobacter-sp-iit-bt-08-a-potential-microbial-strain-for-high-rate-hydrogen-production/
https://jgi.doe.gov/publication/complete-genome-sequence-of-ferrimonas-balearica-type-strain-pat/
https://jgi.doe.gov/publication/complete-genome-sequence-of-ferroglobus-placidus-aedii12do-2/
https://jgi.doe.gov/publication/complete-genome-sequence-of-ferroglobus-placidus-aedii12do/
https://jgi.doe.gov/publication/complete-genome-sequence-of-francisella-philomiragia-atcc-25017/
https://jgi.doe.gov/publication/complete-genome-sequence-of-geobacillus-thermoglucosidasius-c56-ys93-a-novel-biomass-degrader-isolated-from-obsidian-hot-spring-in-yellowstone-national-park/
https://jgi.doe.gov/publication/complete-genome-sequence-of-geodermatophilus-obscurus-type-strain-g-20/
https://jgi.doe.gov/publication/complete-genome-sequence-of-gordonia-bronchialis-type-strain-3410/
https://jgi.doe.gov/publication/complete-genome-sequence-of-granulicella-mallensis-type-strain-mp5actx8t-an-acidobacterium-from-tundra-soil-2/
https://jgi.doe.gov/publication/complete-genome-sequence-of-granulicella-mallensis-type-strain-mp5actx8t-an-acidobacterium-from-tundra-soil/
https://jgi.doe.gov/publication/complete-genome-sequence-of-haliangium-ochraceum-type-strain-smp-2/
https://jgi.doe.gov/publication/complete-genome-sequence-of-haliscomenobacter-hydrossis-type-strain-o-t/
https://jgi.doe.gov/publication/complete-genome-sequence-of-halogeometricum-borinquense-type-strain-pr3t/
https://jgi.doe.gov/publication/complete-genome-sequence-of-halomicrobium-mukohataei-type-strain-arg-2-2/
https://jgi.doe.gov/publication/complete-genome-sequence-of-halomicrobium-mukohataei-type-strain-arg-2/
https://jgi.doe.gov/publication/complete-genome-sequence-of-halopiger-xanaduensis-type-strain-sh-6t/
https://jgi.doe.gov/publication/complete-genome-sequence-of-halorhabdus-utahensis-type-strain-ax-2/
https://jgi.doe.gov/publication/complete-genome-sequence-of-halorhabdus-utahensis-type-strain-ax-2t/
https://jgi.doe.gov/publication/complete-genome-sequence-of-halorhodospira-halophila-sl1/
https://jgi.doe.gov/publication/complete-genome-sequence-of-haloterrigena-turkmenica-type-strain-4k-2/
https://jgi.doe.gov/publication/complete-genome-sequence-of-haloterrigena-turkmenica-type-strain-4k/
https://jgi.doe.gov/publication/complete-genome-sequence-of-hirschia-baltica-type-strain-ifam-1418t/
https://jgi.doe.gov/publication/complete-genome-sequence-of-hydrogenobacter-thermophilus-type-strain-tk-6/
https://jgi.doe.gov/publication/complete-genome-sequence-of-ignisphaera-aggregans-type-strain-aq1-s1/
https://jgi.doe.gov/publication/complete-genome-sequence-of-ilyobacter-polytropus-type-strain-cuhbu1/
https://jgi.doe.gov/publication/complete-genome-sequence-of-intrasporangium-calvum-type-strain-7-kipt/
https://jgi.doe.gov/publication/complete-genome-sequence-of-isosphaera-pallida-type-strain-is1bt/
https://jgi.doe.gov/publication/complete-genome-sequence-of-jiangella-gansuensis-strain-yim-002t-dsm-44835t-the-type-species-of-the-genus-jiangella-and-source-of-new-antibiotic-compounds/
https://jgi.doe.gov/publication/complete-genome-sequence-of-jonesia-denitrificans-type-strain-prevot-55134-2/
https://jgi.doe.gov/publication/complete-genome-sequence-of-jonesia-denitrificans-type-strain-prevot-55134/
https://jgi.doe.gov/publication/complete-genome-sequence-of-kangiella-koreensis-type-strain-sw-125-2/
https://jgi.doe.gov/publication/complete-genome-sequence-of-kangiella-koreensis-type-strain-sw-125/
https://jgi.doe.gov/publication/complete-genome-sequence-of-kribbella-flavida-type-strain-ifo-14399/
https://jgi.doe.gov/publication/complete-genome-sequence-of-kytococcus-sedentarius-type-strain-541/
https://jgi.doe.gov/publication/complete-genome-sequence-of-lactobacillus-buchneri-nrrl-b-30929-a-novel-strain-from-a-commercial-ethanol-plant/
https://jgi.doe.gov/publication/complete-genome-sequence-of-leadbetterella-byssophila-type-strain-4m15/
https://jgi.doe.gov/publication/complete-genome-sequence-of-leptotrichia-buccalis-type-strain-c-1013-bt/
https://jgi.doe.gov/publication/complete-genome-sequence-of-mahella-australiensis-type-strain-50-1-bon/
https://jgi.doe.gov/publication/complete-genome-sequence-of-marinomonas-posidonica-type-strain-ivia-po-181t/
https://jgi.doe.gov/publication/complete-genome-sequence-of-marivirga-tractuosa-type-strain-h-43/
https://jgi.doe.gov/publication/complete-genome-sequence-of-meiothermus-ruber-type-strain-21/
https://jgi.doe.gov/publication/complete-genome-sequence-of-meiothermus-silvanus-type-strain-vi-r2/
https://jgi.doe.gov/publication/complete-genome-sequence-of-mesorhizobium-australicum-type-strain-wsm2073t/
https://jgi.doe.gov/publication/complete-genome-sequence-of-mesorhizobium-opportunistum-type-strain-wsm2075t/
https://jgi.doe.gov/publication/complete-genome-sequence-of-methanocorpusculum-labreanum-type-strain-z/
https://jgi.doe.gov/publication/complete-genome-sequence-of-methanoculleus-marisnigri-romesser-et-al-1981-type-strain-jr1/
https://jgi.doe.gov/publication/complete-genome-sequence-of-methanolinea-tarda-nobi-1t-a-hydrogenotrophic-methanogen-isolated-from-methanogenic-digester-sludge/
https://jgi.doe.gov/publication/complete-genome-sequence-of-methanoplanus-petrolearius-type-strain-sebr-4847t/
https://jgi.doe.gov/publication/complete-genome-sequence-of-methanoregula-formicica-smspt-a-mesophilic-hydrogenotrophic-methanogen-isolated-from-a-methanogenic-upflow-anaerobic-sludge-blanket-reactor/
https://jgi.doe.gov/publication/complete-genome-sequence-of-methanosphaerula-palustris-e1-9ct-a-hydrogenotrophic-methanogen-isolated-from-a-minerotrophic-fen-peatland/
https://jgi.doe.gov/publication/complete-genome-sequence-of-methanospirillum-hungatei-type-strain-jf1/
https://jgi.doe.gov/publication/complete-genome-sequence-of-methanothermus-fervidus-type-strain-v24s/
https://jgi.doe.gov/publication/complete-genome-sequence-of-micromonospora-strain-l5-a-potential-plant-growth-regulating-actinomycete-originally-isolated-from-casuarina-equisetifolia-root-nodules/
https://jgi.doe.gov/publication/complete-genome-sequence-of-mycobacterium-sp-strain-spyr1-and-reclassification-to-mycobacterium-gilvum-spyr1-2/
https://jgi.doe.gov/publication/complete-genome-sequence-of-nakamurella-multipartita-type-strain-y-104/
https://jgi.doe.gov/publication/complete-genome-sequence-of-nitratifractor-salsuginis-type-strain-e9i37-1/
https://jgi.doe.gov/publication/complete-genome-sequence-of-nitrobacter-hamburgensis-x14-and-comparative-genomic-analysis-of-species-within-the-genus-nitrobacter/
https://jgi.doe.gov/publication/complete-genome-sequence-of-nitrosomonas-cryotolerans-atcc-49181-a-phylogenetically-distinct-ammonia-oxidizing-bacterium-isolated-from-arctic-waters/
https://jgi.doe.gov/publication/complete-genome-sequence-of-nitrosomonas-sp-is79-an-ammonia-oxidizing-bacterium-adapted-to-low-ammonium-concentrations/
https://jgi.doe.gov/publication/complete-genome-sequence-of-nitrosospira-multiformis-an-ammonia-oxidizing-bacterium-from-the-soil-environment/
https://jgi.doe.gov/publication/complete-genome-sequence-of-oceanithermus-profundus-type-strain-506/
https://jgi.doe.gov/publication/complete-genome-sequence-of-odoribacter-splanchnicus-type-strain-16516t/
https://jgi.doe.gov/publication/complete-genome-sequence-of-olsenella-uli-type-strain-vpi-d76d-27c/
https://jgi.doe.gov/publication/complete-genome-sequence-of-paenibacillus-sp-strain-jdr-2/
https://jgi.doe.gov/publication/complete-genome-sequence-of-paenibacillus-strain-y4-12mc10-a-novel-paenibacillus-lautus-strain-isolated-from-obsidian-hot-spring-in-yellowstone-national-park/
https://jgi.doe.gov/publication/complete-genome-sequence-of-paludibacter-propionicigenes-type-strain-wb4/
https://jgi.doe.gov/publication/complete-genome-sequence-of-parvibaculum-lavamentivorans-type-strain-ds-1t/
https://jgi.doe.gov/publication/complete-genome-sequence-of-pedobacter-heparinus-type-strain-him-762-3/
https://jgi.doe.gov/publication/complete-genome-sequence-of-phormidium-yuhuli-ab48-isolated-from-an-industrial-photobioreactor-environment/
https://jgi.doe.gov/publication/complete-genome-sequence-of-pirellula-staleyi-type-strain-atcc-27377t/
https://jgi.doe.gov/publication/complete-genome-sequence-of-planctomyces-brasiliensis-type-strain-dsm-5305t-phylogenomic-analysis-and-reclassification-of-planctomycetes-including-the-descriptions-of-gimesia-gen-nov-planctopiru/
https://jgi.doe.gov/publication/complete-genome-sequence-of-planctomyces-limnophilus-type-strain-mu-290/
https://jgi.doe.gov/publication/complete-genome-sequence-of-polynucleobacter-necessarius-subsp-asymbioticus-type-strain-qlw-p1dmwa-1t/
https://jgi.doe.gov/publication/complete-genome-sequence-of-rahnella-aquatilis-cip-78-65/
https://jgi.doe.gov/publication/complete-genome-sequence-of-rahnella-sp-strain-y9602-a-gammaproteobacterium-isolate-from-metal-and-radionuclide-contaminated-soil/
https://jgi.doe.gov/publication/complete-genome-sequence-of-rhizobium-leguminosarum-bv-trifolii-strain-wsm1325-an-effective-microsymbiont-of-annual-mediterranean-clovers/
https://jgi.doe.gov/publication/complete-genome-sequence-of-rhodospirillum-rubrum-type-strain-s1t/
https://jgi.doe.gov/publication/complete-genome-sequence-of-rhodothermus-marinus-type-strain-r-10-2/
https://jgi.doe.gov/publication/complete-genome-sequence-of-rhodothermus-marinus-type-strain-r-10/
https://jgi.doe.gov/publication/complete-genome-sequence-of-riemerella-anatipestifer-type-strain-atcc-11845/
https://jgi.doe.gov/publication/complete-genome-sequence-of-saccharomonospora-viridis-type-strain-p101/
https://jgi.doe.gov/publication/complete-genome-sequence-of-sanguibacter-keddieii-type-strain-st-74/
https://jgi.doe.gov/publication/complete-genome-sequence-of-sebaldella-termitidis-type-strain-nctc-11300/
https://jgi.doe.gov/publication/complete-genome-sequence-of-segniliparus-rotundus-type-strain-cdc-1076/
https://jgi.doe.gov/publication/complete-genome-sequence-of-serratia-plymuthica-strain-as12/
https://jgi.doe.gov/publication/complete-genome-sequence-of-serratia-quinivorans-strain-124r-a-facultative-anaerobe-isolated-on-organosolv-lignin-as-a-sole-carbon-source/
https://jgi.doe.gov/publication/complete-genome-sequence-of-slackia-heliotrinireducens-type-strain-rhs-1-2/
https://jgi.doe.gov/publication/complete-genome-sequence-of-slackia-heliotrinireducens-type-strain-rhs-1/
https://jgi.doe.gov/publication/complete-genome-sequence-of-sphaerobacter-thermophilus-type-strain-s-6022/
https://jgi.doe.gov/publication/complete-genome-sequence-of-spirochaeta-smaragdinae-type-strain-sebr-4228-2/
https://jgi.doe.gov/publication/complete-genome-sequence-of-spirochaeta-smaragdinae-type-strain-sebr-4228/
https://jgi.doe.gov/publication/complete-genome-sequence-of-spirosoma-linguale-type-strain-1/
https://jgi.doe.gov/publication/complete-genome-sequence-of-stackebrandtia-nassauensis-type-strain-llr-40k-21-2/
https://jgi.doe.gov/publication/complete-genome-sequence-of-stackebrandtia-nassauensis-type-strain-llr-40k-21/
https://jgi.doe.gov/publication/complete-genome-sequence-of-staphylothermus-marinus-stetter-and-fiala-1986-type-strain-f1/
https://jgi.doe.gov/publication/complete-genome-sequence-of-streptobacillus-moniliformis-type-strain-9901-2/
https://jgi.doe.gov/publication/complete-genome-sequence-of-streptobacillus-moniliformis-type-strain-9901/
https://jgi.doe.gov/publication/complete-genome-sequence-of-streptosporangium-roseum-type-strain-ni-9100/
https://jgi.doe.gov/publication/complete-genome-sequence-of-sulfolobus-solfataricus-strain-982-and-evolved-derivatives-11/
https://jgi.doe.gov/publication/complete-genome-sequence-of-sulfurimonas-autotrophica-type-strain-ok10/
https://jgi.doe.gov/publication/complete-genome-sequence-of-sulfurospirillum-deleyianum-type-strain-5175/
https://jgi.doe.gov/publication/complete-genome-sequence-of-syntrophobotulus-glycolicus-type-strain-flglyr/
https://jgi.doe.gov/publication/complete-genome-sequence-of-syntrophothermus-lipocalidus-type-strain-tgb-c1t/
https://jgi.doe.gov/publication/complete-genome-sequence-of-terriglobus-saanensis-type-strain-sp1pr4t-an-acidobacteria-from-tundra-soil/
https://jgi.doe.gov/publication/complete-genome-sequence-of-thauera-aminoaromatica-strain-mz1t/
https://jgi.doe.gov/publication/complete-genome-sequence-of-the-acetate-degrading-sulfate-reducer-desulfobacca-acetoxidans-type-strain-asrb2t/
https://jgi.doe.gov/publication/complete-genome-sequence-of-the-aerobic-co-oxidizing-thermophile-thermomicrobium-roseum/
https://jgi.doe.gov/publication/complete-genome-sequence-of-the-aerobic-heterotroph-marinithermus-hydrothermalis-type-strain-t1t-from-a-deep-sea-hydrothermal-vent-chimney/
https://jgi.doe.gov/publication/complete-genome-sequence-of-the-aerobic-marine-methanotroph-methylomonas-methanica-mc09/
https://jgi.doe.gov/publication/complete-genome-sequence-of-the-ammonia-oxidizing-bacterium-and-obligate-chemolithoautotroph-nitrosomonas-europaea/
https://jgi.doe.gov/publication/complete-genome-sequence-of-the-anaerobic-halophilic-alkalithermophile-natranaerobius-thermophilus-jwnm-wn-lf/
https://jgi.doe.gov/publication/complete-genome-sequence-of-the-antarctic-halorubrum-lacusprofundi-type-strain-acam-34/
https://jgi.doe.gov/publication/complete-genome-sequence-of-the-aquatic-bacterium-runella-slithyformis-type-strain-lsu-4t/
https://jgi.doe.gov/publication/complete-genome-sequence-of-the-bile-resistant-pigment-producing-anaerobe-alistipes-finegoldii-type-strain-ahn2437t/
https://jgi.doe.gov/publication/complete-genome-sequence-of-the-cellulolytic-thermophile-caldicellulosiruptor-obsidiansis-ob47t/
https://jgi.doe.gov/publication/complete-genome-sequence-of-the-cellulolytic-thermophile-clostridium-thermocellum-dsm1313/
https://jgi.doe.gov/publication/complete-genome-sequence-of-the-cellulose-degrading-bacterium-cellulosilyticum-lentocellum/
https://jgi.doe.gov/publication/complete-genome-sequence-of-the-chemolithoautotrophic-marine-magnetotactic-coccus-strain-mc-1/
https://jgi.doe.gov/publication/complete-genome-sequence-of-the-complex-carbohydrate-degrading-marine-bacterium-saccharophagus-degradans-strain-2-40t/
https://jgi.doe.gov/publication/complete-genome-sequence-of-the-ethanol-producer-zymomonas-mobilis-ncimb-11163-2/
https://jgi.doe.gov/publication/complete-genome-sequence-of-the-ethanol-producer-zymomonas-mobilis-ncimb-11163/
https://jgi.doe.gov/publication/complete-genome-sequence-of-the-ethanol-producing-zymomonas-mobilis-subsp-mobilis-centrotype-atcc-29191/
https://jgi.doe.gov/publication/complete-genome-sequence-of-the-facultatively-anaerobic-appendaged-bacterium-muricauda-ruestringensis-type-strain-b1t/
https://jgi.doe.gov/publication/complete-genome-sequence-of-the-facultatively-chemolithoautotrophic-and-methylotrophic-alpha-proteobacterium-starkeya-novella-type-strain-atcc-8093t/
https://jgi.doe.gov/publication/complete-genome-sequence-of-the-filamentous-anoxygenic-phototrophic-bacterium-chloroflexus-aurantiacus/
https://jgi.doe.gov/publication/complete-genome-sequence-of-the-filamentous-gliding-predatory-bacterium-herpetosiphon-aurantiacus-type-strain-114-95t/
https://jgi.doe.gov/publication/complete-genome-sequence-of-the-gliding-freshwater-bacterium-fluviicola-taffensis-type-strain-rw262t/
https://jgi.doe.gov/publication/complete-genome-sequence-of-the-gliding-heparinolytic-pedobacter-saltans-type-strain-113/
https://jgi.doe.gov/publication/complete-genome-sequence-of-the-haloalkaliphilic-hydrogen-producing-bacterium-halanaerobium-hydrogeniformans/
https://jgi.doe.gov/publication/complete-genome-sequence-of-the-haloalkaliphilic-obligately-chemolithoautotrophic-thiosulfate-and-sulfide-oxidizing-gamma-proteobacterium-thioalkalimicrobium-cyclicum-type-strain-alm-1-dsm-14477t/
https://jgi.doe.gov/publication/complete-genome-sequence-of-the-halophilic-and-highly-halotolerant-chromohalobacter-salexigens-type-strain-1h11t/
https://jgi.doe.gov/publication/complete-genome-sequence-of-the-halophilic-bacterium-spirochaeta-africana-type-strain-z-7692t-from-the-alkaline-lake-magadi-in-the-east-african-rift/
https://jgi.doe.gov/publication/complete-genome-sequence-of-the-hyperthermophilic-chemolithoautotroph-pyrolobus-fumarii-type-strain-1a/
https://jgi.doe.gov/publication/complete-genome-sequence-of-the-hyperthermophilic-sulfate-reducing-bacterium-thermodesulfobacterium-geofontis-opf15t/
https://jgi.doe.gov/publication/complete-genome-sequence-of-the-lignin-degrading-bacterium-klebsiella-sp-strain-brl6-2/
https://jgi.doe.gov/publication/complete-genome-sequence-of-the-marine-cellulose-and-xylan-degrading-bacterium-glaciecola-sp-strain-4h-3-7ye-5/
https://jgi.doe.gov/publication/complete-genome-sequence-of-the-marine-chemolithoautotrophic-ammonia-oxidizing-bacterium-nitrosococcus-oceani-atcc-19707/
https://jgi.doe.gov/publication/complete-genome-sequence-of-the-marine-methyl-halide-oxidizing-leisingera-methylohalidivorans-type-strain-dsm-14336t-a-representative-of-the-roseobacter-clade-2/
https://jgi.doe.gov/publication/complete-genome-sequence-of-the-medicago-microsymbiont-ensifer-sinorhizobium-medicae-strain-wsm419/
https://jgi.doe.gov/publication/complete-genome-sequence-of-the-melanogenic-marine-bacterium-marinomonas-mediterranea-type-strain-mmb-1t/
https://jgi.doe.gov/publication/complete-genome-sequence-of-the-metabolically-versatile-photosynthetic-bacterium-rhodopseudomonas-palustris/
https://jgi.doe.gov/publication/complete-genome-sequence-of-the-metabolically-versatile-plant-growth-promoting-endophyte-variovorax-paradoxus-s110/
https://jgi.doe.gov/publication/complete-genome-sequence-of-the-moderate-thermophile-anaerobaculum-mobile-type-strain-ngat/
https://jgi.doe.gov/publication/complete-genome-sequence-of-the-moderately-thermophilic-mineral-sulfide-oxidizing-firmicute-sulfobacillus-acidophilus-type-strain-nalt/
https://jgi.doe.gov/publication/complete-genome-sequence-of-the-opitutaceae-bacterium-strain-tav5-a-potential-facultative-methylotroph-of-the-wood-feeding-termite-reticulitermes-flavipes/
https://jgi.doe.gov/publication/complete-genome-sequence-of-the-orange-red-pigmented-radioresistant-deinococcus-proteolyticus-type-strain-mrpt/
https://jgi.doe.gov/publication/complete-genome-sequence-of-the-phenanthrene-degrading-soil-bacterium-delftia-acidovorans-cs1-4-11/
https://jgi.doe.gov/publication/complete-genome-sequence-of-the-photosynthetic-purple-nonsulfur-bacterium-rhodobacter-capsulatus-sb-1003/
https://jgi.doe.gov/publication/complete-genome-sequence-of-the-plant-associated-serratia-plymuthica-strain-as13/
https://jgi.doe.gov/publication/complete-genome-sequence-of-the-plant-growth-promoting-endophyte-burkholderia-phytofirmans-strain-psjn/
https://jgi.doe.gov/publication/complete-genome-sequence-of-the-rapeseed-plant-growth-promoting-serratia-plymuthica-strain-as9/
https://jgi.doe.gov/publication/complete-genome-sequence-of-the-subsurface-mesophilic-sulfate-reducing-bacterium-desulfovibrio-aespoeensis-aspo-2/
https://jgi.doe.gov/publication/complete-genome-sequence-of-the-sulfate-reducing-firmicute-desulfotomaculum-ruminis-type-strain-dlt/
https://jgi.doe.gov/publication/complete-genome-sequence-of-the-sulfur-compounds-oxidizing-chemolithoautotroph-sulfuricurvum-kujiense-type-strain-yk-1t/
https://jgi.doe.gov/publication/complete-genome-sequence-of-the-termite-hindgut-bacterium-spirochaeta-coccoides-type-strain-spn1t-reclassification-in-the-genus-sphaerochaeta-as-sphaerochaeta-coccoides-comb-nov-and-emendations/
https://jgi.doe.gov/publication/complete-genome-sequence-of-the-thermophilic-bacterium-exiguobacterium-sp-at1b-2/
https://jgi.doe.gov/publication/complete-genome-sequence-of-the-thermophilic-bacterium-exiguobacterium-sp-at1b/
https://jgi.doe.gov/publication/complete-genome-sequence-of-the-thermophilic-hydrogen-oxidizing-bacillus-tusciae-type-strain-t2t-and-reclassification-in-the-new-genus-kyrpidia-gen-nov-as-kyrpidia-tusciae-comb-nov-and-emendat/
https://jgi.doe.gov/publication/complete-genome-sequence-of-the-thermophilic-piezophilic-heterotrophic-bacterium-marinitoga-piezophila-ka3/
https://jgi.doe.gov/publication/complete-genome-sequence-of-the-thermophilic-sulfate-reducing-ocean-bacterium-thermodesulfatator-indicus-type-strain-cir29812t/
https://jgi.doe.gov/publication/complete-genome-sequence-of-the-thermophilic-sulfur-reducer-desulfurobacterium-thermolithotrophum-type-strain-bsat-from-a-deep-sea-hydrothermal-vent/
https://jgi.doe.gov/publication/complete-genome-sequence-of-thermanaerovibrio-acidaminovorans-type-strain-su883/
https://jgi.doe.gov/publication/complete-genome-sequence-of-thermanaerovibrio-acidaminovorans-type-strain-su883t/
https://jgi.doe.gov/publication/complete-genome-sequence-of-thermoanaerobacterium-sp-strain-rbiitd-a-butyrate-and-butanol-producing-thermophile/
https://jgi.doe.gov/publication/complete-genome-sequence-of-thermobaculum-terrenum-type-strain-ynp1/
https://jgi.doe.gov/publication/complete-genome-sequence-of-thermobispora-bispora-type-strain-r51t/
https://jgi.doe.gov/publication/complete-genome-sequence-of-thermocrinis-albus-type-strain-hi-1112/
https://jgi.doe.gov/publication/complete-genome-sequence-of-thermomonospora-curvata-type-strain-b9/
https://jgi.doe.gov/publication/complete-genome-sequence-of-thermosediminibacter-oceani-type-strain-jwiw-1228p/
https://jgi.doe.gov/publication/complete-genome-sequence-of-thermosphaera-aggregans-type-strain-m11tl/
https://jgi.doe.gov/publication/complete-genome-sequence-of-thermovibrio-ammonificans-hb-1t-a-thermophilic-chemolithoautotrophic-bacterium-isolated-from-a-deep-sea-hydrothermal-vent/
https://jgi.doe.gov/publication/complete-genome-sequence-of-thioalkalivibrio-paradoxus-type-strain-arh-1t-an-obligately-chemolithoautotrophic-haloalkaliphilic-sulfur-oxidizing-bacterium-isolated-from-a-kenyan-soda-lake/
https://jgi.doe.gov/publication/complete-genome-sequence-of-thioalkalivibrio-sp-k90mix/
https://jgi.doe.gov/publication/complete-genome-sequence-of-thioalkalivibrio-sulfidophilus-hl-ebgr7-2/
https://jgi.doe.gov/publication/complete-genome-sequence-of-thioalkalivibrio-sulfidophilus-hl-ebgr7/
https://jgi.doe.gov/publication/complete-genome-sequence-of-treponema-succinifaciens-type-strain-6091/
https://jgi.doe.gov/publication/complete-genome-sequence-of-truepera-radiovictrix-type-strain-rq-24/
https://jgi.doe.gov/publication/complete-genome-sequence-of-tsukamurella-paurometabola-type-strain-no-33t/
https://jgi.doe.gov/publication/complete-genome-sequence-of-veillonella-parvula-type-strain-te3/
https://jgi.doe.gov/publication/complete-genome-sequence-of-vulcanisaeta-distributa-type-strain-ic-017/
https://jgi.doe.gov/publication/complete-genome-sequence-of-weeksella-virosa-type-strain-9751/
https://jgi.doe.gov/publication/complete-genome-sequence-of-xylanimonas-cellulosilytica-type-strain-xil07/
https://jgi.doe.gov/publication/complete-genome-sequences-for-the-anaerobic-extremely-thermophilic-plant-biomass-degrading-bacteria-caldicellulosiruptor-hydrothermalis-caldicellulosiruptor-kristjanssonii-caldicellulosiruptor-kron/
https://jgi.doe.gov/publication/complete-genome-sequences-of-caldicellulosiruptor-sp-strain-rt8-b8-caldicellulosiruptor-sp-strain-wai35-b1-and-thermoanaerobacter-cellulolyticus-11/
https://jgi.doe.gov/publication/complete-genome-sequences-of-desulfosporosinus-orientis-dsm765t-desulfosporosinus-youngiae-dsm17734t-desulfosporosinus-meridiei-dsm13257t-and-desulfosporosinus-acidiphilus-dsm22704t/
https://jgi.doe.gov/publication/complete-genome-sequences-of-evolved-arsenate-resistant-metallosphaera-sedula-strains/
https://jgi.doe.gov/publication/complete-genome-sequences-of-geobacillus-sp-wch70-a-thermophilic-strain-isolated-from-wood-compost/
https://jgi.doe.gov/publication/complete-genome-sequences-of-krokinobacter-sp-strain-4h-3-7-5-and-lacinutrix-sp-strain-5h-3-7-4-polysaccharide-degrading-members-of-the-family-flavobacteriaceae/
https://jgi.doe.gov/publication/complete-genome-sequences-of-six-strains-of-the-genus-methylobacterium/
https://jgi.doe.gov/publication/complete-genome-sequences-of-two-phylogenetically-distinct-nitrospina-strains-isolated-from-the-atlantic-and-pacific-oceans-2/
https://jgi.doe.gov/publication/complete-genomic-characterization-of-a-pathogenic-a-ii-strain-of-francisella-tularensis-subspecies-tularensis/
https://jgi.doe.gov/publication/complete-mitochondrial-genome-sequence-of-urechis-caupo-a-representative-of-the-phylum-echiura/
https://jgi.doe.gov/publication/complete-plastid-genome-sequences-of-drimys-liriodendron-and-piper-implications-for-the-phylogenetic-relationships-of-magnoliids/
https://jgi.doe.gov/publication/complete-plastid-genome-sequences-suggest-strong-selection-for-retention-of-photosynthetic-genes-in-the-parasitic-plant-genus-cuscuta/
https://jgi.doe.gov/publication/complete-sequence-and-comparative-genome-analysis-of-the-dairy-bacterium-streptococcus-thermophilus/
https://jgi.doe.gov/publication/complete-sequences-of-the-highly-rearranged-molluscan-mitochondrial-genomes-of-the-scaphopod-graptacme-eborea-and-the-bivalve-mytilus-edulis/
https://jgi.doe.gov/publication/complex-evolutionary-history-of-translation-elongation-factor-2-and-diphthamide-biosynthesis-in-archaea-and-parabasalids/
https://jgi.doe.gov/publication/composition-of-bacillus-species-in-aerosols-from-11-us-cities/
https://jgi.doe.gov/publication/comprehensive-genomic-and-transcriptomic-analysis-of-polycyclic-aromatic-hydrocarbon-degradation-by-a-mycoremediation-fungus-dentipellis-sp-kuc8613/
https://jgi.doe.gov/publication/computational-analysis-of-the-phanerochaete-chrysosporium-v2-0-genome-database-and-mass-spectrometry-identification-of-peptides-in-ligninolytic-cultures-reveal-complex-mixtures-of-secreted-proteins/
https://jgi.doe.gov/publication/computational-protein-design-enables-a-novel-one-carbon-assimilation-pathway/
https://jgi.doe.gov/publication/computational-strategies-for-scalable-genomics-analysis/
https://jgi.doe.gov/publication/confederate-guerrilla-the-civil-war-memoir-of-joseph-m-bailey/
https://jgi.doe.gov/publication/confidence-based-active-learning/
https://jgi.doe.gov/publication/confidence-based-classifier-design/
https://jgi.doe.gov/publication/coniella-lustricola-a-new-species-from-submerged-detritus/
https://jgi.doe.gov/publication/conifer-dbmagic-a-database-housing-multiple-de-novo-transcriptome-assemblies-for-12-diverse-conifer-species/
https://jgi.doe.gov/publication/connecting-metabolome-and-phenotype-recent-advances-in-functional-metabolomics-tools-for-the-identification-of-bioactive-natural-products/
https://jgi.doe.gov/publication/consensus-statement-from-the-first-rdrp-summit-advancing-rna-virus-discovery-at-scale-across-communities-2/
https://jgi.doe.gov/publication/consensus-statement-from-the-first-rdrp-summit-advancing-rna-virus-discovery-at-scale-across-communities/
https://jgi.doe.gov/publication/conservation-and-expansion-of-transcriptional-factor-repertoire-in-the-fusarium-oxysporum-species-complex/
https://jgi.doe.gov/publication/conservation-of-endophyte-bacterial-community-structure-across-two-panicum-grass-species/
https://jgi.doe.gov/publication/conservation-of-linkage-and-evolution-of-developmental-function-within-the-tbx2345-subfamily-of-t-box-genes-implications-for-the-origin-of-vertebrate-limbs-2/
https://jgi.doe.gov/publication/conservation-of-linkage-and-evolution-of-developmental-function-within-the-tbx2345-subfamily-of-t-box-genes-implications-for-the-origin-of-vertebrate-limbs/
https://jgi.doe.gov/publication/conserved-genomic-collinearity-as-a-source-of-broadly-applicable-fast-evolving-markers-to-resolve-species-complexes-a-case-study-using-the-lichen-forming-genus-peltigera-section-polydactylon-2/
https://jgi.doe.gov/publication/conserved-genomic-collinearity-as-a-source-of-broadly-applicable-fast-evolving-markers-to-resolve-species-complexes-a-case-study-using-the-lichen-forming-genus-peltigera-section-polydactylon/
https://jgi.doe.gov/publication/conserved-unique-peptide-patterns-cupp-online-platform-2-0-implementation-of-1000-jgi-fungal-genomes/
https://jgi.doe.gov/publication/conserved-white-rot-enzymatic-mechanism-for-wood-decay-in-the-basidiomycota-genus-pycnoporus/
https://jgi.doe.gov/publication/considering-strain-variation-and-non-type-strains-for-yeast-metabolic-engineering-applications-2/
https://jgi.doe.gov/publication/consortia-of-low-abundance-bacteria-drive-sulfate-reduction-dependent-degradation-of-fermentation-products-in-peat-soil-microcosms-2/
https://jgi.doe.gov/publication/consortia-of-low-abundance-bacteria-drive-sulfate-reduction-dependent-degradation-of-fermentation-products-in-peat-soil-microcosms/
https://jgi.doe.gov/publication/constraining-the-oxygen-requirements-for-modern-microbial-eukaryote-diversity/
https://jgi.doe.gov/publication/constructing-a-yeast-to-express-the-largest-cellulosome-complex-on-the-cell-surface/
https://jgi.doe.gov/publication/construction-and-characterization-of-est-libraries-from-the-porcelain-crab-petrolisthes-cinctipes/
https://jgi.doe.gov/publication/construction-and-comparison-of-three-reference-quality-genome-assemblies-for-soybean-2/
https://jgi.doe.gov/publication/construction-and-comparison-of-three-reference-quality-genome-assemblies-for-soybean/
https://jgi.doe.gov/publication/construction-of-a-medicinal-leech-transcriptome-database-and-its-application-to-the-identification-of-leech-homologs-of-neural-and-innate-immune-genes/
https://jgi.doe.gov/publication/construction-of-high-resolution-genetic-linkage-maps-to-improve-the-soybean-genome-sequence-assembly-glyma1-01/
https://jgi.doe.gov/publication/construction-of-lactic-acid-overproducing-clostridium-thermocellum-through-enhancement-of-lactate-dehydrogenase-expression/
https://jgi.doe.gov/publication/continuous-molecular-evolution-of-protein-domain-structures-by-single-amino-acid-changes/
https://jgi.doe.gov/publication/contrasting-community-assembly-forces-drive-microbial-structural-and-potential-functional-responses-to-precipitation-in-an-incipient-soil-system-2/
https://jgi.doe.gov/publication/contrasting-life-strategies-of-viruses-that-infect-photo-and-heterotrophic-bacteria-as-revealed-by-viral-tagging/
https://jgi.doe.gov/publication/contrasting-modes-of-mitochondrial-genome-evolution-in-sister-taxa-of-wood-eating-marine-bivalves-teredinidae-and-xylophagaidae-2/
https://jgi.doe.gov/publication/contrasting-pathways-for-anaerobic-methane-oxidation-in-gulf-of-mexico-cold-seep-sediments/
https://jgi.doe.gov/publication/contrasting-patterns-of-genome-level-diversity-across-distinct-co-occurring-bacterial-populations/
https://jgi.doe.gov/publication/contrasting-patterns-of-sequence-evolution-at-the-functionally-redundant-bric-a-brac-paralogs-in-drosophila-melanogaster/
https://jgi.doe.gov/publication/contribution-of-calcium-ligands-in-substrate-binding-and-product-release-in-the-acetovibrio-thermocellus-glycoside-hydrolase-family-9-cellulase-celr/
https://jgi.doe.gov/publication/control-of-bacterial-sulfite-detoxification-by-conserved-and-species-specific-regulatory-circuits/
https://jgi.doe.gov/publication/controlling-selectivity-of-modular-microbial-biosynthesis-of-butyryl-coa-derived-designer-esters-2/
https://jgi.doe.gov/publication/contscout-sensitive-detection-and-removal-of-contamination-from-annotated-genomes/
https://jgi.doe.gov/publication/convergent-bacterial-microbiotas-in-the-fungal-agricultural-systems-of-insects/
https://jgi.doe.gov/publication/convergent-evolution-and-horizontal-gene-transfer-in-arctic-ocean-microalgae-2/
https://jgi.doe.gov/publication/convergent-evolution-in-primates-and-an-insectivore/
https://jgi.doe.gov/publication/convergent-losses-of-decay-mechanisms-and-rapid-turnover-of-symbiosis-genes-in-mycorrhizal-mutualists-vol-47-pg-410-2015/
https://jgi.doe.gov/publication/convergent-reductive-evolution-and-host-adaptation-in-mycoavidus-bacterial-endosymbionts-of-mortierellaceae-fungi/
https://jgi.doe.gov/publication/conversion-of-amazon-rainforest-to-agriculture-alters-community-traits-of-methane-cycling-organisms/
https://jgi.doe.gov/publication/coordinating-environmental-genomics-and-geochemistry-reveals-metabolic-transitions-in-a-hot-spring-ecosystem/
https://jgi.doe.gov/publication/coral-life-history-and-symbiosis-functional-genomic-resources-for-two-reef-building-caribbean-corals-acropora-palmata-and-montastraea-faveolata/
https://jgi.doe.gov/publication/coral-mucus-rapidly-induces-chemokinesis-and-genome-wide-transcriptional-shifts-toward-early-pathogenesis-in-a-bacterial-coral-pathogen/
https://jgi.doe.gov/publication/correlation-based-network-analysis-combined-with-machine-learning-techniques-highlight-the-role-of-the-gaba-shunt-in-brachypodium-sylvaticum-freezing-tolerance/
https://jgi.doe.gov/publication/counting-dots-or-counting-reads-complementary-approaches-to-estimate-virus-to-microbe-ratios/
https://jgi.doe.gov/publication/counting-mrna-copies-in-intact-bacterial-cells-by-fluctuation-localization-imaging-based-fluorescence-in-situ-hybridization-flifish/
https://jgi.doe.gov/publication/coupled-biological-and-abiotic-mechanisms-driving-carbonyl-sulfide-production-in-soils/
https://jgi.doe.gov/publication/coupled-laboratory-and-field-investigations-resolve-microbial-interactions-that-underpin-persistence-in-hydraulically-fractured-shales/
https://jgi.doe.gov/publication/coupling-high-throughput-and-targeted-screening-for-identification-of-nonobvious-metabolic-engineering-targets/
https://jgi.doe.gov/publication/covariation-of-hot-spring-geochemistry-with-microbial-genomic-diversity-function-and-evolution-2/
https://jgi.doe.gov/publication/covariation-of-hot-spring-geochemistry-with-microbial-genomic-diversity-function-and-evolution-3/
https://jgi.doe.gov/publication/covariation-of-hot-spring-geochemistry-with-microbial-genomic-diversity-function-and-evolution/
https://jgi.doe.gov/publication/covid-19-pandemic-reveals-the-peril-of-ignoring-metadata-standards/
https://jgi.doe.gov/publication/crage-crispr-facilitates-rapid-activation-of-secondary-metabolite-biosynthetic-gene-clusters-in-bacteria/
https://jgi.doe.gov/publication/crage-enables-rapid-activation-of-biosynthetic-gene-clusters-in-undomesticated-bacteria/
https://jgi.doe.gov/publication/crawling-through-time-transition-of-snails-to-slugs-dating-back-to-the-paleozoic-based-on-mitochondrial-phylogenomics/
https://jgi.doe.gov/publication/crea-mediated-repression-of-gene-expression-occurs-at-low-monosaccharide-levels-during-fungal-plant-biomass-conversion-in-a-time-and-substrate-dependent-manner/
https://jgi.doe.gov/publication/crispr-a-widespread-system-that-provides-acquired-resistance-against-phages-in-bacteria-and-archaea/
https://jgi.doe.gov/publication/crispr-resolved-virus-host-interactions-in-a-municipal-landfill-include-non-specific-viruses-hyper-targeted-viral-populations-and-interviral-conflicts/
https://jgi.doe.gov/publication/critical-assessment-of-metagenome-interpretation-a-benchmark-of-metagenomics-software/
https://jgi.doe.gov/publication/critical-assessment-of-metagenome-interpretation-the-second-round-of-challenges-2/
https://jgi.doe.gov/publication/critical-biogeochemical-functions-in-the-subsurface-are-associated-with-bacteria-from-new-phyla-and-little-studied-lineages-11/
https://jgi.doe.gov/publication/cross-species-functional-diversity-within-the-pin-auxin-efflux-protein-family/
https://jgi.doe.gov/publication/cross-species-sequence-comparisons-a-review-of-methods-and-available-resources/
https://jgi.doe.gov/publication/crowdsourcing-and-curation-perspectives-from-biology-and-natural-language-processing/
https://jgi.doe.gov/publication/cryptic-genetic-structure-and-copy-number-variation-in-the-ubiquitous-forest-symbiotic-fungus-cenococcum-geophilum/
https://jgi.doe.gov/publication/cryptic-inoviruses-revealed-as-pervasive-in-bacteria-and-archaea-across-earths-biomes-2/
https://jgi.doe.gov/publication/cryptic-inoviruses-revealed-as-pervasive-in-bacteria-and-archaea-across-earths-biomes/
https://jgi.doe.gov/publication/crystal-structure-of-the-frp-and-identification-of-the-active-site-for-modulation-of-ocp-mediated-photoprotection-in-cyanobacteria/
https://jgi.doe.gov/publication/ctcf-mediated-functional-chromatin-interactome-in-pluripotent-cells/
https://jgi.doe.gov/publication/culexarchaeia-a-novel-archaeal-class-of-anaerobic-generalists-inhabiting-geothermal-environments-2/
https://jgi.doe.gov/publication/culexarchaeia-a-novel-archaeal-class-of-anaerobic-generalists-inhabiting-geothermal-environments/
https://jgi.doe.gov/publication/cultivating-the-bacterial-microbiota-of-populus-roots-3/
https://jgi.doe.gov/publication/cultivating-the-bacterial-microbiota-of-populus-roots/
https://jgi.doe.gov/publication/cultivation-and-sequencing-of-rumen-microbiome-members-from-the-hungate1000-collection/
https://jgi.doe.gov/publication/cultivation-and-visualization-of-a-methanogen-of-the-phylum-thermoproteota-2/
https://jgi.doe.gov/publication/cultivation-and-visualization-of-a-methanogen-of-the-phylum-thermoproteota-3/
https://jgi.doe.gov/publication/cultivation-and-visualization-of-a-methanogen-of-the-phylum-thermoproteota/
https://jgi.doe.gov/publication/cultivation-of-novel-atribacterota-from-oil-well-provides-new-insight-into-their-diversity-ecology-and-evolution-in-anoxic-carbon-rich-environments-2/
https://jgi.doe.gov/publication/cultivation-of-novel-atribacterota-from-oil-well-provides-new-insight-into-their-diversity-ecology-and-evolution-in-anoxic-carbon-rich-environments-3/
https://jgi.doe.gov/publication/cultivation-of-novel-atribacterota-from-oil-well-provides-new-insight-into-their-diversity-ecology-and-evolution-in-anoxic-carbon-rich-environments/
https://jgi.doe.gov/publication/current-and-emerging-technologies-for-the-study-of-bacteria-in-the-outdoor-air/
https://jgi.doe.gov/publication/current-status-and-impending-progress-for-cassava-structural-genomics/
https://jgi.doe.gov/publication/custom-tuning-of-rieske-oxygenase-reactivity/
https://jgi.doe.gov/publication/cyanobacterial-based-approaches-to-improving-photosynthesis-in-plants/
https://jgi.doe.gov/publication/cynipid-wasps-systematically-reprogram-host-metabolism-and-restructure-cell-walls-in-developing-galls/
https://jgi.doe.gov/publication/cytochrome-p450-catalyzed-biosynthesis-of-furanoditerpenoids-in-the-bioenergy-crop-switchgrass-panicum-virgatum-l/
https://jgi.doe.gov/publication/cytochromes-p450-involved-in-bacterial-ripp-biosyntheses/
https://jgi.doe.gov/publication/data-shopping-in-an-open-marketplace-introducing-the-ontogrator-web-application-for-marking-up-data-using-ontologies-and-browsing-using-facets/
https://jgi.doe.gov/publication/dataset-of-143-metagenome-assembled-genomes-from-the-arctic-and-atlantic-oceans-including-21-for-eukaryotic-organisms/
https://jgi.doe.gov/publication/de-novo-dna-synthesis-using-polymerase-nucleotide-conjugates/
https://jgi.doe.gov/publication/de-novo-nanopore-read-quality-improvement-using-deep-learning/
https://jgi.doe.gov/publication/de-novo-transcriptome-assembly-of-drought-tolerant-cam-plants-agave-deserti-and-agave-tequilana/
https://jgi.doe.gov/publication/deciphering-the-evolution-of-flavin-dependent-monooxygenase-stereoselectivity-using-ancestral-sequence-reconstruction/
https://jgi.doe.gov/publication/deciphering-the-molecular-components-of-the-quorum-sensing-system-in-the-fungus-ophiostoma-piceae-2/
https://jgi.doe.gov/publication/deciphering-the-molecular-components-of-the-quorum-sensing-system-in-the-fungus-ophiostoma-piceae-3/
https://jgi.doe.gov/publication/deciphering-the-molecular-components-of-the-quorum-sensing-system-in-the-fungus-ophiostoma-piceae/
https://jgi.doe.gov/publication/declines-in-ice-cover-are-accompanied-by-light-limitation-responses-and-community-change-in-freshwater-diatoms-2/
https://jgi.doe.gov/publication/declines-in-ice-cover-are-accompanied-by-light-limitation-responses-and-community-change-in-freshwater-diatoms/
https://jgi.doe.gov/publication/decomposing-a-san-francisco-estuary-microbiome-using-long-read-metagenomics-reveals-species-and-strain-level-dominance-from-picoeukaryotes-to-viruses-2/
https://jgi.doe.gov/publication/decomposing-a-san-francisco-estuary-microbiome-using-long-read-metagenomics-reveals-species-and-strain-level-dominance-from-picoeukaryotes-to-viruses-3/
https://jgi.doe.gov/publication/decomposing-a-san-francisco-estuary-microbiome-using-long-read-metagenomics-reveals-species-and-strain-level-dominance-from-picoeukaryotes-to-viruses/
https://jgi.doe.gov/publication/decontamination-of-mda-reagents-for-single-cell-whole-genome-amplification-2/
https://jgi.doe.gov/publication/decontamination-of-mda-reagents-for-single-cell-whole-genome-amplification/
https://jgi.doe.gov/publication/deconvolute-individual-genomes-from-metagenome-sequences-through-short-read-clustering/
https://jgi.doe.gov/publication/decrypting-bacterial-polyphenol-metabolism-in-an-anoxic-wetland-soil/
https://jgi.doe.gov/publication/deep-branching-acetogens-in-serpentinized-subsurface-fluids-of-oman-2/
https://jgi.doe.gov/publication/deep-ocean-metagenomes-provide-insight-into-the-metabolic-architecture-of-bathypelagic-microbial-communities/
https://jgi.doe.gov/publication/deep-sea-hydrothermal-vent-metagenome-assembled-genomes-provide-insight-into-the-phylum-nanoarchaeota/
https://jgi.doe.gov/publication/deeplasmid-deep-learning-accurately-separates-plasmids-from-bacterial-chromosomes-2/
https://jgi.doe.gov/publication/deeply-conserved-synteny-resolves-early-events-in-vertebrate-evolution/
https://jgi.doe.gov/publication/defensive-symbiosis-against-giant-viruses-in-amoebae-2/
https://jgi.doe.gov/publication/defining-the-boundaries-and-characterizing-the-landscape-of-functional-genome-expression-in-vascular-tissues-of-populus-using-shotgun-proteomics/
https://jgi.doe.gov/publication/defining-the-core-arabidopsis-thaliana-root-microbiome/
https://jgi.doe.gov/publication/defining-the-eco-enzymological-role-of-the-fungal-strain-coniochaeta-sp-2t2-1-in-a-tripartite-lignocellulolytic-microbial-consortium/
https://jgi.doe.gov/publication/defining-the-sphagnum-core-microbiome-across-the-north-american-continent-reveals-a-central-role-for-diazotrophic-methanotrophs-in-the-nitrogen-and-carbon-cycles-of-boreal-peatland-ecosystems-2/
https://jgi.doe.gov/publication/deforestation-impacts-network-co-occurrence-patterns-of-microbial-communities-in-amazon-soils/
https://jgi.doe.gov/publication/degradation-of-bunker-c-fuel-oil-by-white-rot-fungi-in-sawdust-cultures-suggests-potential-applications-in-bioremediation-11/
https://jgi.doe.gov/publication/degradation-reduces-microbial-richness-and-alters-microbial-functions-in-an-australian-peatland-2/
https://jgi.doe.gov/publication/deinococcus-geothermalis-the-pool-of-extreme-radiation-resistance-genes-shrinks/
https://jgi.doe.gov/publication/deletion-of-either-the-regulatory-gene-ara1-or-metabolic-gene-xki1-in-trichoderma-reesei-leads-to-increased-cazyme-gene-expression-on-crude-plant-biomass/
https://jgi.doe.gov/publication/deletion-of-the-hfsb-gene-increases-ethanol-production-in-thermoanaerobacterium-saccharolyticum-and-several-other-thermophilic-anaerobic-bacteria/
https://jgi.doe.gov/publication/deletion-of-ultraconserved-elements-yields-viable-mice/
https://jgi.doe.gov/publication/denoising-inferred-functional-association-networks-obtained-by-gene-fusion-analysis/
https://jgi.doe.gov/publication/depth-differentiation-and-seasonality-of-planktonic-microbial-assemblages-in-the-monterey-bay-upwelling-system/
https://jgi.doe.gov/publication/depth-discrete-metagenomics-reveals-the-roles-of-microbes-in-biogeochemical-cycling-in-the-tropical-freshwater-lake-tanganyika/
https://jgi.doe.gov/publication/depth-distributions-of-nitrite-reductase-nirk-gene-variants-reveal-spatial-dynamics-of-thaumarchaeal-ecotype-populations-in-coastal-monterey-bay/
https://jgi.doe.gov/publication/description-of-alicyclobacillus-montanus-sp-nov-a-mixotrophic-bacterium-isolated-from-acidic-hot-springs/
https://jgi.doe.gov/publication/description-of-candidatus-mesopelagibacter-carboxydoxydans-and-candidatus-anoxipelagibacter-denitrificans-nitrate-reducing-sar11-genera-that-dominate-mesopelagic-and-anoxic-marine-zones/
https://jgi.doe.gov/publication/description-of-trichococcus-ilyis-sp-nov-by-combined-physiological-and-in-silico-genome-hybridization-analyses-2/
https://jgi.doe.gov/publication/description-of-trichococcus-ilyis-sp-nov-by-combined-physiological-and-in-silico-genome-hybridization-analyses/
https://jgi.doe.gov/publication/desert-truffle-genomes-reveal-their-reproductive-modes-and-new-insights-into-plant-fungal-interaction-and-ectendomycorrhizal-lifestyle/
https://jgi.doe.gov/publication/detailed-analysis-of-the-d-galactose-catabolic-pathways-in-aspergillus-niger-reveals-complexity-at-both-metabolic-and-regulatory-level-2/
https://jgi.doe.gov/publication/detection-of-s83v-gyra-mutation-in-quinolone-resistant-shewanella-algae-using-comparative-genomics/
https://jgi.doe.gov/publication/detection-of-short-term-cropping-system-induced-changes-to-soil-bacterial-communities-differs-among-four-molecular-characterization-methods/
https://jgi.doe.gov/publication/developing-a-protocol-for-the-conversion-of-rank-based-taxon-names-to-phylogenetically-defined-clade-names-as-exemplified-by-turtles/
https://jgi.doe.gov/publication/development-and-assessment-of-snp-genotyping-arrays-for-citrus-and-its-close-relatives/
https://jgi.doe.gov/publication/development-and-characterization-of-a-thermophilic-lignin-degrading-microbiota/
https://jgi.doe.gov/publication/development-of-a-clostridia-based-cell-free-system-for-prototyping-genetic-parts-and-metabolic-pathways/
https://jgi.doe.gov/publication/development-of-a-freeze-dried-crispr-cas12-sensor-for-detecting-wolbachia-in-the-secondary-science-classroom-2/
https://jgi.doe.gov/publication/development-of-a-high-throughput-platform-for-screening-glycoside-hydrolases-based-on-oxime-nims/
https://jgi.doe.gov/publication/development-of-a-recombineering-system-for-the-acetogen-eubacterium-limosum-with-cas9-counterselection-for-markerless-genome-engineering-2/
https://jgi.doe.gov/publication/development-of-a-recombineering-system-for-the-acetogen-eubacterium-limosum-with-cas9-counterselection-for-markerless-genome-engineering-3/
https://jgi.doe.gov/publication/development-of-a-recombineering-system-for-the-acetogen-eubacterium-limosum-with-cas9-counterselection-for-markerless-genome-engineering/
https://jgi.doe.gov/publication/development-of-a-thermophilic-coculture-for-corn-fiber-conversion-to-ethanol/
https://jgi.doe.gov/publication/development-of-a-toolbox-to-dissect-host-endosymbiont-interactions-and-protein-trafficking-in-the-trypanosomatid-angomonas-deanei/
https://jgi.doe.gov/publication/development-of-an-integrated-transcript-sequence-database-and-a-gene-expression-atlas-for-gene-discovery-and-analysis-in-switchgrass-panicum-virgatum-l/
https://jgi.doe.gov/publication/development-of-an-orthogonal-fatty-acid-biosynthesis-system-in-e-coli-for-oleochemical-production-11/
https://jgi.doe.gov/publication/development-of-genetic-tools-for-heterologous-protein-expression-in-a-pentose%e2%80%90utilizing-environmental-isolate-of-pseudomonas-putida/
https://jgi.doe.gov/publication/development-of-pcr-based-markers-for-the-identification-and-detection-of-lophodermella-needle-cast-pathogens-on-pinus-contorta-var-latifolia-and-p-flexilis-2/
https://jgi.doe.gov/publication/development-of-platforms-for-functional-characterization-and-production-of-phenazines-using-a-multi-chassis-approach-via-crage-2/
https://jgi.doe.gov/publication/development-of-ratiometric-bioluminescent-sensors-for-in-vivo-detection-of-bacterial-signaling/
https://jgi.doe.gov/publication/development-of-simple-sequence-repeat-markers-for-the-soybean-rust-fungus-phakopsora-pachyrhizi/
https://jgi.doe.gov/publication/dicer-drosha-and-outcomes-in-patients-with-ovarian-cancer/
https://jgi.doe.gov/publication/dichomitus-squalens-partially-tailors-its-molecular-responses-to-the-composition-of-solid-wood-2/
https://jgi.doe.gov/publication/dichomitus-squalens-partially-tailors-its-molecular-responses-to-the-composition-of-solid-wood/
https://jgi.doe.gov/publication/differences-in-crop-bacterial-community-structure-between-hoatzins-from-different-geographical-locations/
https://jgi.doe.gov/publication/differences-in-sequencing-technologies-improve-the-retrieval-of-anammox-bacterial-genome-from-metagenomes/
https://jgi.doe.gov/publication/different-threats-same-response/
https://jgi.doe.gov/publication/differential-depth-distribution-of-microbial-function-and-putative-symbionts-through-sediment-hosted-aquifers-in-the-deep-terrestrial-subsurface/
https://jgi.doe.gov/publication/differential-domain-evolution-and-complex-rna-processing-in-a-family-of-paralogous-epb41-protein-4-1-genes-facilitate-expression-of-diverse-tissue-specific-isoforms/
https://jgi.doe.gov/publication/differential-effects-of-press-vs-pulse-seawater-intrusion-on-microbial-communities-of-a-tidal-freshwater-marsh/
https://jgi.doe.gov/publication/digital-transcriptomic-analysis-of-silicate-starvation-induced-triacylglycerol-formation-in-the-marine-diatom-thalassiosira-pseudonana/
https://jgi.doe.gov/publication/dinoflagellates-alter-their-carbon-and-nutrient-metabolic-strategies-across-environmental-gradients-in-the-central-pacific-ocean/
https://jgi.doe.gov/publication/diploid-dominant-life-cycles-characterize-the-early-evolution-of-fungi-2/
https://jgi.doe.gov/publication/diploid-genomic-architecture-of-nitzschia-inconspicua-an-elite-biomass-production-diatom/
https://jgi.doe.gov/publication/direct-comparisons-of-illumina-vs-roche-454-sequencing-technologies-on-the-same-microbial-community-dna-sample/
https://jgi.doe.gov/publication/direct-pathway-cloning-of-the-sodorifen-biosynthetic-gene-cluster-and-recombinant-generation-of-its-product-in-e-coli/
https://jgi.doe.gov/publication/directed-evolution-of-flavin-dependent-halogenases-for-site-and-atroposelective-halogenation-of-3%e2%80%91aryl-43h%e2%80%91quinazolinones-via-kinetic-or-dynamic-kinetic-resolution-2/
https://jgi.doe.gov/publication/directed-evolution-of-ionizing-radiation-resistance-in-escherichia-coli/
https://jgi.doe.gov/publication/discordant-population-structure-among-rhizobium-divided-genomes-and-their-legume-hosts-2/
https://jgi.doe.gov/publication/discovering-untapped-biochemistry-in-microorganisms-from-hidden-corners-2/
https://jgi.doe.gov/publication/discovery-and-annotation-of-small-proteins-using-genomics-proteomics-and-computational-approaches/
https://jgi.doe.gov/publication/discovery-and-ecogenomic-context-of-a-global-caldiserica-related-phylum-active-in-thawing-permafrost-candidatus-cryosericota-phylum-nov-ca-cryosericia-class-nov-ca-cryosericales-ord-nov-ca/
https://jgi.doe.gov/publication/discovery-biosynthesis-and-stress-related-accumulation-of-dolabradiene-derived-defenses-in-maize/
https://jgi.doe.gov/publication/discovery-design-and-structural-characterization-of-alkane-producing-enzymes-across-the-ferritin-like-superfamily/
https://jgi.doe.gov/publication/discovery-of-a-novel-filamentous-prophage-in-the-genome-of-the-mimosa-pudica-microsymbiont-cupriavidus-taiwanensis-stm-6018/
https://jgi.doe.gov/publication/discovery-of-enzymes-for-toluene-synthesis-from-anoxic-microbial-communities/
https://jgi.doe.gov/publication/discovery-of-novel-plant-interaction-determinants-from-the-genomes-of-163-root-nodule-bacteria/
https://jgi.doe.gov/publication/discovery-of-photosynthesis-genes-through-whole-genome-sequencing-of-acetaterequiring-mutants-of-chlamydomonas-reinhardtii/
https://jgi.doe.gov/publication/disentangling-the-effects-of-sulfate-and-other-seawater-ions-on-microbial-communities-and-greenhouse-gas-emissions-in-a-coastal-forested-wetland-2/
https://jgi.doe.gov/publication/disentangling-the-effects-of-sulfate-and-other-seawater-ions-on-microbial-communities-and-greenhouse-gas-emissions-in-a-coastal-forested-wetland/
https://jgi.doe.gov/publication/dissecting-biological-dark-matter-with-single-cell-genetic-analysis-of-rare-and-uncultivated-tm7-microbes-from-the-human-mouth/
https://jgi.doe.gov/publication/dissecting-the-dominant-hot-spring-microbial-populations-based-on-community-wide-sampling-at-single-cell-genomic-resolution-2/
https://jgi.doe.gov/publication/dissolved-inorganic-carbon-accumulating-complexes-from-autotrophic-bacteria-from-extreme-environments/
https://jgi.doe.gov/publication/distinct-and-rich-assemblages-of-giant-viruses-in-arctic-and-antarctic-lakes-2/
https://jgi.doe.gov/publication/distinct-and-rich-assemblages-of-giant-viruses-in-arctic-and-antarctic-lakes/
https://jgi.doe.gov/publication/distinct-function-of-chlamydomonas-ctra-ctr-transporters-in-cu-assimilation-and-intracellular-mobilization/
https://jgi.doe.gov/publication/distribution-and-abundance-of-tetraether-lipid-cyclization-genes-in-terrestrial-hot-springs-reflect-ph/
https://jgi.doe.gov/publication/distributions-of-fungal-melanin-across-species-and-soils/
https://jgi.doe.gov/publication/diterpene-synthase-catalyzed-biosynthesis-of-distinct-clerodane-stereoisomers/
https://jgi.doe.gov/publication/diurnal-cycling-of-rhizosphere-bacterial-communities-is-associated-with-shifts-in-carbon-metabolism-2/
https://jgi.doe.gov/publication/diurnal-cycling-of-rhizosphere-bacterial-communities-is-associated-with-shifts-in-carbon-metabolism/
https://jgi.doe.gov/publication/divergence-among-genes-encoding-the-elongation-factor-tu-of-yersinia-species-2/
https://jgi.doe.gov/publication/divergence-among-genes-encoding-the-elongation-factor-tu-of-yersinia-species/
https://jgi.doe.gov/publication/divergence-among-rice-cultivars-reveals-roles-for-transposition-and-epimutation-in-ongoing-evolution-of-genomic-imprinting/
https://jgi.doe.gov/publication/divergent-cytosine-dna-methylation-patterns-in-single-cell-soybean-root-hairs/
https://jgi.doe.gov/publication/divergent-evolution-of-early-terrestrial-fungi-reveals-the-evolution-of-mucormycosis-pathogenicity-factors/
https://jgi.doe.gov/publication/divergent-genomic-adaptations-in-the-microbiomes-of-arctic-subzero-sea-ice-and-cryopeg-brines/
https://jgi.doe.gov/publication/divergent-methyl-coenzyme-m-reductase-genes-in-a-deep-subseafloor-archaeoglobi/
https://jgi.doe.gov/publication/divergent-selection-and-climate-adaptation-fuel-genomic-differentiation-between-sister-species-of-sphagnum-peat-moss/
https://jgi.doe.gov/publication/diverse-and-unconventional-methanogens-methanotrophs-and-methylotrophs-in-metagenome-assembled-genomes-from-subsurface-sediments-of-the-slate-river-floodplain-crested-butte-co-usa-2/
https://jgi.doe.gov/publication/diverse-and-unconventional-methanogens-methanotrophs-and-methylotrophs-in-metagenome-assembled-genomes-from-subsurface-sediments-of-the-slate-river-floodplain-crested-butte-co-usa-3/
https://jgi.doe.gov/publication/diverse-and-unconventional-methanogens-methanotrophs-and-methylotrophs-in-metagenome-assembled-genomes-from-subsurface-sediments-of-the-slate-river-floodplain-crested-butte-co-usa/
https://jgi.doe.gov/publication/diverse-bacterial-groups-contribute-to-the-alkane-degradation-potential-of-chronically-polluted-subantarctic-coastal-sediments/
https://jgi.doe.gov/publication/diverse-ecophysiological-adaptations-of-subsurface-thaumarchaeota-in-floodplain-sediments-revealed-through-genome-resolved-metagenomics-2/
https://jgi.doe.gov/publication/diverse-events-have-transferred-genes-for-edible-seaweed-digestion-from-marine-to-human-gut-bacteria-2/
https://jgi.doe.gov/publication/diverse-fates-of-ancient-horizontal-gene-transfers-in-extremophilic-red-algae-2/
https://jgi.doe.gov/publication/diverse-fates-of-ancient-horizontal-gene-transfers-in-extremophilic-red-algae/
https://jgi.doe.gov/publication/diverse-lifestyles-and-strategies-of-plant-pathogenesis-encoded-in-the-genomes-of-eighteen-dothideomycetes-fungi/
https://jgi.doe.gov/publication/diverse-marinimicrobia-bacteria-may-mediate-coupled-biogeochemical-cycles-along-eco-thermodynamic-gradients/
https://jgi.doe.gov/publication/diverse-members-of-the-xylariales-lack-canonical-mating-type-regions/
https://jgi.doe.gov/publication/diverse-uncultivated-ultra-small-bacterial-cells-in-groundwater/
https://jgi.doe.gov/publication/diversification-of-mandarin-citrus-by-hybrid-speciation-and-apomixis/
https://jgi.doe.gov/publication/diversity-and-distribution-of-a-novel-genus-of-hyperthermophilic-aquificae-viruses-encoding-a-proof-reading-family-a-dna-polymerase/
https://jgi.doe.gov/publication/diversity-and-distribution-of-sulfur-oxidation-related-genes-in-thioalkalivibrio-a-genus-of-chemolithoautotrophic-and-haloalkaliphilic-sulfur-oxidizing-bacteria/
https://jgi.doe.gov/publication/diversity-and-evolution-of-nitric-oxide-reduction-in-bacteria-and-archaea-2/
https://jgi.doe.gov/publication/diversity-and-evolution-of-nitric-oxide-reduction-in-bacteria-and-archaea/
https://jgi.doe.gov/publication/diversity-and-evolution-of-secondary-metabolism-in-the-marine-actinomycete-genus-salinispora/
https://jgi.doe.gov/publication/diversity-and-function-of-methyl-coenzyme-m-reductase-encoding-archaea-in-yellowstone-hot-springs-revealed-by-metagenomics-and-mesocosm-experiments/
https://jgi.doe.gov/publication/diversity-and-genomic-insights-into-the-uncultured-chloroflexi-from-the-human-microbiota-2/
https://jgi.doe.gov/publication/diversity-and-heritability-of-the-maize-rhizosphere-microbiome-under-field-conditions/
https://jgi.doe.gov/publication/diversity-and-population-structure-of-marine-group-a-bacteria-in-the-northeast-subarctic-pacific-ocean/
https://jgi.doe.gov/publication/diversity-and-population-structure-of-northern-switchgrass-as-revealed-through-exome-capture-sequencing/
https://jgi.doe.gov/publication/diversity-distribution-and-expression-of-opsin-genes-in-freshwater-lakes/
https://jgi.doe.gov/publication/diversity-evolution-and-classification-of-virophages-uncovered-through-global-metagenomics/
https://jgi.doe.gov/publication/diversity-in-the-soil-virosphere-to-infinity-and-beyond-2/
https://jgi.doe.gov/publication/diversity-of-active-viral-infections-within-the-sphagnum-microbiome/
https://jgi.doe.gov/publication/diversity-of-cytosine-methylation-across-the-fungal-tree-of-life/
https://jgi.doe.gov/publication/diversity-of-genomic-adaptations-to-the-post%e2%80%90fire-environment-in-pezizales-fungi-points-to-crosstalk-between-charcoal-tolerance-and-sexual-development-2/
https://jgi.doe.gov/publication/diversity-taxonomy-and-evolution-of-archaeal-viruses-of-the-class-caudoviricetes-2/
https://jgi.doe.gov/publication/division-of-labor-in-honey-bee-gut-microbiota-for-plant-polysaccharide-digestion/
https://jgi.doe.gov/publication/dna-affinity-purification-sequencing-and-transcriptional-profiling-reveal-new-aspects-of-nitrogen-regulation-in-a-filamentous-fungus/
https://jgi.doe.gov/publication/dna-hypomethylation-of-the-host-tree-impairs-interaction-with-mutualistic-ectomycorrhizal-fungus/
https://jgi.doe.gov/publication/dna-methylation-and-gene-expression-regulation-associated-with-vascularization-in-sorghum-bicolor/
https://jgi.doe.gov/publication/dna-methylation-in-ensifer-species-during-free-living-growth-and-during-nitrogen-fixing-symbiosis-with-medicago-spp-2/
https://jgi.doe.gov/publication/dna-repair-enzymes-of-the-antarctic-dry-valley-metagenome/
https://jgi.doe.gov/publication/dna-sequence-analysis-of-an-inversion-hot-spot-in-lobeliaceae-plastomes-2/
https://jgi.doe.gov/publication/dna-sip-based-genome-centric-metagenomics-identifies-key-long-chain-fatty-acid-degrading-populations-anaerobic-digesters-different-feeding-frequencies/
https://jgi.doe.gov/publication/do-genetic-drift-and-gene-flow-affect-the-geographic-distribution-of-female-plants-in-gynodioecious-lobelia-siphilitica-2/
https://jgi.doe.gov/publication/doe-jgi-metagenome-workflow/
https://jgi.doe.gov/publication/domain-shuffling-and-the-evolution-of-vertebrates/
https://jgi.doe.gov/publication/dominant-nitrogen-metabolisms-of-a-warm-seasonally-anoxic-freshwater-ecosystem-revealed-using-genome-resolved-metatranscriptomics/
https://jgi.doe.gov/publication/draft-genome-and-description-of-consotaella-salsifontis-gen-nov-sp-nov-a-halophilic-free-living-nitrogen-fixing-alphaproteobacterium-isolated-from-an-ancient-terrestrial-saline-spring/
https://jgi.doe.gov/publication/draft-genome-assemblies-of-ionic-liquid-resistant-yarrowia-lipolytica-po1f-and-its-superior-evolved-strain-ylcw001/
https://jgi.doe.gov/publication/draft-genome-of-burkholderia-cenocepacia-tatl-371-a-strain-from-the-burkholderia-cepacia-complex-retains-antagonism-in-different-carbon-and-nitrogen-sources/
https://jgi.doe.gov/publication/draft-genome-of-five-cupriavidus-plantarum-strains-agave-maize-and-sorghum-plant-associated-bacteria-with-resistance-to-metals/
https://jgi.doe.gov/publication/draft-genome-of-janthinobacterium-sp-ra13-isolated-from-lake-washington-sediment/
https://jgi.doe.gov/publication/draft-genome-of-paraburkholderia-caballeronis-tne-841t-a-free-living-nitrogen-fixing-tomato-plant-associated-bacterium/
https://jgi.doe.gov/publication/draft-genome-of-pseudomonas-sp-strain-1112a-isolated-from-lake-washington-sediment/
https://jgi.doe.gov/publication/draft-genome-of-rosenbergiella-nectarea-strain-8n4t-provides-insights-into-the-potential-role-of-this-species-in-its-plant-host/
https://jgi.doe.gov/publication/draft-genome-sequence-and-description-of-janthinobacterium-sp-strain-cg3-a-psychrotolerant-antarctic-supraglacial-stream-bacterium/
https://jgi.doe.gov/publication/draft-genome-sequence-of-a-monokaryotic-model-brown-rot-fungus-postia-rhodonia-placenta-sb12/
https://jgi.doe.gov/publication/draft-genome-sequence-of-a-rare-smut-relative-tilletiaria-anomala-ubc-951/
https://jgi.doe.gov/publication/draft-genome-sequence-of-a-terrestrial-planctomycete-singulisphaera-sp-strain-gp187-isolated-from-forest-soil/
https://jgi.doe.gov/publication/draft-genome-sequence-of-actinotignum-schaalii-dsm-15541t-genetic-insights-into-the-lifestyle-cell-fitness-and-virulence/
https://jgi.doe.gov/publication/draft-genome-sequence-of-an-oscillatorian-cyanobacterium-strain-esfc-1/
https://jgi.doe.gov/publication/draft-genome-sequence-of-bordetella-sp-strain-fb-8-isolated-from-a-former-uranium-mining-area-in-germany/
https://jgi.doe.gov/publication/draft-genome-sequence-of-carbapenem-resistant-shewanella-algae-strain-ac-isolated-from-small-abalone-haliotis-diversicolor/
https://jgi.doe.gov/publication/draft-genome-sequence-of-chryseobacterium-limigenitum-sur2t-lmg-28734t-isolated-from-dehydrated-sludge-2/
https://jgi.doe.gov/publication/draft-genome-sequence-of-chryseobacterium-limigenitum-sur2t-lmg-28734t-isolated-from-dehydrated-sludge/
https://jgi.doe.gov/publication/draft-genome-sequence-of-dethiobacter-alkaliphilus-strain-aht1t-a-gram-positive-sulfidogenic-polyextremophile/
https://jgi.doe.gov/publication/draft-genome-sequence-of-dethiosulfovibrio-salsuginis-dsm-21565t-an-anaerobic-slightly-halophilic-bacterium-isolated-from-a-colombian-saline-spring/
https://jgi.doe.gov/publication/draft-genome-sequence-of-enterobacter-cloacae-strain-jd6301/
https://jgi.doe.gov/publication/draft-genome-sequence-of-frankia-sp-strain-bcu110501-a-nitrogen-fixing-actinobacterium-isolated-from-nodules-of-discaria-trinevis/
https://jgi.doe.gov/publication/draft-genome-sequence-of-frankia-sp-strain-bmg5-12-a-nitrogen-fixing-actinobacterium-isolated-from-tunisian-soils/
https://jgi.doe.gov/publication/draft-genome-sequence-of-frankia-sp-strain-cn3-an-atypical-noninfective-nod-ineffective-fix-isolate-from-coriaria-nepalensis/
https://jgi.doe.gov/publication/draft-genome-sequence-of-frankia-sp-strain-dc12-an-atypical-noninfective-ineffective-isolate-from-datisca-cannabina-11/
https://jgi.doe.gov/publication/draft-genome-sequence-of-frankia-sp-strain-qa3-a-nitrogen-fixing-actinobacterium-isolated-from-the-root-nodule-of-alnus-nitida/
https://jgi.doe.gov/publication/draft-genome-sequence-of-frankia-strain-g2-a-nitrogen-fixing-actinobacterium-isolated-from-casuarina-equisetifolia-and-able-to-nodulate-actinorhizal-plants-of-the-order-rhamnales/
https://jgi.doe.gov/publication/draft-genome-sequence-of-halomonas-lutea-strain-yim-91125t-dsm-23508t-isolated-from-the-alkaline-lake-ebinur-in-northwest-china/
https://jgi.doe.gov/publication/draft-genome-sequence-of-heavy-metal-resistant-cupriavidus-alkaliphilus-asc-732t-isolated-from-agave-rhizosphere-in-the-northeast-of-mexico/
https://jgi.doe.gov/publication/draft-genome-sequence-of-marine-alphaproteobacterial-strain-himb11-the-first-cultivated-representative-of-a-unique-lineage-within-the-roseobacter-clade-possessing-an-unusually-small-genome/
https://jgi.doe.gov/publication/draft-genome-sequence-of-marinobacterium-rhizophilum-cl-yj9t-dsm-18822t-isolated-from-the-rhizosphere-of-the-coastal-tidal-flat-plant-suaeda-japonica/
https://jgi.doe.gov/publication/draft-genome-sequence-of-methylocapsa-palsarum-ne2t-an-obligate-methanotroph-from-subarctic-soil-2/
https://jgi.doe.gov/publication/draft-genome-sequence-of-methylocapsa-palsarum-ne2t-an-obligate-methanotroph-from-subarctic-soil/
https://jgi.doe.gov/publication/draft-genome-sequence-of-methyloferula-stellata-ar4-an-obligate-methanotroph-possessing-only-a-soluble-methane-monooxygenase/
https://jgi.doe.gov/publication/draft-genome-sequence-of-microdochium-bolleyi-a-dark-septate-fungal-endophyte-of-beach-grass/
https://jgi.doe.gov/publication/draft-genome-sequence-of-mnii-oxidizing-bacterium-oxalobacteraceae-sp-strain-ab_14/
https://jgi.doe.gov/publication/draft-genome-sequence-of-monaibacterium-marinum-c7t-isolated-from-seawater-from-the-menai-straits-wales-united-kingdom/
https://jgi.doe.gov/publication/draft-genome-sequence-of-neurospora-crassa-strain-fgsc-73/
https://jgi.doe.gov/publication/draft-genome-sequence-of-nitrobacter-vulgaris-dsm-10236t-2/
https://jgi.doe.gov/publication/draft-genome-sequence-of-nitrobacter-vulgaris-dsm-10236t-3/
https://jgi.doe.gov/publication/draft-genome-sequence-of-nitrobacter-vulgaris-dsm-10236t/
https://jgi.doe.gov/publication/draft-genome-sequence-of-pseudomonas-azotifigens-strain-dsm-17556t-6h33bt-a-nitrogen-fixer-strain-isolated-from-a-compost-pile/
https://jgi.doe.gov/publication/draft-genome-sequence-of-pseudomonas-extremaustralis-strain-usba-gbx-515-isolated-from-superparamo-soil-samples-in-colombian-andes/
https://jgi.doe.gov/publication/draft-genome-sequence-of-raoultella-terrigena-r1gly-a-diazotrophic-endophyte-11/
https://jgi.doe.gov/publication/draft-genome-sequence-of-rhodococcus-rhodochrous-strain-atcc-17895/
https://jgi.doe.gov/publication/draft-genome-sequence-of-rubidibacter-lacunae-strain-kordi-51-2t-a-cyanobacterium-isolated-from-seawater-of-chuuk-lagoon/
https://jgi.doe.gov/publication/draft-genome-sequence-of-strain-himb100-a-cultured-representative-of-the-sar116-clade-of-marine-alphaproteobacteria/
https://jgi.doe.gov/publication/draft-genome-sequence-of-streptomyces-sp-strain-wigar10-isolated-from-a-surface-sterilized-garlic-bulb-2/
https://jgi.doe.gov/publication/draft-genome-sequence-of-streptomyces-sp-strain-wigar10-isolated-from-a-surface-sterilized-garlic-bulb/
https://jgi.doe.gov/publication/draft-genome-sequence-of-syntrophorhabdus-aromaticivorans-strain-ui-a-mesophilic-aromatic-compound-degrading-syntroph/
https://jgi.doe.gov/publication/draft-genome-sequence-of-the-basidiomycete-white-rot-fungus-phlebia-centrifuga/
https://jgi.doe.gov/publication/draft-genome-sequence-of-the-cellulolytic-and-xylanolytic-thermophile-clostridium-clariflavum-strain-4-2a-11/
https://jgi.doe.gov/publication/draft-genome-sequence-of-the-cellulolytic-endophyte-chitinophaga-costaii-a37t2t/
https://jgi.doe.gov/publication/draft-genome-sequence-of-the-ectomycorrhizal-ascomycete-sphaerosporella-brunnea/
https://jgi.doe.gov/publication/draft-genome-sequence-of-the-moderately-halophilic-methanotroph-methylohalobius-crimeensis-strain-10ki-11/
https://jgi.doe.gov/publication/draft-genome-sequence-of-the-thermoalkaliphilic-caldalkalibacillus-thermarum-strain-ta2-a1/
https://jgi.doe.gov/publication/draft-genome-sequence-of-the-tremellomycetes-yeast-papiliotrema-laurentii-5307ah-isolated-from-aircraft-2/
https://jgi.doe.gov/publication/draft-genome-sequence-of-the-tremellomycetes-yeast-papiliotrema-laurentii-5307ah-isolated-from-aircraft-3/
https://jgi.doe.gov/publication/draft-genome-sequence-of-the-tremellomycetes-yeast-papiliotrema-laurentii-5307ah-isolated-from-aircraft/
https://jgi.doe.gov/publication/draft-genome-sequence-of-the-white-rot-fungus-obba-rivulosa-3a-2/
https://jgi.doe.gov/publication/draft-genome-sequence-of-tuber-borchii-vittad-a-whitish-edible-truffle/
https://jgi.doe.gov/publication/draft-genome-sequence-of-yarrowia-lipolytica-nrrl-y-64008-an-oleaginous-yeast-capable-of-growing-on-lignocellulosic-hydrolysates-2/
https://jgi.doe.gov/publication/draft-genome-sequence-of-yarrowia-lipolytica-nrrl-y-64008-an-oleaginous-yeast-capable-of-growing-on-lignocellulosic-hydrolysates-3/
https://jgi.doe.gov/publication/draft-genome-sequence-of-yarrowia-lipolytica-nrrl-y-64008-an-oleaginous-yeast-capable-of-growing-on-lignocellulosic-hydrolysates/
https://jgi.doe.gov/publication/draft-genome-sequence-of-yokenella-regensburgei-strain-wcd67-isolated-from-the-boxelder-bug/
https://jgi.doe.gov/publication/draft-genome-sequences-of-10-strains-of-the-genus-exiguobacterium/
https://jgi.doe.gov/publication/draft-genome-sequences-of-arthrobacter-sp-azcc_0090-and-mycobacterium-sp-azcc_0083-isolated-from-oligotrophic-subsurface-forest-soil-in-the-santa-catalina-mountains-of-southern-arizona/
https://jgi.doe.gov/publication/draft-genome-sequences-of-bradyrhizobium-shewense-sp-nov-err11t-and-bradyrhizobium-yuanmingense-ccbau-10071t/
https://jgi.doe.gov/publication/draft-genome-sequences-of-butyrivibrio-hungatei-dsm-14810-jk-615t-and-butyrivibrio-fibrisolvens-dsm-3071-d1t-2/
https://jgi.doe.gov/publication/draft-genome-sequences-of-butyrivibrio-hungatei-dsm-14810-jk-615t-and-butyrivibrio-fibrisolvens-dsm-3071-d1t-3/
https://jgi.doe.gov/publication/draft-genome-sequences-of-butyrivibrio-hungatei-dsm-14810-jk-615t-and-butyrivibrio-fibrisolvens-dsm-3071-d1t/
https://jgi.doe.gov/publication/draft-genome-sequences-of-chlamydiales-bacterium-ste3-and-neochlamydia-sp-strain-acf84-endosymbionts-of-acanthamoeba-spp/
https://jgi.doe.gov/publication/draft-genome-sequences-of-five-new-strains-of-methylophilaceae-isolated-from-lake-washington-sediment/
https://jgi.doe.gov/publication/draft-genome-sequences-of-gammaproteobacterial-methanotrophs-isolated-from-lake-washington-sediment/
https://jgi.doe.gov/publication/draft-genome-sequences-of-gammaproteobacterial-methanotrophs-isolated-from-marine-ecosystems/
https://jgi.doe.gov/publication/draft-genome-sequences-of-strains-cbs6241-and-cbs6242-of-the-basidiomycetous-yeast-filobasidium-floriforme-2/
https://jgi.doe.gov/publication/draft-genome-sequences-of-switchgrass-diazotrophs/
https://jgi.doe.gov/publication/draft-genome-sequences-of-the-black-truffles-tuber-brumale-vittad-and-tuber-indicum-cook-massee/
https://jgi.doe.gov/publication/draft-genome-sequences-of-three-monokaryotic-isolates-of-the-white-rot-basidiomycete-fungus-dichomitus-squalens/
https://jgi.doe.gov/publication/draft-genome-sequences-of-three-strains-of-a-novel-rhizobiales-species-isolated-from-forest-soil/
https://jgi.doe.gov/publication/draft-genome-sequences-of-two-gammaproteobacterial-methanotrophs-isolated-from-rice-ecosystems/
https://jgi.doe.gov/publication/draft-genome-sequencing-and-assembly-of-favolaschia-claudopus-cirm-brfm-2984-isolated-from-oak-limbs/
https://jgi.doe.gov/publication/draft-genomes-of-gammaproteobacterial-methanotrophs-isolated-from-terrestrial-ecosystems-11/
https://jgi.doe.gov/publication/draft-genomes-of-two-strains-of-flavobacterium-isolated-from-lake-washington-sediment/
https://jgi.doe.gov/publication/draft-metagenome-sequences-of-the-sphagnum-peat-moss-microbiome-from-ambient-and-warmed-environments-across-europe-2/
https://jgi.doe.gov/publication/draft-metagenomes-of-endolithic-cyanobacteria-and-cohabitants-from-hyper-arid-deserts-2/
https://jgi.doe.gov/publication/draft-nuclear-genome-sequence-of-the-halophilic-and-beta-carotene-accumulating-green-alga-dunaliella-salina-strain-ccap19-18/
https://jgi.doe.gov/publication/draft-nuclear-genome-sequence-of-the-liquid-hydrocarbon-accumulating-green-microalga-botryococcus-braunii-race-b-showa-2/
https://jgi.doe.gov/publication/draft-nuclear-genome-sequence-of-the-liquid-hydrocarbon-accumulating-green-microalga-botryococcus-braunii-race-b-showa/
https://jgi.doe.gov/publication/driving-through-stop-signs-predicting-stop-codon-reassignment-improves-functional-annotation-of-bacteriophages-2/
https://jgi.doe.gov/publication/driving-through-stop-signs-predicting-stop-codon-reassignment-improves-functional-annotation-of-bacteriophages/
https://jgi.doe.gov/publication/droplet-microfluidics-for-synthetic-biology/
https://jgi.doe.gov/publication/drought-adaptation-in-arabidopsis-thaliana-by-extensive-genetic-loss-of-function/
https://jgi.doe.gov/publication/drought-re-routes-soil-microbial-carbon-metabolism-towards-emission-of-volatile-metabolites-in-an-artificial-tropical-rainforest/
https://jgi.doe.gov/publication/drought-responsive-gene-expression-regulatory-divergence-between-upland-and-lowland-ecotypes-of-a-perennial-c4-grass/
https://jgi.doe.gov/publication/drought-shifts-sorghum-root-metabolite-and-microbiome-profiles-and-enriches-for-pipecolic-acid/
https://jgi.doe.gov/publication/duplications-and-losses-of-genes-encoding-known-elements-of-the-stress-defence-system-of-the-aspergilli-contribute-to-the-evolution-of-these-filamentous-fungi-but-do-not-directly-influence-their-envir/
https://jgi.doe.gov/publication/dynamic-cyanobacterial-response-to-hydration-and-dehydration-in-a-desert-biological-soil-crust/
https://jgi.doe.gov/publication/dynamic-genome-evolution-in-a-model-fern-2/
https://jgi.doe.gov/publication/dynamic-nitrogen-fixation-in-an-aerobic-endophyte-of-populus-2/
https://jgi.doe.gov/publication/dynamic-nitrogen-fixation-in-an-aerobic-endophyte-of-populus/
https://jgi.doe.gov/publication/dynamic-root-exudate-chemistry-and-microbial-substrate-preferences-drive-patterns-in-rhizosphere-microbial-community-assembly-2/
https://jgi.doe.gov/publication/dynamic-root-exudate-chemistry-and-microbial-substrate-preferences-drive-patterns-in-rhizosphere-microbial-community-assembly/
https://jgi.doe.gov/publication/dynamics-and-activity-of-an-ammonia-oxidizing-archaea-bloom-in-south-san-francisco-bay-2/
https://jgi.doe.gov/publication/dynamics-and-activity-of-an-ammonia-oxidizing-archaea-bloom-in-south-san-francisco-bay-3/
https://jgi.doe.gov/publication/dynamics-and-activity-of-an-ammonia-oxidizing-archaea-bloom-in-south-san-francisco-bay/
https://jgi.doe.gov/publication/early-branching-gut-fungi-possess-a-large-comprehensive-array-of-biomass-degrading-enzymes/
https://jgi.doe.gov/publication/early-diverging-fungus-mucor-circinelloides-lacks-centromeric-histone-cenp-a-and-displays-a-mosaic-of-point-and-regional-centromeres/
https://jgi.doe.gov/publication/early-diverging-insect-pathogenic-fungi-of-the-order-entomophthorales-possess-diverse-and-unique-subtilisin-like-serine-proteases/
https://jgi.doe.gov/publication/early-flowering-3-and-photoperiod-sensing-in-brachypodium-distachyon-2/
https://jgi.doe.gov/publication/early-origins-and-evolution-of-micrornas-and-piwi-interacting-rnas-in-animals/
https://jgi.doe.gov/publication/earth-biogenome-project-sequencing-life-for-the-future-of-life/
https://jgi.doe.gov/publication/ecogenomics-of-groundwater-phages-suggests-niche-differentiation-linked-to-specific-environmental-tolerance/
https://jgi.doe.gov/publication/ecogenomics-of-virophages-and-their-giant-virus-hosts-assessed-through-time-series-metagenomics/
https://jgi.doe.gov/publication/ecogenomics-reveals-community-interactions-in-a-long-term-methanogenic-bioreactor-and-a-rapid-switch-to-sulfate-reducing-conditions/
https://jgi.doe.gov/publication/ecological-and-genomic-analyses-of-candidate-phylum-wps-2-bacteria-in-an-unvegetated-soil/
https://jgi.doe.gov/publication/ecological-and-genomic-responses-of-soil-microbiomes-to-high-severity-wildfire-linking-community-assembly-to-functional-potential-2/
https://jgi.doe.gov/publication/ecological-assembly-processes-are-coordinated-between-bacterial-and-viral-communities-in-fractured-shale-ecosystems/
https://jgi.doe.gov/publication/ecological-dichotomies-arise-in-microbial-communities-due-to-mixing-of-deep-hydrothermal-waters-and-atmospheric-gas-in-a-circumneutral-hot-spring-2/
https://jgi.doe.gov/publication/ecological-divergence-of-syntopic-marine-bacterial-species-is-shaped-by-gene-content-and-expression/
https://jgi.doe.gov/publication/ecological-generalism-drives-hyperdiversity-of-secondary-metabolite-gene-clusters-in-xylarialean-endophytes-2/
https://jgi.doe.gov/publication/ecological-genomics-of-marine-roseobacters/
https://jgi.doe.gov/publication/ecology-and-evolution-of-viruses-infecting-uncultivated-sup05-bacteria-as-revealed-by-single-cell-and-meta-genomics/
https://jgi.doe.gov/publication/ecology-and-molecular-targets-of-hypermutation-in-the-global-microbiome/
https://jgi.doe.gov/publication/ecology-of-inorganic-sulfur-auxiliary-metabolism-in-widespread-bacteriophages/
https://jgi.doe.gov/publication/ecophysiology-of-an-uncultivated-lineage-of-aigarchaeota-from-an-oxic-hot-spring-filamentous-streamer-community/
https://jgi.doe.gov/publication/ecophysiology-of-freshwater-verrucomicrobia-inferred-from-metagenome-assembled-genomes/
https://jgi.doe.gov/publication/ecosystem-fabrication-ecofab-protocols-for-the-construction-of-laboratory-ecosystems-designed-to-study-plant-microbe-interactions/
https://jgi.doe.gov/publication/ectomycorrhizal-ecology-is-imprinted-in-the-genome-of-the-dominant-symbiotic-fungus-cenococcum-geophilum/
https://jgi.doe.gov/publication/ectomycorrhizal-fungi-enhance-pine-growth-by-stimulating-iron%e2%80%90dependent-mechanisms-with-trade%e2%80%90offs-in-symbiotic-performance-2/
https://jgi.doe.gov/publication/ectomycorrhizal-fungi-enhance-pine-growth-by-stimulating-iron%e2%80%90dependent-mechanisms-with-trade%e2%80%90offs-in-symbiotic-performance-3/
https://jgi.doe.gov/publication/ectomycorrhizal-fungi-enhance-pine-growth-by-stimulating-iron%e2%80%90dependent-mechanisms-with-trade%e2%80%90offs-in-symbiotic-performance/
https://jgi.doe.gov/publication/editorial-cell-free-biocatalysis-for-the-production-of-bioproducts-2/
https://jgi.doe.gov/publication/editorial-overview-energy-biotechnology/
https://jgi.doe.gov/publication/efam-an-expanded-metaproteome-supported-hmm-profile-database-of-viral-protein-families/
https://jgi.doe.gov/publication/effect-of-oxygen-minimum-zone-formation-on-communities-of-marine-protists/
https://jgi.doe.gov/publication/effect-of-temperature-and-ph-on-microbial-communities-fermenting-a-dairy-coproduct-mixture-2/
https://jgi.doe.gov/publication/effect-of-temperature-and-ph-on-microbial-communities-fermenting-a-dairy-coproduct-mixture-3/
https://jgi.doe.gov/publication/effect-of-temperature-and-ph-on-microbial-communities-fermenting-a-dairy-coproduct-mixture/
https://jgi.doe.gov/publication/effects-of-sample-treatments-on-genome-recovery-via-single-cell-genomics/
https://jgi.doe.gov/publication/effects-of-timber-harvesting-on-the-genetic-potential-for-carbon-and-nitrogen-cycling-in-five-north-american-forest-ecozones/
https://jgi.doe.gov/publication/eight-genome-sequences-of-bacterial-environmental-isolates-from-canada-glacier-antarctica-2/
https://jgi.doe.gov/publication/eight-genome-sequences-of-bacterial-environmental-isolates-from-canada-glacier-antarctica-3/
https://jgi.doe.gov/publication/eight-genome-sequences-of-bacterial-environmental-isolates-from-canada-glacier-antarctica/
https://jgi.doe.gov/publication/elucidating-bacterial-gene-functions-in-the-plant-microbiome/
https://jgi.doe.gov/publication/elucidating-drought-tolerance-mechanisms-in-plant-roots-through-1h-nmr-metabolomics-in-parallel-with-maldi-ms-and-nanosims-imaging-techniques-2/
https://jgi.doe.gov/publication/elucidating-essential-role-of-conserved-carboxysomal-protein-ccmn-reveals-common-feature-of-bacterial-microcompartment-assembly/
https://jgi.doe.gov/publication/elucidating-gene-expression-adaptation-of-phylogenetically-divergent-coral-holobionts-under-heat-stress/
https://jgi.doe.gov/publication/elviz-exploration-of-metagenome-assemblies-with-an-interactive-visualization-tool-11/
https://jgi.doe.gov/publication/embrace-experimentation-in-biosecurity-governance/
https://jgi.doe.gov/publication/emendation-of-the-genus-blastobacter-zavarzin-1961-and-description-of-blastobacter-natatorius-sp-nov/
https://jgi.doe.gov/publication/empirical-comparison-of-visualization-tools-for-larger-scale-network-analysis/
https://jgi.doe.gov/publication/end-to-end-automated-microfluidic-platform-for-synthetic-biology-from-design-to-functional-analysis/
https://jgi.doe.gov/publication/endogenous-short-rnas-generated-by-dicer-2-and-rna-dependent-rna-polymerase-1-regulate-mrnas-in-the-basal-fungus-mucor-circinelloides/
https://jgi.doe.gov/publication/endosymbiosis-in-statu-nascendi-close-phylogenetic-relationship-between-obligately-endosymbiotic-and-obligately-free-living-polynucleobacter-strains-betaproteobacteria/
https://jgi.doe.gov/publication/endothelial-lipase-is-a-major-determinant-of-hdl-level/
https://jgi.doe.gov/publication/enemy-or-ally-a-genomic-approach-to-elucidate-the-lifestyle-of-phyllosticta-citrichinaensis-2/
https://jgi.doe.gov/publication/enemy-or-ally-a-genomic-approach-to-elucidate-the-lifestyle-of-phyllosticta-citrichinaensis-3/
https://jgi.doe.gov/publication/energy-efficiency-and-biological-interactions-define-the-core-microbiome-of-deep-oligotrophic-groundwater/
https://jgi.doe.gov/publication/engineered-biosynthesis-and-anticancer-studies-of-ring-expanded-antimycin-type-depsipeptides-2/
https://jgi.doe.gov/publication/engineered-biosynthesis-and-anticancer-studies-of-ring-expanded-antimycin-type-depsipeptides/
https://jgi.doe.gov/publication/engineered-root-bacteria-release-plant-available-phosphate-from-phytate/
https://jgi.doe.gov/publication/engineering-a-new-to-nature-cascade-for-phosphate-dependent-formate-to-formaldehyde-conversion-in-vitro-and-in-vivo/
https://jgi.doe.gov/publication/engineering-a-synthetic-escherichia-coli-coculture-for-compartmentalized-de-novo-biosynthesis-of-isobutyl-butyrate-from-mixed-sugars/
https://jgi.doe.gov/publication/engineering-escherichia-coli-for-biodiesel-production-utilizing-a-bacterial-fatty-acid-methyltransferase/
https://jgi.doe.gov/publication/engineering-of-holocellulase-in-biomass-degrading-fungi-for-sustainable-biofuel-production-2/
https://jgi.doe.gov/publication/engineering-promiscuity-of-chloramphenicol-acetyltransferase-for-microbial-designer-ester-biosynthesis/
https://jgi.doe.gov/publication/engineering-pseudomonas-putida-for-efficient-aromatic-conversion-to-bioproduct-using-high-throughput-screening-in-a-bioreactor/
https://jgi.doe.gov/publication/enhanced-degradation-of-softwood-versus-hardwood-by-the-white-rot-fungus-pycnoporus-coccineus-2/
https://jgi.doe.gov/publication/enhanced-degradation-of-softwood-versus-hardwood-by-the-white-rot-fungus-pycnoporus-coccineus/
https://jgi.doe.gov/publication/enhanced-ethanol-formation-by-clostridium-thermocellum-via-pyruvate-decarboxylase/
https://jgi.doe.gov/publication/enhanced-terrestrial-feii-mobilization-identified-through-a-novel-mechanism-of-microbially-driven-cave-formation-in-feiii-rich-rocks-2/
https://jgi.doe.gov/publication/enhancer-identification-through-comparative-genomics/
https://jgi.doe.gov/publication/enhancing-microrna167a-expression-in-seed-decreases-the-alpha-linolenic-acid-content-and-increases-seed-size-in-camelina-sativa/
https://jgi.doe.gov/publication/enhancing-terminal-deoxynucleotidyl-transferase-activity-on-substrates-with-3-terminal-structures-for-enzymatic-de-novo-dna-synthesis/
https://jgi.doe.gov/publication/enhancing-terpene-yield-from-sugars-via-novel-routes-to-1-deoxy-d-xylulose-5-phosphate-2/
https://jgi.doe.gov/publication/enigmatic-ultrasmall-uncultivated-archaea/
https://jgi.doe.gov/publication/enriching-public-descriptions-of-marine-phages-using-the-genomic-standards-consortium-migs-standard/
https://jgi.doe.gov/publication/entities-inside-one-another-a-matryoshka-doll-in-biology/
https://jgi.doe.gov/publication/environment-specific-virocell-metabolic-reprogramming/
https://jgi.doe.gov/publication/environmental-distribution-and-population-biology-of-candidatus-accumulibacter-a-primary-agent-of-biological-phosphorus-removal/
https://jgi.doe.gov/publication/environmental-genomics-reveals-a-single-species-ecosystem-deep-within-earth/
https://jgi.doe.gov/publication/environmental-predictors-of-electroactive-bacterioplankton-in-small-boreal-lakes-2/
https://jgi.doe.gov/publication/environmental-survey-for-four-pathogenic-bacteria-and-closely-related-species-using-phylogenetic-and-functional-genes/
https://jgi.doe.gov/publication/enzymatic-adaptation-of-podospora-anserina-to-different-plant-biomass-provides-leads-to-optimized-commercial-enzyme-cocktails-2/
https://jgi.doe.gov/publication/enzymatic-adaptation-of-podospora-anserina-to-different-plant-biomass-provides-leads-to-optimized-commercial-enzyme-cocktails/
https://jgi.doe.gov/publication/enzymclass-substrate-specificity-prediction-tool-of-plant-acyl-acp-thioesterases-based-on-ensemble-learning-2/
https://jgi.doe.gov/publication/enzyme-engineering-and-in-vivo-testing-of-a-formate-reduction-pathway-2/
https://jgi.doe.gov/publication/epicuticular-wax-accumulation-and-regulation-of-wax-pathway-gene-expression-during-bioenergy-sorghum-stem-development-2/
https://jgi.doe.gov/publication/epicuticular-wax-accumulation-and-regulation-of-wax-pathway-gene-expression-during-bioenergy-sorghum-stem-development-3/
https://jgi.doe.gov/publication/epicuticular-wax-accumulation-and-regulation-of-wax-pathway-gene-expression-during-bioenergy-sorghum-stem-development/
https://jgi.doe.gov/publication/erratum-to-complete-genome-sequence-of-pirellula-staleyi-type-strain-atcc-27377/
https://jgi.doe.gov/publication/escalation-in-the-host-pathogen-arms-race-a-host-resistance-response-corresponds-to-a-heightened-bacterial-virulence-response/
https://jgi.doe.gov/publication/establishing-a-versatile-toolkit-of-flux-enhanced-strains-and-cell-extracts-for-pathway-prototyping-2/
https://jgi.doe.gov/publication/establishing-a-versatile-toolkit-of-flux-enhanced-strains-and-cell-extracts-for-pathway-prototyping-3/
https://jgi.doe.gov/publication/establishing-a-versatile-toolkit-of-flux-enhanced-strains-and-cell-extracts-for-pathway-prototyping/
https://jgi.doe.gov/publication/establishing-potential-chloroplast-function-through-phylogenomics/
https://jgi.doe.gov/publication/estimating-dna-coverage-and-abundance-in-metagenomes-using-a-gamma-approximation-2/
https://jgi.doe.gov/publication/estimating-dna-coverage-and-abundance-in-metagenomes-using-a-gamma-approximation/
https://jgi.doe.gov/publication/ethanol-tolerance-in-engineered-strains-of-clostridium-thermocellum/
https://jgi.doe.gov/publication/eucalyptus-grandis-aux-indole-3-acetic-acid-13-egriaa13-is-a-novel-transcriptional-regulator-of-xylogenesis-2/
https://jgi.doe.gov/publication/evaluation-of-inducible-promoter-riboswitch-constructs-for-heterologous-protein-expression-in-the-cyanobacterial-species-anabaena-sp-pcc-7120-2/
https://jgi.doe.gov/publication/evidence-based-green-algal-genomics-reveals-marine-diversity-and-ancestral-characteristics-of-land-plants/
https://jgi.doe.gov/publication/evidence-for-h2-consumption-by-uncultured-desulfobacterales-in-coastal-sediments/
https://jgi.doe.gov/publication/evidence-for-lignocellulose-decomposing-enzymes-in-the-genome-and-transcriptome-of-the-aquatic-hyphomycete-clavariopsis-aquatica-2/
https://jgi.doe.gov/publication/evidence-for-the-widespread-distribution-of-crispr-cas-system-in-the-phylum-cyanobacteria/
https://jgi.doe.gov/publication/evidence-of-asexual-overwintering-of-melampsora-paradoxa-and-mapping-of-stem-rust-host-resistance-in-salix-2/
https://jgi.doe.gov/publication/evolution-and-comparative-genomics-of-the-most-common-trichoderma-species/
https://jgi.doe.gov/publication/evolution-and-expression-of-core-swi-snf-genes-in-red-algae/
https://jgi.doe.gov/publication/evolution-and-regulation-of-bigelowiella-natans-light-harvesting-antenna-system/
https://jgi.doe.gov/publication/evolution-of-a-multi-step-phosphorelay-signal-transduction-system-in-ensifer-recruitment-of-the-sigma-factor-rpon-and-a-novel-enhancer-binding-protein-triggers-acid-activated-gene-expression/
https://jgi.doe.gov/publication/evolution-of-an-expanded-sex-determining-locus-in-volvox/
https://jgi.doe.gov/publication/evolution-of-copper-arsenate-resistance-for-enhanced-enargite-bioleaching-using-the-extreme-thermoacidophile-metallosphaera-sedula/
https://jgi.doe.gov/publication/evolution-of-extreme-resistance-to-ionizing-radiation-via-genetic-adaptation-of-dna-repair/
https://jgi.doe.gov/publication/evolution-of-novel-wood-decay-mechanisms-in-agaricales-revealed-by-the-genome-sequences-of-fistulina-hepatica-and-cylindrobasidium-torrendii/
https://jgi.doe.gov/publication/evolution-of-substrate-specific-gene-expression-and-rna-editing-in-brown-rot-wood-decaying-fungi/
https://jgi.doe.gov/publication/evolution-of-zygomycete-secretomes-and-the-origins-of-terrestrial-fungal-ecologies-2/
https://jgi.doe.gov/publication/evolution-searching-for-new-branches-on-the-tree-of-life/
https://jgi.doe.gov/publication/evolutionary-analyses-of-gene-expression-divergence-in-panicum-hallii-exploring-constitutive-and-plastic-responses-using-reciprocal-transplants/
https://jgi.doe.gov/publication/evolutionary-conservation-of-regulatory-elements-in-vertebrate-hox-gene-clusters/
https://jgi.doe.gov/publication/evolutionary-constraint-facilitates-interpretation-of-genetic-variation-in-resequenced-human-genomes/
https://jgi.doe.gov/publication/evolutionary-distinctiveness-of-the-extinct-yunnan-box-turtle-cuora-yunnanensis-revealed-by-dna-from-an-old-museum-specimen/
https://jgi.doe.gov/publication/evolutionary-divergence-of-marinobacter-strains-in-cryopeg-brines-as-revealed-by-pangenomics-2/
https://jgi.doe.gov/publication/evolutionary-history-of-arbuscular-mycorrhizal-fungi-and-genomic-signatures-of-obligate-symbiosis-2/
https://jgi.doe.gov/publication/evolutionary-history-of-arbuscular-mycorrhizal-fungi-and-genomic-signatures-of-obligate-symbiosis/
https://jgi.doe.gov/publication/evolutionary-innovations-through-gain-and-loss-of-genes-in-the-ectomycorrhizal-boletales-2/
https://jgi.doe.gov/publication/evolutionary-instability-of-cug-leu-in-the-genetic-code-of-budding-yeasts/
https://jgi.doe.gov/publication/evolutionary-origin-and-functional-diversification-of-aminotransferases-2/
https://jgi.doe.gov/publication/evolutionary-relationships-of-wild-hominids-recapitulated-by-gut-microbial-communities/
https://jgi.doe.gov/publication/evolutionary-transition-to-the-ectomycorrhizal-habit-in-the-genomes-of-a-hyperdiverse-lineage-of-mushroom%e2%80%90forming-fungi-2/
https://jgi.doe.gov/publication/exabiome-advancing-microbial-science-through-exascale-computing-2/
https://jgi.doe.gov/publication/exabiome-advancing-microbial-science-through-exascale-computing/
https://jgi.doe.gov/publication/examining-the-cause-of-high-inbreeding-depression-analysis-of-whole-genome-sequence-data-in-28-selfed-progeny-of-eucalyptus-grandis-11/
https://jgi.doe.gov/publication/examining-the-relationship-between-the-testate-amoeba-hyalosphenia-papilio-arcellinida-amoebozoa-and-its-associated-intracellular-microalgae-using-molecular-and-microscopic-methods-2/
https://jgi.doe.gov/publication/excited-state-properties-of-the-16kda-red-carotenoid-protein-from-arthrospira-maxima/
https://jgi.doe.gov/publication/exometabolite-niche-partitioning-among-sympatric-soil-bacteria-21/
https://jgi.doe.gov/publication/exometabolomics-and-msi-deconstructing-how-cells-interact-to-transform-their-small-molecule-environment-11/
https://jgi.doe.gov/publication/expanded-diversity-of-microbial-groups-that-shape-the-dissimilatory-sulfur-cycle/
https://jgi.doe.gov/publication/expanding-genomics-of-mycorrhizal-symbiosis/
https://jgi.doe.gov/publication/expanding-standards-in-viromics-in-silico-evaluation-of-dsdna-viral-genome-identification-classification-and-auxiliary-metabolic-gene-curation/
https://jgi.doe.gov/publication/expanding-the-genomic-encyclopedia-of-actinobacteria-with-824-isolate-reference-genomes-2/
https://jgi.doe.gov/publication/expanding-the-limits-of-thermoacidophily-in-the-archaeon-sulfolobus-solfataricus-by-adaptive-evolution/
https://jgi.doe.gov/publication/expansion-of-ripp-biosynthetic-space-through-integration-of-pan-genomics-and-machine-learning-uncovers-a-novel-class-of-lantibiotics/
https://jgi.doe.gov/publication/expansion-of-signal-transduction-pathways-in-fungi-by-extensive-genome-duplication/
https://jgi.doe.gov/publication/expansion-of-thaumarchaeota-habitat-range-is-correlated-with-horizontal-transfer-of-atpase-operons/
https://jgi.doe.gov/publication/expansion-of-the-global-rna-virome-reveals-diverse-clades-of-bacteriophages-2/
https://jgi.doe.gov/publication/experimental-evolution-of-extreme-resistance-to-ionizing-radiation-in-escherichia-coli-after-50-cycles-of-selection/
https://jgi.doe.gov/publication/experimental-evolution-of-extremophile-resistance-to-ionizing-radiation/
https://jgi.doe.gov/publication/experimental-factors-affecting-pcr-based-estimates-of-microbial-species-richness-and-evenness-2/
https://jgi.doe.gov/publication/experimental-factors-affecting-pcr-based-estimates-of-microbial-species-richness-and-evenness/
https://jgi.doe.gov/publication/experimental-identification-of-small-non-coding-rnas-in-the-model-marine-bacterium-ruegeria-pomeroyi-dss-3/
https://jgi.doe.gov/publication/experimentally-validated-correlation-analysis-reveals-new-anaerobic-methane-oxidation-partnerships-with-consortium-level-heterogeneity-in-diazotrophy/
https://jgi.doe.gov/publication/experimentally-validated-reconstruction-and-analysis-of-a-genome-scale-metabolic-model-of-an-anaerobic-neocallimastigomycota-fungus/
https://jgi.doe.gov/publication/exploiting-human-fish-genome-comparisons-for-deciphering-gene-regulation/
https://jgi.doe.gov/publication/exploiting-members-of-the-bahd-acyltransferase-family-to-synthesize-multiple-hydroxycinnamate-and-benzoate-conjugates-in-yeast/
https://jgi.doe.gov/publication/exploiting-proteomic-data-for-genome-annotation-and-gene-model-validation-in-aspergillus-niger/
https://jgi.doe.gov/publication/exploring-microbial-functional-biodiversity-at-the-protein-family-level-from-metagenomic-sequence-reads-to-annotated-protein-clusters/
https://jgi.doe.gov/publication/exploring-novel-alkane-degradation-pathways-in-uncultured-bacteria-from-the-north-atlantic-ocean/
https://jgi.doe.gov/publication/exploring-proteomes-of-robust-yarrowia-lipolytica-isolates-cultivated-in-biomass-hydrolysate-reveals-key-processes-impacting-mixed-sugar-utilization-lipid-accumulation-and-degradation/
https://jgi.doe.gov/publication/exploring-symbioses-by-single-cell-genomics/
https://jgi.doe.gov/publication/exploring-the-limit-of-metazoan-thermal-tolerance-via-comparative-proteomics-thermally-induced-changes-in-protein-abundance-by-two-hydrothermal-vent-polychaetes/
https://jgi.doe.gov/publication/exploring-the-loblolly-pine-pinus-taeda-l-genome-by-bac-sequencing-and-cot-analysis/
https://jgi.doe.gov/publication/exploring-the-roles-of-dna-methylation-in-the-metal-reducing-bacterium-shewanella-oneidensis-mr-1/
https://jgi.doe.gov/publication/exploring-the-roles-of-microbes-in-facilitating-plant-adaptation-to-climate-change-2/
https://jgi.doe.gov/publication/exploring-the-symbiotic-pangenome-of-the-nitrogen-fixing-bacterium-sinorhizobium-meliloti/
https://jgi.doe.gov/publication/export-of-nitrogenous-compounds-due-to-incomplete-cycling-within-biological-soil-crusts-of-arid-lands/
https://jgi.doe.gov/publication/expressing-the-thermoanaerobacterium-saccharolyticum-pfora-in-engineered-clostridium-thermocellum-improves-ethanol-production/
https://jgi.doe.gov/publication/expression-and-characterization-of-monofunctional-alcohol-dehydrogenase-enzymes-in-clostridium-thermocellum-2/
https://jgi.doe.gov/publication/expression-and-characterization-of-monofunctional-alcohol-dehydrogenase-enzymes-in-clostridium-thermocellum/
https://jgi.doe.gov/publication/expression-and-characterization-of-spore-coat-coth-kinases-from-the-cellulosomes-of-anaerobic-fungi-neocallimastigomycetes/
https://jgi.doe.gov/publication/expression-and-regulatory-asymmetry-of-retained-arabidopsis-thaliana-transcription-factor-genes-derived-from-whole-genome-duplication/
https://jgi.doe.gov/publication/expression-of-a-mammalian-rna-demethylase-increases-flower-number-and-floral-stem-branching-in-arabidopsis-thaliana-2/
https://jgi.doe.gov/publication/expression-of-a-mammalian-rna-demethylase-increases-flower-number-and-floral-stem-branching-in-arabidopsis-thaliana-3/
https://jgi.doe.gov/publication/expression-of-a-mammalian-rna-demethylase-increases-flower-number-and-floral-stem-branching-in-arabidopsis-thaliana/
https://jgi.doe.gov/publication/expression-of-aspergillus-niger-cazymes-is-determined-by-compositional-changes-in-wheat-straw-generated-by-hydrothermal-or-ionic-liquid-pretreatments/
https://jgi.doe.gov/publication/expression-of-dehydroshikimate-dehydratase-in-poplar-induces-transcriptional-and-metabolic-changes-in-the-phenylpropanoid-pathway-2/
https://jgi.doe.gov/publication/expression-of-dehydroshikimate-dehydratase-in-poplar-induces-transcriptional-and-metabolic-changes-in-the-phenylpropanoid-pathway/
https://jgi.doe.gov/publication/expression-of-macromolecular-organic-nitrogen-degrading-enzymes-identifies-potential-mediators-of-soil-organic-n-availability-to-an-annual-grass/
https://jgi.doe.gov/publication/expression-of-phosphofructokinase-is-not-sufficient-to-enable-embden-meyerhof-parnas-glycolysis-in-zymomonas-mobilis-zm4/
https://jgi.doe.gov/publication/expression-quantitative-trait-loci-mapping-identified-ptrxb38-as-a-key-hub-gene-in-adventitious-root-development-in-populus/
https://jgi.doe.gov/publication/extending-the-bacillus-cereus-group-genomics-to-putative-food-borne-pathogens-of-different-toxicity/
https://jgi.doe.gov/publication/extensions-of-blup-models-for-genomic-prediction-in-heterogeneous-populations-application-in-a-diverse-switchgrass-sample/
https://jgi.doe.gov/publication/extensive-epigenetic-reprogramming-during-the-life-cycle-of-marchantia-polymorpha/
https://jgi.doe.gov/publication/extensive-gene-content-variation-in-the-brachypodium-distachyon-pan-genome-correlates-with-population-structure-2/
https://jgi.doe.gov/publication/extensive-gene-content-variation-in-the-brachypodium-distachyon-pan-genome-correlates-with-population-structure/
https://jgi.doe.gov/publication/extensive-genetic-diversity-is-present-within-north-american-switchgrass-germplasm/
https://jgi.doe.gov/publication/extensive-genome-wide-phylogenetic-discordance-is-due-to-incomplete-lineage-sorting-and-not-ongoing-introgression-in-a-rapidly-radiated-bryophyte-genus/
https://jgi.doe.gov/publication/extensive-rearrangements-in-the-chloroplast-genome-of-trachelium-caeruleum-are-associated-with-repeats-and-trna-genes/
https://jgi.doe.gov/publication/extensive-remodeling-of-a-cyanobacterial-photosynthetic-apparatus-in-far-red-light/
https://jgi.doe.gov/publication/extensive-reorganization-of-the-plastid-genome-of-trifolium-subterraneum-fabaceae-is-associated-with-numerous-repeated-sequences-and-novel-dna-insertions/
https://jgi.doe.gov/publication/extensive-sampling-of-basidiomycete-genomes-demonstrates-inadequacy-of-the-white-rotbrown-rot-paradigm-for-wood-decay-fungi/
https://jgi.doe.gov/publication/extensive-variation-in-nuclear-mitochondrial-dna-content-between-the-genomes-of-phytophthora-sojae-and-phytophthora-ramorum/
https://jgi.doe.gov/publication/extent-and-origins-of-functional-diversity-in-a-subfamily-of-glycoside-hydrolases/
https://jgi.doe.gov/publication/extracellular-electron-transfer-may-be-an-overlooked-contribution-to-pelagic-respiration-in-humic-rich-freshwater-lakes/
https://jgi.doe.gov/publication/extracting-protein-protein-interactions-ppis-from-biomedical-literature-using-attention-based-relational-context-information/
https://jgi.doe.gov/publication/extraordinary-phylogenetic-diversity-and-metabolic-versatility-in-aquifer-sediment/
https://jgi.doe.gov/publication/extraordinary-preservation-of-gene-collinearity-over-three-hundred-million-years-revealed-in-homosporous-lycophytes/
https://jgi.doe.gov/publication/extreme-dimensions-how-big-or-small-can-tailed-phages-be/
https://jgi.doe.gov/publication/extreme-overall-mushroom-genome-expansion-in-mycena-s-s-irrespective-of-plant-hosts-or-substrate-specializations-2/
https://jgi.doe.gov/publication/extreme-overall-mushroom-genome-expansion-in-mycena-s-s-irrespective-of-plant-hosts-or-substrate-specializations/
https://jgi.doe.gov/publication/extreme-scale-many-against-many-protein-similarity-search/
https://jgi.doe.gov/publication/extremely-thermostable-esterases-from-the-thermoacidophilic-euryarchaeon-picrophilus-torridus/
https://jgi.doe.gov/publication/facile-recoding-of-selenocysteine-in-nature/
https://jgi.doe.gov/publication/facile-recovery-of-individual-high-molecular-weight-low-copy-number-natural-plasmids-for-genomic-sequencing/
https://jgi.doe.gov/publication/fast-and-accurate-identification-of-plasmids-and-viruses-in-sequencing-data-using-genomad/
https://jgi.doe.gov/publication/faunimonas-pinastri-gen-nov-sp-nov-an-endophyte-from-a-pine-tree-of-the-family-pleomorphomonadaceae-class-alphaproteobacteria-2/
https://jgi.doe.gov/publication/feathermoss-and-epiphytic-nostoc-cooperate-differently-expanding-the-spectrum-of-plant-cyanobacteria-symbiosis/
https://jgi.doe.gov/publication/feature-selection-and-causal-analysis-for-microbiome-studies-in-the-presence-of-confounding-using-standardization/
https://jgi.doe.gov/publication/feed-your-friends-do-plant-exudates-shape-the-root-microbiome/
https://jgi.doe.gov/publication/few-shot-learning-enables-population-scale-analysis-of-leaf-traits-in-populus-trichocarpa/
https://jgi.doe.gov/publication/fifteen-years-of-microbial-genomics-meeting-the-challenges-and-fulfilling-the-dream/
https://jgi.doe.gov/publication/finding-new-cell-wall-regulatory-genes-in-populus-trichocarpa-using-multiple-lines-of-evidence/
https://jgi.doe.gov/publication/fine-mapping-of-the-bsr1-barley-stripe-mosaic-virus-resistance-gene-in-the-model-grass-brachypodium-distachyon/
https://jgi.doe.gov/publication/fine-scale-evaluation-of-two-standard-16s-rrna-gene-amplicon-primer-pairs-for-analysis-of-total-prokaryotes-and-archaeal-nitrifiers-in-differently-managed-soils/
https://jgi.doe.gov/publication/fine-scale-variation-in-meiotic-recombination-in-mimulus-inferred-from-population-shotgun-sequencing/
https://jgi.doe.gov/publication/finished-genome-of-the-fungal-wheat-pathogen-mycosphaerella-graminicola-reveals-dispensome-structure-chromosome-plasticity-and-stealth-pathogenesis/
https://jgi.doe.gov/publication/finished-genome-of-zymomonas-mobilis-subsp-mobilis-strain-cp4-an-applied-ethanol-producer/
https://jgi.doe.gov/publication/finishersc-a-repeat-aware-tool-for-upgrading-de-novo-assembly-using-long-reads-11/
https://jgi.doe.gov/publication/finishing-the-euchromatic-sequence-of-the-human-genome/
https://jgi.doe.gov/publication/fixation-free-fluorescence-in-situ-hybridization-for-targeted-enrichment-of-microbial-populations/
https://jgi.doe.gov/publication/flavin-dependent-halogenases-catalyze-enantioselective-olefin-halocyclization/
https://jgi.doe.gov/publication/flexizyme-enabled-benchtop-biosynthesis-of-thiopeptides/
https://jgi.doe.gov/publication/flooding-and-ecological-restoration-promote-wetland-microbial-communities-and-soil-functions-on-former-cranberry-farmland-2/
https://jgi.doe.gov/publication/flow-cytometric-monitoring-of-bacterioplankton-phenotypic-diversity-predicts-high-population-specific-feeding-rates-by-invasive-dreissenid-mussels/
https://jgi.doe.gov/publication/flowering-locus-t-duplication-coordinates-reproductive-and-vegetative-growth-in-perennial-poplar/
https://jgi.doe.gov/publication/fluorometric-analysis-of-carrier-protein-dependent-biosynthesis-through-a-conformationally-sensitive-solvatochromic-pantetheinamide-probe-2/
https://jgi.doe.gov/publication/fluorometric-analysis-of-carrier-protein-dependent-biosynthesis-through-a-conformationally-sensitive-solvatochromic-pantetheinamide-probe/
https://jgi.doe.gov/publication/flux-analysis-of-central-metabolic-pathways-in-geobacter-metallireducens-during-reduction-of-soluble-feiii-nitrilotriacetic-acid/
https://jgi.doe.gov/publication/foam-functional-ontology-assignments-for-metagenomes-a-hidden-markov-model-hmm-database-with-environmental-focus/
https://jgi.doe.gov/publication/focus-synergistetes/
https://jgi.doe.gov/publication/force-measurements-of-a-magnetic-micro-actuator-proposed-for-a-microvalve-array/
https://jgi.doe.gov/publication/foreword-to-the-special-issue-on-the-fifth-genomic-standards-consortium-workshop/
https://jgi.doe.gov/publication/four-amino-acids-define-the-co2-binding-pocket-of-enoyl-coa-carboxylases-reductases/
https://jgi.doe.gov/publication/four-chromosome-scale-genomes-and-a-pan-genome-annotation-to-accelerate-pecan-tree-breeding/
https://jgi.doe.gov/publication/four-draft-single-cell-genome-sequences-of-novel-nearly-identical-kiritimatiellaeota-strains-isolated-from-the-continental-deep-subsurface/
https://jgi.doe.gov/publication/four-principles-to-establish-a-universal-virus-taxonomy/
https://jgi.doe.gov/publication/frameshift-detection-in-prokaryotic-genomic-sequences/
https://jgi.doe.gov/publication/freshwater-carbon-and-nutrient-cycles-revealed-through-reconstructed-population-genomes/
https://jgi.doe.gov/publication/frigoriflavimonas-asaccharolytica-gen-nov-sp-nov-a-novel-psychrophilic-esterase-and-protease-producing-bacterium-isolated-from-antarctica/
https://jgi.doe.gov/publication/frontiers-opportunities-and-challenges-in-biochemical-and-chemical-catalysis-of-co-fixation-2/
https://jgi.doe.gov/publication/fueling-future-fungal-genomics/
https://jgi.doe.gov/publication/full-genome-of-phialocephala-scopiformis-daomc-229536-a-fungal-endophyte-of-spruce-producing-the-potent-anti-insectan-compound-rugulosin/
https://jgi.doe.gov/publication/function-driven-single-cell-genomics-uncovers-cellulose-degrading-bacteria-from-the-rare-biosphere/
https://jgi.doe.gov/publication/function-driven-single-cell-genomics/
https://jgi.doe.gov/publication/functional-analysis-of-salix-purpurea-genes-support-roles-for-arr17-and-gata15-as-master-regulators-of-sex-determination-2/
https://jgi.doe.gov/publication/functional-analysis-of-salix-purpurea-genes-support-roles-for-arr17-and-gata15-as-master-regulators-of-sex-determination-3/
https://jgi.doe.gov/publication/functional-analysis-of-salix-purpurea-genes-support-roles-for-arr17-and-gata15-as-master-regulators-of-sex-determination/
https://jgi.doe.gov/publication/functional-and-genetic-markers-of-niche-partitioning-among-enigmatic-members-of-the-human-oral-microbiome/
https://jgi.doe.gov/publication/functional-and-genomic-diversity-of-methylotrophic-rhodocyclaceae-description-of-the-new-species-methyloversatilis-discipulorum-sp-nov-11/
https://jgi.doe.gov/publication/functional-annotation-of-fibrobacter-succinogenes-s85-carbohydrate-active-enzymes-vol-163-pg-649-2011/
https://jgi.doe.gov/publication/functional-annotation-of-fibrobacter-succinogenes-s85-carbohydrate-active-enzymes/
https://jgi.doe.gov/publication/functional-annotation-of-mouse-mutations-in-embryonic-stem-cells-by-use-of-expression-profiling/
https://jgi.doe.gov/publication/functional-autonomy-of-distant-acting-human-enhancers/
https://jgi.doe.gov/publication/functional-characteristics-of-an-endophyte-community-colonizing-rice-roots-as-revealed-by-metagenomic-analysis-2/
https://jgi.doe.gov/publication/functional-characteristics-of-an-endophyte-community-colonizing-rice-roots-as-revealed-by-metagenomic-analysis/
https://jgi.doe.gov/publication/functional-characterization-of-two-class-ii-diterpene-synthases-indicates-additional-specialized-diterpenoid-pathways-in-maize-zea-mays/
https://jgi.doe.gov/publication/functional-diversity-of-diterpene-synthases-in-the-biofuel-crop-switchgrass/
https://jgi.doe.gov/publication/functional-gene-losses-occur-with-minimal-size-reduction-in-the-plastid-genome-of-the-parasitic-liverwort-aneura-mirabilis/
https://jgi.doe.gov/publication/functional-genomic-screening-in-komagataella-phaffii-enabled-by-high-activity-crispr-cas9-library-2/
https://jgi.doe.gov/publication/functional-genomic-screening-in-komagataella-phaffii-enabled-by-high-activity-crispr-cas9-library-3/
https://jgi.doe.gov/publication/functional-genomic-screening-in-komagataella-phaffii-enabled-by-high-activity-crispr-cas9-library/
https://jgi.doe.gov/publication/functional-genomics-gives-new-insights-into-the-ectomycorrhizal-degradation-of-chitin/
https://jgi.doe.gov/publication/functional-genomics-of-lipid-metabolism-in-the-oleaginous-yeast-rhodosporidium-toruloides/
https://jgi.doe.gov/publication/functional-genomics-of-novel-secondary-metabolites-from-diverse-cyanobacteria-using-untargeted-metabolomics-2/
https://jgi.doe.gov/publication/functional-insights-of-salinity-stress-related-pathways-in-metagenome-resolved-methanothrix-genomes-2/
https://jgi.doe.gov/publication/functional-investigation-of-five-r2r3-myb-transcription-factors-associated-with-wood-development-in-eucalyptus-using-dap-seq-ml/
https://jgi.doe.gov/publication/functional-metagenomics-of-spacecraft-assembly-cleanrooms-presence-of-virulence-factors-associated-with-human-pathogens/
https://jgi.doe.gov/publication/functional-plasticity-of-hco3-uptake-and-co2-fixation-in-cupriavidus-necator-h16-2/
https://jgi.doe.gov/publication/functional-plasticity-of-hco3-uptake-and-co2-fixation-in-cupriavidus-necator-h16-3/
https://jgi.doe.gov/publication/functional-plasticity-of-hco3-uptake-and-co2-fixation-in-cupriavidus-necator-h16/
https://jgi.doe.gov/publication/functional-signatures-of-the-epiphytic-prokaryotic-microbiome-of-agaves-and-cacti/
https://jgi.doe.gov/publication/functionally-conserved-enhancers-with-divergent-sequences-in-distant-vertebrates/
https://jgi.doe.gov/publication/fungal-and-plant-gene-expression-in-the-tulasnella-calospora-serapias-vomeracea-symbiosis-provides-clues-about-nitrogen-pathways-in-orchid-mycorrhizas/
https://jgi.doe.gov/publication/fungal-community-assembly-in-drought-stressed-sorghum-shows-stochasticity-selection-and-universal-ecological-dynamics/
https://jgi.doe.gov/publication/fungal-community-response-to-long-term-soil-warming-with-potential-implications-for-soil-carbon-dynamics/
https://jgi.doe.gov/publication/fungal-diversity-and-function-in-metagenomes-sequenced-from-extreme-environments-2/
https://jgi.doe.gov/publication/fungal-diversity-and-function-in-metagenomes-sequenced-from-extreme-environments-3/
https://jgi.doe.gov/publication/fungal-diversity-and-function-in-metagenomes-sequenced-from-extreme-environments/
https://jgi.doe.gov/publication/fungal-ecological-strategies-reflected-in-gene-transcription-a-case-study-of-two-litter-decomposers/
https://jgi.doe.gov/publication/fungal-endophytes-of-populus-trichocarpa-alter-host-phenotype-gene-expression-and-rhizobiome-composition/
https://jgi.doe.gov/publication/fungal-genomes-mining-to-discover-novel-sterol-esterases-and-lipases-as-catalysts/
https://jgi.doe.gov/publication/fungal-specific-transcription-factor-abpf2-activates-pathogenicity-in-alternaria-brassicicola/
https://jgi.doe.gov/publication/fungap-fungal-genome-annotation-pipeline-using-evidence-based-gene-model-evaluation/
https://jgi.doe.gov/publication/fungi-contribute-critical-but-spatially-varying-roles-in-nitrogen-and-carbon-cycling-in-acid-mine-drainage/
https://jgi.doe.gov/publication/further-engineering-of-r-toruloides-for-the-production-of-terpenes-from-lignocellulosic-biomass/
https://jgi.doe.gov/publication/fuzzy-gis-based-multi-criteria-evaluation-for-us-agave-production-as-a-bioenergy-feedstock/
https://jgi.doe.gov/publication/gal08-an-uncultivated-group-of-acidobacteria-is-a-dominant-bacterial-clade-in-a-neutral-hot-spring-2/
https://jgi.doe.gov/publication/gallionella-and-sulfuricella-populations-are-dominant-during-the-transition-of-boreal-potential-to-actual-acid-sulfate-soils-2/
https://jgi.doe.gov/publication/gallionellaceae-in-rice-root-plaque-metabolic-roles-in-iron-oxidation-nutrient-cycling-and-plant-interactions/
https://jgi.doe.gov/publication/galr-galx-and-arar-co%e2%80%90regulate-d%e2%80%90galactose-and-l%e2%80%90arabinose-utilization-in-aspergillus-nidulans-2/
https://jgi.doe.gov/publication/gamete-expression-of-tale-class-hd-genes-activates-the-diploid-sporophyte-program-in-marchantia-polymorpha-2/
https://jgi.doe.gov/publication/gata4-expression-in-lateral-mesoderm-is-downstream-of-bmp4-and-is-activated-directly-by-forkhead-and-gata-transcription-factors-through-a-distal-enhancer-element/
https://jgi.doe.gov/publication/gene-and-transcript-abundances-of-bacterial-type-iii-secretion-systems-from-the-rumen-microbiome-are-correlated-with-methane-yield-in-sheep/
https://jgi.doe.gov/publication/gene-coexpression-connectivity-predicts-gene-targets-underlying-high-ionic-liquid-tolerance-in-yarrowia-lipolytica-2/
https://jgi.doe.gov/publication/gene-context-analysis-in-the-integrated-microbial-genomes-img-data-management-system-2/
https://jgi.doe.gov/publication/gene-family-expansions-and-transcriptome-signatures-uncover-fungal-adaptations-to-wood-decay/
https://jgi.doe.gov/publication/gene-regulatory-networks-for-lignin-biosynthesis-in-switchgrass-panicum-virgatum/
https://jgi.doe.gov/publication/gene-rich-uv-sex-chromosomes-harbor-conserved-regulators-of-sexual-development/
https://jgi.doe.gov/publication/geneprimp-a-gene-prediction-improvement-pipeline-for-prokaryotic-genomes/
https://jgi.doe.gov/publication/generation-of-transcript-assemblies-and-identification-of-single-nucleotide-polymorphisms-from-seven-lowland-and-upland-cultivars-of-switchgrass/
https://jgi.doe.gov/publication/genes-and-genome%e2%80%90resolved-metagenomics-reveal-the-microbial-functional-make-up-of-amazon-peatlands-under-geochemical-gradients/
https://jgi.doe.gov/publication/genes-without-frontiers/
https://jgi.doe.gov/publication/genesis-and-expansion-of-metazoan-transcription-factor-gene-classes/
https://jgi.doe.gov/publication/genespace-tracks-regions-of-interest-and-gene-copy-number-variation-across-multiple-genomes-2/
https://jgi.doe.gov/publication/genetic-analysis-of-physcomitrella-patens-identifies-abscisic-acid-non-responsive-anr-a-regulator-of-aba-responses-unique-to-basal-land-plants-and-required-for-desiccation-tolerance/
https://jgi.doe.gov/publication/genetic-and-functional-diversity-help-explain-pathogenic-weakly-pathogenic-and-commensal-lifestyles-in-the-genus-xanthomonas-2/
https://jgi.doe.gov/publication/genetic-and-functional-diversity-help-explain-pathogenic-weakly-pathogenic-and-commensal-lifestyles-in-the-genus-xanthomonas/
https://jgi.doe.gov/publication/genetic-and-structural-diversity-of-prokaryotic-ice-binding-proteins-from-the-central-arctic-ocean/
https://jgi.doe.gov/publication/genetic-architecture-of-flowering-time-variation-in-brachypodium-distachyon/
https://jgi.doe.gov/publication/genetic-associations-in-four-decades-of-multienvironment-trials-reveal-agronomic-trait-evolution-in-common-bean/
https://jgi.doe.gov/publication/genetic-bases-of-fungal-white-rot-wood-decay-predicted-by-phylogenomic-analysis-of-correlated-gene-phenotype-evolution/
https://jgi.doe.gov/publication/genetic-determinants-of-endophytism-in-the-arabidopsis-root-mycobiome-2/
https://jgi.doe.gov/publication/genetic-determinants-of-switchgrass-root-associated-microbiota-in-field-sites-spanning-its-natural-range/
https://jgi.doe.gov/publication/genetic-dissection-of-interspecific-differences-in-yeast-thermotolerance/
https://jgi.doe.gov/publication/genetic-dissection-of-natural-variation-in-oilseed-traits-of-camelina-by-whole-genome-resequencing-and-qtl-mapping/
https://jgi.doe.gov/publication/genetic-elucidation-of-interconnected-antibiotic-pathways-mediating-maize-innate-immunity/
https://jgi.doe.gov/publication/genetic-isolation-between-two-recently-diverged-populations-of-a-symbiotic-fungus/
https://jgi.doe.gov/publication/genetic-mapping-and-prediction-of-flowering-time-and-plant-height-in-a-maize-stiff-stalk-magic-population-2/
https://jgi.doe.gov/publication/genetic-markers-in-blue-crabs-callinectes-sapidus-ii-complete-mitochondrial-genome-sequence-and-characterization-of-genetic-variation/
https://jgi.doe.gov/publication/genetic-variation-in-pnpla3-confers-susceptibility-to-nonalcoholic-fatty-liver-disease/
https://jgi.doe.gov/publication/genetic-variation-responsible-for-mouse-strain-differences-in-integrin-alpha2-expression-is-associated-with-altered-platelet-responses-to-collagen/
https://jgi.doe.gov/publication/genetics-of-mating-in-members-of-the-chaetomiaceae-as-revealed-by-experimental-and-genomic-characterization-of-reproduction-in-myceliophthora-heterothallica/
https://jgi.doe.gov/publication/genome%e2%80%90wide-crispr%e2%80%90cas9-screen-reveals-a-persistent-null%e2%80%90hyphal-phenotype-that-maintains-high-carotenoid-production-in-yarrowia-lipolytica-2/
https://jgi.doe.gov/publication/genome-analyses-of-the-carboxydotrophic-sulfate-reducers-desulfotomaculum-nigrificans-and-desulfotomaculum-carboxydivorans-and-reclassification-of-desulfotomaculum-caboxydivorans-as-a-later-synonym-of/
https://jgi.doe.gov/publication/genome-analyses-reveal-population-structure-and-a-purple-stigma-color-gene-candidate-in-finger-millet/
https://jgi.doe.gov/publication/genome-analysis-and-description-of-tunturibacter-gen-nov-expands-the-diversity-of-terriglobia-in-tundra-soils-2/
https://jgi.doe.gov/publication/genome-analysis-and-description-of-tunturibacter-gen-nov-expands-the-diversity-of-terriglobia-in-tundra-soils-3/
https://jgi.doe.gov/publication/genome-analysis-and-description-of-tunturibacter-gen-nov-expands-the-diversity-of-terriglobia-in-tundra-soils/
https://jgi.doe.gov/publication/genome-analysis-of-a-verrucomicrobial-endosymbiont-with-a-tiny-genome-discovered-in-an-antarctic-lake/
https://jgi.doe.gov/publication/genome-analysis-of-candidatus-ancillula-trichonymphae-first-representative-of-a-deep-branching-clade-of-bifidobacteriales-strengthens-evidence-for-convergent-evolution-in-flagellate-endosymbionts/
https://jgi.doe.gov/publication/genome-analysis-of-desulfotomaculum-gibsoniae-strain-grollt-a-highly-versatile-gram-positive-sulfate-reducing-bacterium/
https://jgi.doe.gov/publication/genome-analysis-of-desulfotomaculum-kuznetsovii-strain-17t-reveals-a-physiological-similarity-with-pelotomaculum-thermopropionicum-strain-sit/
https://jgi.doe.gov/publication/genome-analysis-of-planctomycetes-inhabiting-blades-of-the-red-alga-porphyra-umbilicalis/
https://jgi.doe.gov/publication/genome-analysis-of-the-marine-bacterium-kiloniella-laminariae-and-first-insights-into-comparative-genomics-with-related-kiloniella-species/
https://jgi.doe.gov/publication/genome-and-proteome-analyses-show-the-gaseous-alkane-degrader-desulfosarcina-sp-strain-bus5-as-an-extreme-metabolic-specialist-2/
https://jgi.doe.gov/publication/genome-and-transcriptome-of-clostridium-phytofermentans-catalyst-for-the-direct-conversion-of-plant-feedstocks-to-fuels-11/
https://jgi.doe.gov/publication/genome-based-analysis-of-virulence-determinants-of-a-serratia-marcescens-strain-from-soft-tissues-following-a-snake-bite/
https://jgi.doe.gov/publication/genome-based-classification-of-micromonosporae-with-a-focus-on-their-biotechnological-and-ecological-potential/
https://jgi.doe.gov/publication/genome-based-evolutionary-history-of-pseudomonas-spp/
https://jgi.doe.gov/publication/genome-based-taxonomic-classification-of-bacteroidetes/
https://jgi.doe.gov/publication/genome-based-taxonomic-classification-of-the-phylum-actinobacteria/
https://jgi.doe.gov/publication/genome-biology-of-the-paleotetraploid-perennial-biomass-crop-miscanthus/
https://jgi.doe.gov/publication/genome-calligrapher-a-web-tool-for-refactoring-bacterial-genome-sequences-for-de-novo-dna-synthesis-11/
https://jgi.doe.gov/publication/genome-centric-view-of-carbon-processing-in-thawing-permafrost/
https://jgi.doe.gov/publication/genome-characteristics-of-facultatively-symbiotic-frankia-sp-strains-reflect-host-range-and-host-plant-biogeography/
https://jgi.doe.gov/publication/genome-data-provides-high-support-for-generic-boundaries-in-burkholderia-sensu-lato/
https://jgi.doe.gov/publication/genome-divergence-in-two-prochlorococcus-ecotypes-reflects-oceanic-niche-differentiation/
https://jgi.doe.gov/publication/genome-diversity-in-brachypodium-distachyon-deep-sequencing-of-highly-diverse-inbred-lines/
https://jgi.doe.gov/publication/genome-dynamics-in-a-natural-archaeal-population/
https://jgi.doe.gov/publication/genome-erosion-in-a-nitrogen-fixing-vertically-transmitted-endosymbiotic-multicellular-cyanobacterium/
https://jgi.doe.gov/publication/genome-evolution-and-transcriptome-plasticity-is-associated-with-adaptation-to-monocot-and-dicot-plants-in-colletotrichum-fungi-2/
https://jgi.doe.gov/publication/genome-evolution-and-transcriptome-plasticity-is-associated-with-adaptation-to-monocot-and-dicot-plants-in-colletotrichum-fungi/
https://jgi.doe.gov/publication/genome-evolution-in-the-allotetraploid-frog-xenopus-laevis/
https://jgi.doe.gov/publication/genome-expansion-and-lineage-specific-genetic-innovations-in-the-forest-pathogenic-fungi-armillaria/
https://jgi.doe.gov/publication/genome-expansion-by-allopolyploidization-in-the-fungal-strain-coniochaeta-2t2-1-and-its-exceptional-lignocellulolytic-machinery/
https://jgi.doe.gov/publication/genome-gazing-in-ammonia-oxidizing-archaea/
https://jgi.doe.gov/publication/genome-guided-analysis-allows-the-identification-of-novel-physiological-traits-in-trichococcus-species/
https://jgi.doe.gov/publication/genome-informed-bradyrhizobium-taxonomy-where-to-from-here/
https://jgi.doe.gov/publication/genome-interplay-in-the-grain-transcriptome-of-hexaploid-bread-wheat/
https://jgi.doe.gov/publication/genome-mapping-of-quantitative-trait-loci-qtl-controlling-domestication-traits-of-intermediate-wheatgrass-thinopyrum-intermedium/
https://jgi.doe.gov/publication/genome-of-an-arbuscular-mycorrhizal-fungus-provides-insight-into-the-oldest-plant-symbiosis/
https://jgi.doe.gov/publication/genome-of-methanoregula-boonei-6a8-reveals-adaptations-to-oligotrophic-peatland-environments-11/
https://jgi.doe.gov/publication/genome-of-methylobacillus-flagellatus-molecular-basis-for-obligate-methylotrophy-and-polyphyletic-origin-of-methylotrophy/
https://jgi.doe.gov/publication/genome-of-ochrobactrum-anthropi-atcc-49188t-a-versatile-opportunistic-pathogen-and-symbiont-of-several-eukaryotic-hosts/
https://jgi.doe.gov/publication/genome-of-paspalum-vaginatum-and-the-role-of-trehalose-mediated-autophagy-in-increasing-maize-biomass-2/
https://jgi.doe.gov/publication/genome-of-the-cyanobacterium-microcoleus-vaginatus-fgp-2-a-photosynthetic-ecosystem-engineer-of-arid-land-soil-biocrusts-worldwide/
https://jgi.doe.gov/publication/genome-of-the-epsilonproteobacterial-chemolithoautotroph-sulfurimonas-denitrificans/
https://jgi.doe.gov/publication/genome-of-the-root-associated-plant-growth-promoting-bacterium-variovorax-paradoxus-strain-eps/
https://jgi.doe.gov/publication/genome-organization-and-botanical-diversity-2/
https://jgi.doe.gov/publication/genome-organization-and-botanical-diversity/
https://jgi.doe.gov/publication/genome-organization-of-the-vg1-and-nodal3-gene-clusters-in-the-allotetraploid-frog-xenopus-laevis/
https://jgi.doe.gov/publication/genome-reconstruction-for-eukaryotes-from-complex-natural-microbial-communities/
https://jgi.doe.gov/publication/genome-resequencing-reveals-multiscale-geographic-structure-and-extensive-linkage-disequilibrium-in-the-forest-tree-populus-trichocarpa/
https://jgi.doe.gov/publication/genome-resolved-correlation-mapping-links-microbial-community-structure-to-metabolic-interactions-driving-methane-production-from-wastewater/
https://jgi.doe.gov/publication/genome-resolved-meta-omics-ties-microbial-dynamics-to-process-performance-in-biotechnology-for-thiocyanate-degradation/
https://jgi.doe.gov/publication/genome-resolved-metagenomic-insights-into-massive-seasonal-ammonia-oxidizing-archaea-blooms-in-san-francisco-bay-2/
https://jgi.doe.gov/publication/genome-resolved-metaproteomics-decodes-the-microbial-and-viral-contributions-to-coupled-carbon-and-nitrogen-cycling-in-river-sediments-2/
https://jgi.doe.gov/publication/genome-resources-for-three-modern-cotton-lines-guide-future-breeding-efforts-2/
https://jgi.doe.gov/publication/genome-resources-for-three-modern-cotton-lines-guide-future-breeding-efforts/
https://jgi.doe.gov/publication/genome-scale-data-call-for-a-taxonomic-rearrangement-of-geodermatophilaceae-2/
https://jgi.doe.gov/publication/genome-scale-data-call-for-a-taxonomic-rearrangement-of-geodermatophilaceae/
https://jgi.doe.gov/publication/genome-scale-metabolic-rewiring-improves-titers-rates-and-yields-of-the-non-native-product-indigoidine-at-scale/
https://jgi.doe.gov/publication/genome-scale-model-development-and-genomic-sequencing-of-the-oleaginous-clade-lipomyces-2/
https://jgi.doe.gov/publication/genome-scale-model-development-and-genomic-sequencing-of-the-oleaginous-clade-lipomyces/
https://jgi.doe.gov/publication/genome-scale-phylogenetic-analyses-confirm-olpidium-as-the-closest-living-zoosporic-fungus-to-the-non-flagellated-terrestrial-fungi/
https://jgi.doe.gov/publication/genome-scale-phylogenetics-reveals-a-monophyletic-zoopagales-zoopagomycota-fungi/
https://jgi.doe.gov/publication/genome-scale-phylogeny-and-comparative-genomics-of-the-fungal-order-sordariales-2/
https://jgi.doe.gov/publication/genome-scale-phylogeny-and-comparative-genomics-of-the-fungal-order-sordariales-3/
https://jgi.doe.gov/publication/genome-scale-phylogeny-and-comparative-genomics-of-the-fungal-order-sordariales/
https://jgi.doe.gov/publication/genome-sequence-and-analysis-of-the-flavinogenic-yeast-candida-membranifaciens-ist-626-2/
https://jgi.doe.gov/publication/genome-sequence-and-analysis-of-the-soil-cellulolytic-actinomycete-thermobifida-fusca-yx/
https://jgi.doe.gov/publication/genome-sequence-and-description-of-the-anaerobic-lignin-degrading-bacterium-tolumonas-lignolytica-sp-nov/
https://jgi.doe.gov/publication/genome-sequence-and-description-of-the-heavy-metal-tolerant-bacterium-lysinibacillus-sphaericus-strain-ot4b-31/
https://jgi.doe.gov/publication/genome-sequence-and-emended-description-of-leisingera-nanhaiensis-strain-dsm-24252t-isolated-from-marine-sediment/
https://jgi.doe.gov/publication/genome-sequence-of-a-white-rot-fungus-schizopora-paradoxa-kuc8140-for-wood-decay-and-mycoremediation-11/
https://jgi.doe.gov/publication/genome-sequence-of-amycolatopsis-sp-strain-atcc-39116-a-plant-biomass-degrading-actinomycete/
https://jgi.doe.gov/publication/genome-sequence-of-arenibacter-algicola-strain-tg409-a-hydrocarbon-degrading-bacterium-associated-with-marine-eukaryotic-phytoplankton/
https://jgi.doe.gov/publication/genome-sequence-of-bradyrhizobium-sp-wsm1253-a-microsymbiont-of-ornithopus-compressus-from-the-greek-island-of-sifnos/
https://jgi.doe.gov/publication/genome-sequence-of-burkholderia-mimosarum-strain-lmg-23256t-a-mimosa-pigra-microsymbiont-from-anso-taiwan/
https://jgi.doe.gov/publication/genome-sequence-of-candidatus-frankia-datiscae-dg1-the-uncultured-microsymbiont-from-nitrogen-fixing-root-nodules-of-the-dicot-datisca-glomerata-2/
https://jgi.doe.gov/publication/genome-sequence-of-candidatus-frankia-datiscae-dg1-the-uncultured-microsymbiont-from-nitrogen-fixing-root-nodules-of-the-dicot-datisca-glomerata/
https://jgi.doe.gov/publication/genome-sequence-of-chthoniobacter-flavus-ellin428-an-aerobic-heterotrophic-soil-bacterium/
https://jgi.doe.gov/publication/genome-sequence-of-ensifer-arboris-strain-lmg-14919t-a-microsymbiont-of-the-legume-prosopis-chilensis-growing-in-kosti-sudan/
https://jgi.doe.gov/publication/genome-sequence-of-ensifer-medicae-di28-an-effective-n2-fixing-microsymbiont-of-medicago-murex-and-m-polymorpha/
https://jgi.doe.gov/publication/genome-sequence-of-ensifer-medicae-strain-wsm1115-an-acid-tolerant-medicago-nodulating-microsymbiont-from-samothraki-greece/
https://jgi.doe.gov/publication/genome-sequence-of-ensifer-medicae-strain-wsm1369-an-effective-microsymbiont-of-the-annual-legume-medicago-sphaerocarpos/
https://jgi.doe.gov/publication/genome-sequence-of-ensifer-meliloti-strain-wsm1022-a-highly-effective-microsymbiont-of-the-model-legume-medicago-truncatula-a17/
https://jgi.doe.gov/publication/genome-sequence-of-ensifer-sp-tw10-a-tephrosia-wallichii-biyani-microsymbiont-native-to-the-indian-thar-desert/
https://jgi.doe.gov/publication/genome-sequence-of-frateuria-aurantia-type-strain-kondo-67t-a-xanthomonade-isolated-from-lilium-auratium-lindl-3/
https://jgi.doe.gov/publication/genome-sequence-of-halomonas-sp-strain-mctg39a-a-hydrocarbon-degrading-and-exopolymeric-substance-producing-bacterium-11/
https://jgi.doe.gov/publication/genome-sequence-of-hybrid-vibrio-cholerae-o1-mj-1236-b-33-and-cirs101-and-comparative-genomics-with-v-cholerae/
https://jgi.doe.gov/publication/genome-sequence-of-kosmotoga-olearia-strain-tbf-19-5-1-a-thermophilic-bacterium-with-a-wide-growth-temperature-range-isolated-from-the-troll-b-oil-platform-in-the-north-sea-2/
https://jgi.doe.gov/publication/genome-sequence-of-kosmotoga-olearia-strain-tbf-19-5-1-a-thermophilic-bacterium-with-a-wide-growth-temperature-range-isolated-from-the-troll-b-oil-platform-in-the-north-sea/
https://jgi.doe.gov/publication/genome-sequence-of-marinobacter-sp-strain-mctg268-isolated-from-the-cosmopolitan-marine-diatom-skeletonema-costatum/
https://jgi.doe.gov/publication/genome-sequence-of-methanosarcina-soligelidi-sma-21-isolated-from-siberian-permafrost-affected-soil-11/
https://jgi.doe.gov/publication/genome-sequence-of-microvirga-lupini-strain-lut6t-a-novel-lupinus-alphaproteobacterial-microsymbiont-from-texas/
https://jgi.doe.gov/publication/genome-sequence-of-nitrosomonas-sp-strain-al212-an-ammonia-oxidizing-bacterium-sensitive-to-high-levels-of-ammonia/
https://jgi.doe.gov/publication/genome-sequence-of-oceanicola-sp-strain-mctg1561a-isolated-from-a-scottish-coastal-phytoplankton-net-sample/
https://jgi.doe.gov/publication/genome-sequence-of-pedosphaera-parvula-ellin514-an-aerobic-verrucomicrobial-isolate-from-pasture-soil/
https://jgi.doe.gov/publication/genome-sequence-of-phaeobacter-caeruleus-type-strain-dsm-24564-t-a-surface-associated-member-of-the-marine-roseobacter-clade/
https://jgi.doe.gov/publication/genome-sequence-of-phaeobacter-daeponensis-type-strain-dsm-23529t-a-facultatively-anaerobic-bacterium-isolated-from-marine-sediment-and-emendation-of-phaeobacter-daeponensis-3/
https://jgi.doe.gov/publication/genome-sequence-of-phaeobacter-inhibens-type-strain-t5t-a-secondary-metabolite-producing-representative-of-the-marine-roseobacter-clade-and-emendation-of-the-species-description-of-phaeobacter-i/
https://jgi.doe.gov/publication/genome-sequence-of-polycyclovorans-algicola-strain-tg408-an-obligate-polycyclic-aromatic-hydrocarbon-degrading-bacterium-associated-with-marine-eukaryotic-phytoplankton/
https://jgi.doe.gov/publication/genome-sequence-of-porticoccus-hydrocarbonoclasticus-strain-mctg13d-an-obligate-polycyclic-aromatic-hydrocarbon-degrading-bacterium-associated-with-marine-eukaryotic-phytoplankton-11/
https://jgi.doe.gov/publication/genome-sequence-of-rhizobium-leguminosarum-bv-trifolii-strain-wsm1689-the-microsymbiont-of-the-one-flowered-clover-trifolium-uniflorum/
https://jgi.doe.gov/publication/genome-sequence-of-roseovarius-sp-strain-mctg1562b-isolated-from-a-phytoplankton-net-trawl-on-the-scottish-west-coast/
https://jgi.doe.gov/publication/genome-sequence-of-shimia-str-sk013-a-representative-of-the-roseobacter-group-isolated-from-marine-sediment/
https://jgi.doe.gov/publication/genome-sequence-of-streptomyces-griseus-strain-xylebkg-1-an-ambrosia-beetle-associated-actinomycete/
https://jgi.doe.gov/publication/genome-sequence-of-streptomyces-viridosporus-strain-t7a-atcc-39115-a-lignin-degrading-actinomycete/
https://jgi.doe.gov/publication/genome-sequence-of-the-14-dioxane-degrading-pseudonocardia-dioxanivorans-strain-cb1190/
https://jgi.doe.gov/publication/genome-sequence-of-the-acid-tolerant-burkholderia-sp-strain-wsm2230-from-karijini-national-park-australia/
https://jgi.doe.gov/publication/genome-sequence-of-the-acid-tolerant-burkholderia-sp-strain-wsm2232-from-karijini-national-park-australia/
https://jgi.doe.gov/publication/genome-sequence-of-the-alkaline-tolerant-cellulomonas-sp-strain-fa1-11/
https://jgi.doe.gov/publication/genome-sequence-of-the-anaerobic-thermophilic-and-cellulolytic-bacterium-anaerocellum-thermophilum-dsm-6725/
https://jgi.doe.gov/publication/genome-sequence-of-the-antarctic-rhodopsins-containing-flavobacterium-gillisia-limnaea-type-strain-r-8282t/
https://jgi.doe.gov/publication/genome-sequence-of-the-arctic-methanotroph-methylobacter-tundripaludum-sv96-2/
https://jgi.doe.gov/publication/genome-sequence-of-the-arctic-methanotroph-methylobacter-tundripaludum-sv96/
https://jgi.doe.gov/publication/genome-sequence-of-the-brown-norway-rat-yields-insights-into-mammalian-evolution/
https://jgi.doe.gov/publication/genome-sequence-of-the-button-mushroom-agaricus-bisporus-reveals-mechanisms-governing-adaptation-to-a-humic-rich-ecological-niche/
https://jgi.doe.gov/publication/genome-sequence-of-the-cellulolytic-gliding-bacterium-cytophaga-hutchinsonii/
https://jgi.doe.gov/publication/genome-sequence-of-the-chemoheterotrophic-soil-bacterium-saccharomonospora-cyanea-type-strain-na-134t/
https://jgi.doe.gov/publication/genome-sequence-of-the-chemolithoautotrophic-nitrite-oxidizing-bacterium-nitrobacter-winogradskyi-nb-255/
https://jgi.doe.gov/publication/genome-sequence-of-the-chestnut-blight-fungus-cryphonectria-parasitica-ep155-a-fundamental-resource-for-an-archetypical-invasive-plant-pathogen/
https://jgi.doe.gov/publication/genome-sequence-of-the-clover-nodulating-rhizobium-leguminosarum-bv-trifolii-strain-srdi565/
https://jgi.doe.gov/publication/genome-sequence-of-the-clover-nodulating-rhizobium-leguminosarum-bv-trifolii-strain-srdi943/
https://jgi.doe.gov/publication/genome-sequence-of-the-clover-nodulating-rhizobium-leguminosarum-bv-trifolii-strain-ta1/
https://jgi.doe.gov/publication/genome-sequence-of-the-dark-pink-pigmented-listia-bainesii-microsymbiont-methylobacterium-sp-wsm2598/
https://jgi.doe.gov/publication/genome-sequence-of-the-dioxin-mineralizing-bacterium-sphingomonas-wittichii-rw1/
https://jgi.doe.gov/publication/genome-sequence-of-the-ethanol-producing-zymomonas-mobilis-subsp-mobilis-lectotype-strain-atcc-10988/
https://jgi.doe.gov/publication/genome-sequence-of-the-ethanol-producing-zymomonas-mobilis-subsp-pomaceae-lectotype-strain-atcc-29192/
https://jgi.doe.gov/publication/genome-sequence-of-the-ethene-and-vinyl-chloride-oxidizing-actinomycete-nocardioides-sp-strain-js614/
https://jgi.doe.gov/publication/genome-sequence-of-the-exopolysaccharide-producing-salipiger-mucosus-type-strain-dsm-16094t-a-moderately-halophilic-member-of-the-roseobacter-clade/
https://jgi.doe.gov/publication/genome-sequence-of-the-filamentous-gliding-thiothrix-nivea-neotype-strain-jp2t/
https://jgi.doe.gov/publication/genome-sequence-of-the-fleming-strain-of-micrococcus-luteus-a-simple-free-living-actinobacterium-2/
https://jgi.doe.gov/publication/genome-sequence-of-the-fleming-strain-of-micrococcus-luteus-a-simple-free-living-actinobacterium/
https://jgi.doe.gov/publication/genome-sequence-of-the-flexirubin-pigmented-soil-bacterium-niabella-soli-type-strain-js13-8t-2/
https://jgi.doe.gov/publication/genome-sequence-of-the-free-living-aerobic-spirochete-turneriella-parva-type-strain-ht-and-emendation-of-the-species-turneriella-parva/
https://jgi.doe.gov/publication/genome-sequence-of-the-homoacetogenic-bacterium-holophaga-foetida-type-strain-tmbs4t/
https://jgi.doe.gov/publication/genome-sequence-of-the-lebeckia-ambigua-nodulating-burkholderia-sprentiae-strain-wsm5005/
https://jgi.doe.gov/publication/genome-sequence-of-the-leisingera-aquimarina-type-strain-dsm-24565t-a-member-of-the-marine-roseobacter-clade-rich-in-extrachromosomal-elements/
https://jgi.doe.gov/publication/genome-sequence-of-the-lignocellulose-bioconverting-and-xylose-fermenting-yeast-pichia-stipitis/
https://jgi.doe.gov/publication/genome-sequence-of-the-lignocellulose-degrading-fungus-phanerochaete-chrysosporium-strain-rp78/
https://jgi.doe.gov/publication/genome-sequence-of-the-listia-angolensis-microsymbiont-microvirga-lotononidis-strain-wsm3557t/
https://jgi.doe.gov/publication/genome-sequence-of-the-litoreibacter-arenae-type-strain-dsm-19593t-a-member-of-the-roseobacter-clade-isolated-from-sea-sand-2/
https://jgi.doe.gov/publication/genome-sequence-of-the-lotus-corniculatus-microsymbiont-mesorhizobium-loti-strain-r88b/
https://jgi.doe.gov/publication/genome-sequence-of-the-lotus-spp-microsymbiont-mesorhizobium-loti-strain-nzp2037/
https://jgi.doe.gov/publication/genome-sequence-of-the-lotus-spp-microsymbiont-mesorhizobium-loti-strain-r7a/
https://jgi.doe.gov/publication/genome-sequence-of-the-lupin-nodulating-bradyrhizobium-sp-strain-wsm1417/
https://jgi.doe.gov/publication/genome-sequence-of-the-medicago-nodulating-ensifer-meliloti-commercial-inoculant-strain-rri128/
https://jgi.doe.gov/publication/genome-sequence-of-the-mercury-methylating-strain-desulfovibrio-desulfuricans-nd132-2/
https://jgi.doe.gov/publication/genome-sequence-of-the-mercury-methylating-strain-desulfovibrio-desulfuricans-nd132/
https://jgi.doe.gov/publication/genome-sequence-of-the-mesophilic-thermotogales-bacterium-mesotoga-prima-mesg1-ag-4-2-reveals-the-largest-thermotogales-genome-to-date/
https://jgi.doe.gov/publication/genome-sequence-of-the-methanotrophic-alphaproteobacterium-methylocystis-sp-strain-rockwell-atcc-49242/
https://jgi.doe.gov/publication/genome-sequence-of-the-model-mushroom-schizophyllum-commune/
https://jgi.doe.gov/publication/genome-sequence-of-the-model-rice-variety-kitaakex/
https://jgi.doe.gov/publication/genome-sequence-of-the-moderately-thermophilic-amino-acid-degrading-and-sulfur-reducing-bacterium-thermovirga-lienii-type-strain-cas60314t/
https://jgi.doe.gov/publication/genome-sequence-of-the-moderately-thermophilic-halophile-flexistipes-sinusarabici-strain-mas10/
https://jgi.doe.gov/publication/genome-sequence-of-the-moderately-thermophilic-sulfur-reducing-bacterium-thermanaerovibrio-velox-type-strain-z-9701t-and-emended-description-of-the-genus-thermanaerovibrio-2/
https://jgi.doe.gov/publication/genome-sequence-of-the-mud-dwelling-archaeon-methanoplanus-limicola-type-strain-dsm-2279t-reclassification-of-methanoplanus-petrolearius-as-methanolacinia-petrolearia-and-emended-descriptions-of/
https://jgi.doe.gov/publication/genome-sequence-of-the-obligate-gammaproteobacterial-methanotroph-methylomicrobium-album-strain-bg8/
https://jgi.doe.gov/publication/genome-sequence-of-the-ocean-sediment-bacterium-saccharomonospora-marina-type-strain-xmu15t/
https://jgi.doe.gov/publication/genome-sequence-of-the-orange-pigmented-seawater-bacterium-owenweeksia-hongkongensis-type-strain-ust20020801t/
https://jgi.doe.gov/publication/genome-sequence-of-the-ornithopuslupinus-nodulating-bradyrhizobium-sp-strain-wsm471/
https://jgi.doe.gov/publication/genome-sequence-of-the-palaeopolyploid-soybean-2/
https://jgi.doe.gov/publication/genome-sequence-of-the-palaeopolyploid-soybean/
https://jgi.doe.gov/publication/genome-sequence-of-the-phage-gene-rich-marine-phaeobacter-arcticus-type-strain-dsm-23566t/
https://jgi.doe.gov/publication/genome-sequence-of-the-phylogenetically-isolated-spirochete-leptonema-illini-type-strain-3055t/
https://jgi.doe.gov/publication/genome-sequence-of-the-pink-pigmented-marine-bacterium-loktanella-hongkongensis-type-strain-ust950701-009pt-a-representative-of-the-roseobacter-group-11/
https://jgi.doe.gov/publication/genome-sequence-of-the-plant-growth-promoting-endophytic-yeast-rhodotorula-graminis-wp1-11/
https://jgi.doe.gov/publication/genome-sequence-of-the-soil-bacterium-saccharomonospora-azurea-type-strain-na-128t/
https://jgi.doe.gov/publication/genome-sequence-of-the-south-american-clover-nodulating-rhizobium-leguminosarum-bv-trifolii-strain-wsm597/
https://jgi.doe.gov/publication/genome-sequence-of-the-thermophilic-fresh-water-bacterium-spirochaeta-caldaria-type-strain-h1t-reclassification-of-spirochaeta-caldaria-spirochaeta-stenostrepta-and-spirochaeta-zuelzerae-in-the-2/
https://jgi.doe.gov/publication/genome-sequence-of-the-thermotoga-thermarum-type-strain-la3t-from-an-african-solfataric-spring/
https://jgi.doe.gov/publication/genome-sequence-of-the-trifolium-rueppellianum-nodulating-rhizobium-leguminosarum-bv-trifolii-strain-wsm2012/
https://jgi.doe.gov/publication/genome-sequence-of-the-verrucomicrobium-opitutus-terrae-pb90-1-an-abundant-inhabitant-of-rice-paddy-soil-ecosystems/
https://jgi.doe.gov/publication/genome-sequence-of-the-wenxinia-marina-type-strain-dsm-24838t-a-representative-of-the-roseobacter-group-isolated-from-oilfield-sediments/
https://jgi.doe.gov/publication/genome-sequence-of-thermofilum-pendens-reveals-an-exceptional-loss-of-biosynthetic-pathways-without-genome-reduction/
https://jgi.doe.gov/publication/genome-sequence-of-thermotoga-sp-strain-rq2-a-hyperthermophilic-bacterium-isolated-from-a-geothermally-heated-region-of-the-seafloor-near-ribeira-quente-the-azores-2/
https://jgi.doe.gov/publication/genome-sequence-of-thermotoga-sp-strain-rq2-a-hyperthermophilic-bacterium-isolated-from-a-geothermally-heated-region-of-the-seafloor-near-ribeira-quente-the-azores/
https://jgi.doe.gov/publication/genome-sequence-of-verrucomicrobium-sp-strain-gas474-a-novel-bacterium-isolated-from-soil/
https://jgi.doe.gov/publication/genome-sequence-of-victivallis-vadensis-atcc-baa-548-an-anaerobic-bacterium-from-the-phylum-lentisphaerae-isolated-from-the-human-gastrointestinal-tract/
https://jgi.doe.gov/publication/genome-sequenced-bacterial-collection-from-sorghum-aerial-root-mucilage/
https://jgi.doe.gov/publication/genome-sequenced-bacterial-collection-from-sorghum-epicuticular-wax/
https://jgi.doe.gov/publication/genome-sequences-for-six-rhodanobacter-strains-isolated-from-soils-and-the-terrestrial-subsurface-with-variable-denitrification-capabilities/
https://jgi.doe.gov/publication/genome-sequences-of-actinobacteria-from-extreme-environments-in-colombia/
https://jgi.doe.gov/publication/genome-sequences-of-alicycliphilus-denitrificans-strains-bc-and-k601t/
https://jgi.doe.gov/publication/genome-sequences-of-industrially-relevant-saccharomyces-cerevisiae-strain-m3707-isolated-from-a-sample-of-distillers-yeast-and-four-haploid-derivatives/
https://jgi.doe.gov/publication/genome-sequences-of-key-bacterial-symbionts-of-entomopathogenic-nematodes-xenorhabdus-cabanillasii-dsm17905-xenorhabdus-ehlersii-dsm16337-xenorhabdus-japonica-dsm16522-xenorhabdus-koppenhoeferii-d/
https://jgi.doe.gov/publication/genome-sequences-of-two-carbapenemase-resistant-klebsiella-pneumoniae-st258-isolates/
https://jgi.doe.gov/publication/genome-sequences-of-two-klebsiella-pneumoniae-isolates-from-different-geographical-regions-argentina-strain-jhck1-and-the-united-states-strain-va360/
https://jgi.doe.gov/publication/genome-sequencing-and-analysis-of-the-biomass-degrading-fungus-trichoderma-reesei-syn-hypocrea-jecorina/
https://jgi.doe.gov/publication/genome-sequencing-and-analysis-of-the-model-grass-brachypodium-distachyon/
https://jgi.doe.gov/publication/genome-sequencing-and-analysis-of-the-versatile-cell-factory-aspergillus-niger-cbs-513-88/
https://jgi.doe.gov/publication/genome-sequencing-and-mapping-reveal-loss-of-heterozygosity-as-a-mechanism-for-rapid-adaptation-in-the-vegetable-pathogen-phytophthora-capsici-2/
https://jgi.doe.gov/publication/genome-sequencing-of-evolved-aspergilli-populations-reveals-robust-genomes-transversions-in-a-flavus-and-sexual-aberrancy-in-non-homologous-end-joining-mutants/
https://jgi.doe.gov/publication/genome-sequencing-of-four-aureobasidium-pullulans-varieties-biotechnological-potential-stress-tolerance-and-description-of-new-species/
https://jgi.doe.gov/publication/genome-sequencing-of-porostereum-spadiceum-to-study-the-degradation-of-levofloxacin/
https://jgi.doe.gov/publication/genome-sequencing-of-the-trichoderma-reesei-qm9136-mutant-identifies-a-truncation-of-the-transcriptional-regulator-xyr1-as-the-cause-for-its-cellulase-negative-phenotype-11/
https://jgi.doe.gov/publication/genome-sequencing-provides-insight-into-the-reproductive-biology-nutritional-mode-and-ploidy-of-the-fern-pathogen-mixia-osmundae/
https://jgi.doe.gov/publication/genome-sequencing-reveals-complex-secondary-metabolome-in-the-marine-actinomycete-salinispora-tropica/
https://jgi.doe.gov/publication/genome-sequencing-suggests-diverse-secondary-metabolism-in-coral-associated-aquimarina-megaterium-2/
https://jgi.doe.gov/publication/genome-size-cell-size-and-the-evolution-of-enucleated-erythrocytes-in-attenuate-salamanders/
https://jgi.doe.gov/publication/genome-streamlining-proteorhodopsin-and-organic-nitrogen-metabolism-in-freshwater-nitrifiers-2/
https://jgi.doe.gov/publication/genome-structure-and-emerging-evidence-of-an-incipient-sex-chromosome-in-populus/
https://jgi.doe.gov/publication/genome-to-gut-crop-engineering-for-human-microbiomes/
https://jgi.doe.gov/publication/genome-transcriptome-and-secretome-analyses-of-the-antagonistic-yeast-like-fungus-aureobasidium-pullulansto-identify-potential-biocontrol-genes/
https://jgi.doe.gov/publication/genome-transcriptome-and-secretome-analysis-of-wood-decay-fungus-postia-placenta-supports-unique-mechanisms-of-lignocellulose-conversion/
https://jgi.doe.gov/publication/genome-wide-analysis-of-auxiaa-and-arf-gene-families-in-populus-trichocarpa/
https://jgi.doe.gov/publication/genome-wide-analysis-of-corynespora-cassiicola-leaf-fall-disease-putative-effectors/
https://jgi.doe.gov/publication/genome-wide-analysis-of-cytochrome-p450s-of-trichoderma-spp-annotation-and-evolutionary-relationships/
https://jgi.doe.gov/publication/genome-wide-analysis-of-lectin-receptor-like-kinases-in-populus/
https://jgi.doe.gov/publication/genome-wide-association-analysis-of-stalk-biomass-and-anatomical-traits-in-maize/
https://jgi.doe.gov/publication/genome-wide-association-studies-across-environmental-and-genetic-contexts-reveal-complex-genetic-architecture-of-symbiotic-extended-phenotypes-2/
https://jgi.doe.gov/publication/genome-wide-association-studies-and-expression-based-quantitative-trait-loci-analyses-reveal-roles-of-hct2-in-caffeoylquinic-acid-biosynthesis-and-its-regulation-by-defense-responsive-transcription-2/
https://jgi.doe.gov/publication/genome-wide-association-studies-and-expression-based-quantitative-trait-loci-analyses-reveal-roles-of-hct2-in-caffeoylquinic-acid-biosynthesis-and-its-regulation-by-defense-responsive-transcription-fa/
https://jgi.doe.gov/publication/genome-wide-association-study-identifies-candidate-loci-underlying-agronomic-traits-in-a-middle-american-diversity-panel-of-common-bean/
https://jgi.doe.gov/publication/genome-wide-associations-with-flowering-time-in-switchgrass-using-exome-capture-sequencing-data/
https://jgi.doe.gov/publication/genome-wide-characterization-of-methylguanosine-capped-and-polyadenylated-small-rnas-in-the-rice-blast-fungus-magnaporthe-oryzae/
https://jgi.doe.gov/publication/genome-wide-examination-of-myoblast-cell-cycle-withdrawal-during-differentiation/
https://jgi.doe.gov/publication/genome-wide-experimental-determination-of-barriers-to-horizontal-gene-transfer/
https://jgi.doe.gov/publication/genome-wide-fitness-profiling-reveals-molecular-mechanisms-that-bacteria-use-to-interact-with-trichoderma-atroviride-exometabolites/
https://jgi.doe.gov/publication/genome-wide-functional-screens-enable-the-prediction-of-high-activity-crispr-cas9-and-cas12a-guides-in-yarrowia-lipolytica-2/
https://jgi.doe.gov/publication/genome-wide-identification-of-bacterial-plant-colonization-genes/
https://jgi.doe.gov/publication/genome-wide-mapping-of-cytosine-methylation-revealed-dynamic-dna-methylation-patterns-associated-with-genes-and-centromeres-in-rice/
https://jgi.doe.gov/publication/genome-wide-prediction-and-transcriptome-analysis-of-sugar-transporters-in-four-ascomycete-fungi-2/
https://jgi.doe.gov/publication/genome-wide-prediction-and-transcriptome-analysis-of-sugar-transporters-in-four-ascomycete-fungi-3/
https://jgi.doe.gov/publication/genome-wide-prediction-and-transcriptome-analysis-of-sugar-transporters-in-four-ascomycete-fungi/
https://jgi.doe.gov/publication/genome-wide-role-of-codon-usage-on-transcription-and-identification-of-potential-regulators/
https://jgi.doe.gov/publication/genome-wide-scans-of-selection-highlight-the-impact-of-biotic-and-abiotic-constraints-in-natural-populations-of-the-model-grass-brachypodium-distachyon/
https://jgi.doe.gov/publication/genome-wide-selective-sweeps-and-gene-specific-sweeps-in-natural-bacterial-populations/
https://jgi.doe.gov/publication/genome-wide-sequencing-of-41-rice-oryza-sativa-l-mutated-lines-reveals-diverse-mutations-induced-by-fast-neutron-irradiation/
https://jgi.doe.gov/publication/genomes-of-13-domesticated-and-wild-rice-relatives-highlight-genetic-conservation-turnover-and-innovation-across-the-genus-oryza/
https://jgi.doe.gov/publication/genomes-of-multicellular-algal-sisters-to-land-plants-illuminate-signaling-network-evolution-2/
https://jgi.doe.gov/publication/genomes-of-multicellular-algal-sisters-to-land-plants-illuminate-signaling-network-evolution/
https://jgi.doe.gov/publication/genomes-of-three-methylotrophs-from-a-single-niche-reveal-the-genetic-and-metabolic-divergence-of-the-methylophilaceae/
https://jgi.doe.gov/publication/genomes-of-ubiquitous-marine-and-hypersaline-hydrogenovibrio-thiomicrorhabdus-and-thiomicrospira-spp-encode-a-diversity-of-mechanisms-to-sustain-chemolithoautotrophy-in-heterogeneous-environments/
https://jgi.doe.gov/publication/genomes-online-database-gold-v-6-data-updates-and-feature-enhancements/
https://jgi.doe.gov/publication/genomes-online-database-gold-v-7-updates-and-new-features/
https://jgi.doe.gov/publication/genomes-online-database-gold-v-8-overview-and-updates/
https://jgi.doe.gov/publication/genomes-phylogeny-and-evolutionary-systems-biology/
https://jgi.doe.gov/publication/genomevista-an-integrated-software-package-for-whole-genome-alignment-and-visualization/
https://jgi.doe.gov/publication/genomewide-annotation-and-comparative-genomics-of-cytochrome-p450-monooxygenases-p450s-in-the-polypore-species-bjerkandera-adusta-ganoderma-sp-and-phlebia-brevispora/
https://jgi.doe.gov/publication/genomic-adaptations-of-the-halophilic-dead-sea-filamentous-fungus-eurotium-rubrum-2/
https://jgi.doe.gov/publication/genomic-adaptations-to-an-endolithic-lifestyle-in-the-coral-associated-alga-ostreobium/
https://jgi.doe.gov/publication/genomic-analysis-enlightens-agaricales-lifestyle-evolution-and-increasing-peroxidase-diversity/
https://jgi.doe.gov/publication/genomic-analysis-of-aspergillus-section-terrei-reveals-a-high-potential-in-secondary-metabolite-production-and-plant-biomass-degradation-2/
https://jgi.doe.gov/publication/genomic-analysis-of-aspergillus-section-terrei-reveals-a-high-potential-in-secondary-metabolite-production-and-plant-biomass-degradation-3/
https://jgi.doe.gov/publication/genomic-analysis-of-aspergillus-section-terrei-reveals-a-high-potential-in-secondary-metabolite-production-and-plant-biomass-degradation/
https://jgi.doe.gov/publication/genomic-analysis-of-caldithrix-abyssi-the-thermophilic-anaerobic-bacterium-of-the-novel-bacterial-phylum-calditrichaeota/
https://jgi.doe.gov/publication/genomic-analysis-of-elusimicrobium-minutum-the-first-cultivated-representative-of-the-phylum-elusimicrobia-formerly-termite-group-1/
https://jgi.doe.gov/publication/genomic-analysis-of-immunity-in-a-urochordate-and-the-emergence-of-the-vertebrate-immune-system-waiting-for-godot/
https://jgi.doe.gov/publication/genomic-analysis-of-organismal-complexity-in-the-multicellular-green-alga-volvox-carteri/
https://jgi.doe.gov/publication/genomic-analysis-of-the-uncultivated-marine-crenarchaeote-cenarchaeum-symbiosum/
https://jgi.doe.gov/publication/genomic-analysis-of-the-yet-uncultured-binatota-reveals-broad-methylotrophic-alkane-degradation-and-pigment-production-capacities/
https://jgi.doe.gov/publication/genomic-analysis-of-three-bifidobacterium-species-isolated-from-the-calf-gastrointestinal-tract/
https://jgi.doe.gov/publication/genomic-and-exoproteomic-diversity-in-plant-biomass-degradation-approaches-among-aspergilli/
https://jgi.doe.gov/publication/genomic-and-functional-analyses-of-fungal-and-bacterial-consortia-that-enable-lignocellulose-breakdown-in-goat-gut-microbiomes/
https://jgi.doe.gov/publication/genomic-and-genetic-analyses-of-diversity-and-plant-interactions-of-pseudomonas-fluorescens/
https://jgi.doe.gov/publication/genomic-and-genetic-insights-into-a-cosmopolitan-fungus-paecilomyces-variotii-eurotiales/
https://jgi.doe.gov/publication/genomic-and-metabolic-diversity-of-marine-group-i-thaumarchaeota-in-the-mesopelagic-of-two-subtropical-gyres/
https://jgi.doe.gov/publication/genomic-and-proteomic-biases-inform-metabolic-engineering-strategies-for-anaerobic-fungi/
https://jgi.doe.gov/publication/genomic-basis-for-the-unique-phenotype-of-the-alkaliphilic-purple-nonsulfur-bacterium-rhodobaca-bogoriensis/
https://jgi.doe.gov/publication/genomic-changes-associated-with-the-evolutionary-transitions-of-nostoc-to-a-plant-symbiont/
https://jgi.doe.gov/publication/genomic-characterization-of-candidate-division-lcp-89-reveals-an-atypical-cell-wall-structure-microcompartment-production-and-dual-respiratory-and-fermentative-capacities/
https://jgi.doe.gov/publication/genomic-characterization-of-carbapenem-resistant-shewanella-algae-isolated-from-asian-hard-clam-meretrix-lusoria/
https://jgi.doe.gov/publication/genomic-characterization-of-methanomicrobiales-reveals-three-classes-of-methanogens/
https://jgi.doe.gov/publication/genomic-characterization-of-three-marine-fungi-including-emericellopsis-atlantica-sp-nov-with-signatures-of-a-generalist-lifestyle-and-marine-biomass-degradation/
https://jgi.doe.gov/publication/genomic-comparison-of-deep-sea-hydrothermal-genera-related-to-aeropyrum-thermodiscus-and-caldisphaera-and-proposed-emended-description-of-the-family-acidilobaceae-2/
https://jgi.doe.gov/publication/genomic-comparison-of-deep-sea-hydrothermal-genera-related-to-aeropyrum-thermodiscus-and-caldisphaera-and-proposed-emended-description-of-the-family-acidilobaceae/
https://jgi.doe.gov/publication/genomic-comparison-of-two-family-level-groups-of-the-uncultivated-nag1-archaeal-lineage-from-chemically-and-geographically-disparate-hot-springs/
https://jgi.doe.gov/publication/genomic-comparisons-of-a-bacterial-lineage-that-inhabits-both-marine-and-terrestrial-deep-subsurface-systems-2/
https://jgi.doe.gov/publication/genomic-comparisons-of-a-bacterial-lineage-that-inhabits-both-marine-and-terrestrial-deep-subsurface-systems/
https://jgi.doe.gov/publication/genomic-composition-and-dynamics-among-methanomicrobiales-predict-adaptation-to-contrasting-environments-2/
https://jgi.doe.gov/publication/genomic-composition-and-dynamics-among-methanomicrobiales-predict-adaptation-to-contrasting-environments/
https://jgi.doe.gov/publication/genomic-determination-of-breeding-systems-and-trans-specific-evolution-of-hd-mat-genes-in-suilloid-fungi/
https://jgi.doe.gov/publication/genomic-differentiation-among-wild-cyanophages-despite-widespread-horizontal-gene-transfer/
https://jgi.doe.gov/publication/genomic-diversifications-of-five-gossypium-allopolyploid-species-and-their-impact-on-cotton-improvement/
https://jgi.doe.gov/publication/genomic-diversity-within-the-haloalkaliphilic-genus-thioalkalivibrio/
https://jgi.doe.gov/publication/genomic-encyclopedia-of-bacteria-and-archaea-sequencing-a-myriad-of-type-strains/
https://jgi.doe.gov/publication/genomic-encyclopedia-of-bacterial-and-archaeal-type-strains-phase-iii-the-genomes-of-soil-and-plant-associated-and-newly-described-type-strains-11/
https://jgi.doe.gov/publication/genomic-encyclopedia-of-type-strains-phase-i-the-one-thousand-microbial-genomes-kmg-i-project/
https://jgi.doe.gov/publication/genomic-expansion-of-domain-archaea-highlights-roles-for-organisms-from-new-phyla-in-anaerobic-carbon-cycling/
https://jgi.doe.gov/publication/genomic-features-of-bacterial-adaptation-to-plants/
https://jgi.doe.gov/publication/genomic-features-of-the-bundle-forming-heliobacterium-heliophilum-fasciatum-2/
https://jgi.doe.gov/publication/genomic-features-predict-bacterial-life-history-strategies-in-soil-as-identified-by-metagenomic-stable-isotope-probing/
https://jgi.doe.gov/publication/genomic-insights-into-redox-driven-microbial-processes-for-carbon-decomposition-in-thawing-arctic-soils-and-permafrost-2/
https://jgi.doe.gov/publication/genomic-insights-into-redox-driven-microbial-processes-for-carbon-decomposition-in-thawing-arctic-soils-and-permafrost/
https://jgi.doe.gov/publication/genomic-insights-into-the-acidobacteria-reveal-strategies-for-their-success-in-terrestrial-environments/
https://jgi.doe.gov/publication/genomic-insights-into-the-uncultivated-marine-zetaproteobacteria-at-loihi-seamount/
https://jgi.doe.gov/publication/genomic-islands-and-the-ecology-and-evolution-of-prochlorococcus/
https://jgi.doe.gov/publication/genomic-islands-link-secondary-metabolism-to-functional-adaptation-in-marine-actinobacteria-2/
https://jgi.doe.gov/publication/genomic-islands-link-secondary-metabolism-to-functional-adaptation-in-marine-actinobacteria/
https://jgi.doe.gov/publication/genomic-mechanisms-of-climate-adaptation-in-polyploid-bioenergy-switchgrass/
https://jgi.doe.gov/publication/genomic-methods-and-microbiological-technologies-for-profiling-novel-and-extreme-environments-for-the-extreme-microbiome-project-xmp/
https://jgi.doe.gov/publication/genomic-mysteries-of-giant-bacteria-insights-and-implications/
https://jgi.doe.gov/publication/genomic-potential-of-marinobacter-aquaeolei-a-biogeochemical-opportunitroph/
https://jgi.doe.gov/publication/genomic-prediction-of-switchgrass-winter-survivorship-across-diverse-lowland-populations/
https://jgi.doe.gov/publication/genomic-profiles-of-four-novel-cyanobacteria-mags-from-lake-vanda-antarctica-insights-into-photosynthesis-cold-tolerance-and-the-circadian-clock/
https://jgi.doe.gov/publication/genomic-properties-of-marine-group-a-bacteria-indicate-a-role-in-the-marine-sulfur-cycle/
https://jgi.doe.gov/publication/genomic-proteomic-and-biochemical-analysis-of-the-organohalide-respiratory-pathway-in-desulfitobacterium-dehalogenans/
https://jgi.doe.gov/publication/genomic-sequencing-of-pleistocene-cave-bears/
https://jgi.doe.gov/publication/genomic-sequencing-of-single-microbial-cells-from-environmental-samples/
https://jgi.doe.gov/publication/genomic-signatures-for-sedimentary-microbial-utilization-of-phytoplankton-detritus-in-a-fast-flowing-estuary/
https://jgi.doe.gov/publication/genomic-signatures-of-a-major-adaptive-event-in-the-pathogenic-fungus-melampsora-larici-populina-2/
https://jgi.doe.gov/publication/genomic-signatures-of-strain-selection-and-enhancement-in-bacillus-atrophaeus-var-globigii-a-historical-biowarfare-simulant/
https://jgi.doe.gov/publication/genomic-standards-consortium-projects/
https://jgi.doe.gov/publication/genomic-variation-and-biogeography-of-antarctic-haloarchaea/
https://jgi.doe.gov/publication/genomic-variation-in-3010-diverse-accessions-of-asian-cultivated-rice/
https://jgi.doe.gov/publication/genomic-variation-within-the-maize-stiff-stalk-heterotic-germplasm-pool/
https://jgi.doe.gov/publication/genomic-views-of-distant-acting-enhancers/
https://jgi.doe.gov/publication/genomics-and-development-of-lentinus-tigrinus-a-white-rot-wood-decaying-mushroom-with-dimorphic-fruiting-bodies/
https://jgi.doe.gov/publication/genomics-and-evolution-of-eukaryotic-phospholipid-biosynthesis/
https://jgi.doe.gov/publication/genomics-and-transcriptomics-analyses-of-the-oil-accumulating-basidiomycete-yeast-trichosporon-oleaginosus-insights-into-substrate-utilization-and-alternative-evolutionary-trajectories-of-fungal-ma-11/
https://jgi.doe.gov/publication/genomics-characterization-of-an-engineered-corynebacterium-glutamicum-in-bioreactor-cultivation-under-ionic-liquid-stress-2/
https://jgi.doe.gov/publication/genomics-discovery-of-giant-fungal-viruses-from-subsurface-oceanic-crustal-fluids/
https://jgi.doe.gov/publication/genomics-exometabolomics-and-metabolic-probing-reveal-conserved-proteolytic-metabolism-of-thermoflexus-hugenholtzii-and-three-candidate-species-from-china-and-japan/
https://jgi.doe.gov/publication/genomics-for-key-players-in-the-n-cycle-from-guinea-pigs-to-the-next-frontier/
https://jgi.doe.gov/publication/genomics-genome-project-standards-in-a-new-era-of-sequencing-2/
https://jgi.doe.gov/publication/genomics-genome-project-standards-in-a-new-era-of-sequencing/
https://jgi.doe.gov/publication/genomics-of-aerobic-cellulose-utilization-systems-in-actinobacteria/
https://jgi.doe.gov/publication/genomics-of-an-extreme-psychrophile-psychromonas-ingrahamii/
https://jgi.doe.gov/publication/genomics-of-cellulosic-biofuels/
https://jgi.doe.gov/publication/genomics-of-the-origin-and-evolution-of-citrus/
https://jgi.doe.gov/publication/genomics-of-wood-degrading-fungi/
https://jgi.doe.gov/publication/genotype-phenotype-correlations-within-the-geodermatophilaceae-2/
https://jgi.doe.gov/publication/genus-wide-assessment-of-lignocellulose-utilization-in-the-extremely-thermophilic-caldicellulosiruptor-by-genomic-pan-genomic-and-metagenomic-analysis/
https://jgi.doe.gov/publication/geoarchaeota-a-new-candidate-phylum-in-the-archaea-from-high-temperature-acidic-iron-mats-in-yellowstone-national-park/
https://jgi.doe.gov/publication/geochemistry-and-mixing-drive-the-spatial-distribution-of-free-living-archaea-and-bacteria-in-yellowstone-lake/
https://jgi.doe.gov/publication/geology-and-climate-influence-rhizobiome-composition-of-the-phenotypically-diverse-tropical-tree-tabebuia-heterophylla/
https://jgi.doe.gov/publication/geomicrobiology-of-sublacustrine-thermal-vents-in-yellowstone-lake-geochemical-controls-on-microbial-community-structure-and-function/
https://jgi.doe.gov/publication/getting-back-to-the-grass-roots-harnessing-specialized-metabolites-for-improved-crop-stress-resilience/
https://jgi.doe.gov/publication/getting-to-the-core-of-the-gut-microbiome/
https://jgi.doe.gov/publication/getting-to-the-root-of-plant-mediated-methane-emissions-and-oxidation-in-a-thermokarst-bog/
https://jgi.doe.gov/publication/giant-virus-biology-and-diversity-in-the-era-of-genome-resolved-metagenomics-2/
https://jgi.doe.gov/publication/giant-virus-diversity-and-host-interactions-through-global-metagenomics/
https://jgi.doe.gov/publication/giant-virus-infection-signatures-are-modulated-by-euphotic-zone-depth-strata-and-iron-regimes-of-the-subantarctic-southern-ocean/
https://jgi.doe.gov/publication/giant-viruses-with-an-expanded-complement-of-translation-system-components-2/
https://jgi.doe.gov/publication/giant-viruses-with-an-expanded-complement-of-translation-system-components/
https://jgi.doe.gov/publication/gill-bacteria-enable-a-novel-digestive-strategy-in-a-wood-feeding-mollusk/
https://jgi.doe.gov/publication/glacier-ice-archives-nearly-15000-year-old-microbes-and-phages/
https://jgi.doe.gov/publication/glacier-preserved-tibetan-plateau-viral-community-probably-linked-to-warm-cold-climate-variations-2/
https://jgi.doe.gov/publication/glacier-preserved-tibetan-plateau-viral-community-probably-linked-to-warm-cold-climate-variations-3/
https://jgi.doe.gov/publication/glacier-preserved-tibetan-plateau-viral-community-probably-linked-to-warm-cold-climate-variations/
https://jgi.doe.gov/publication/glo-roots-an-imaging-platform-enabling-multidimensional-characterization-of-soil-grown-root-systems-11/
https://jgi.doe.gov/publication/global-distribution-of-a-wild-alga-revealed-by-targeted-metagenomics/
https://jgi.doe.gov/publication/global-diversity-and-biogeography-of-deep-sea-pelagic-prokaryotes-11/
https://jgi.doe.gov/publication/global-diversity-and-biogeography-of-the-zostera-marina-mycobiome/
https://jgi.doe.gov/publication/global-diversity-of-the-brachypodium-species-complex-as-a-resource-for-genome-wide-association-studies-demonstrated-for-agronomic-traits-in-response-to-climate/
https://jgi.doe.gov/publication/global-ecotypes-in-the-ubiquitous-marine-clade-sar86/
https://jgi.doe.gov/publication/global-metagenomic-survey-reveals-a-new-bacterial-candidate-phylum-in-geothermal-springs/
https://jgi.doe.gov/publication/global-overview-and-major-challenges-of-host-prediction-methods-for-uncultivated-phages/
https://jgi.doe.gov/publication/global-patterns-of-diversity-and-metabolism-of-microbial-communities-in-deep-sea-hydrothermal-vent-deposits-2/
https://jgi.doe.gov/publication/global-transcriptome-response-to-ionic-liquid-by-a-tropical-rain-forest-soil-bacterium-enterobacter-lignolyticus/
https://jgi.doe.gov/publication/glucose-mediated-repression-of-plant-biomass-utilization-in-the-white-rot-fungus-dichomitus-squalens/
https://jgi.doe.gov/publication/glycoside-hydrolase-activities-of-thermophilic-bacterial-consortia-adapted-to-switchgrass/
https://jgi.doe.gov/publication/glycosyl-cations-versus-allylic-cations-in-spontaneous-and-enzymatic-hydrolysis/
https://jgi.doe.gov/publication/gnps-dashboard-collaborative-exploration-of-mass-spectrometry-data-in-the-web-browser-2/
https://jgi.doe.gov/publication/gone-with-a-trace-cataloguing-the-disappearing-gut-microbes/
https://jgi.doe.gov/publication/gradual-polyploid-genome-evolution-revealed-by-pan-genomic-analysis-of-brachypodium-hybridum-and-its-diploid-progenitors/
https://jgi.doe.gov/publication/grasses-use-an-alternatively-wired-bhlh-transcription-factor-network-to-establish-stomatal-identity/
https://jgi.doe.gov/publication/green-evolution-and-dynamic-adaptations-revealed-by-genomes-of-the-marine-picoeukaryotes-micromonas/
https://jgi.doe.gov/publication/greengenes-a-chimera-checked-16s-rrna-gene-database-and-workbench-compatible-with-arb/
https://jgi.doe.gov/publication/grna-seqret-a-universal-tool-for-targeted-and-genome-scale-grna-design-and-sequence-extraction-for-prokaryotes-and-eukaryotes/
https://jgi.doe.gov/publication/group-ii-introns-break-new-boundaries-presence-in-a-bilaterians-genome/
https://jgi.doe.gov/publication/guidelines-for-public-database-submission-of-uncultivated-virus-genome-sequences-for-taxonomic-classification/
https://jgi.doe.gov/publication/h2-saturation-of-high-affinity-h2-oxidizing-bacteria-alters-the-ecological-niche-of-soil-microorganisms-unevenly-among-taxonomic-groups/
https://jgi.doe.gov/publication/habitat%e2%80%90adapted-microbial-communities-mediate-sphagnum-peatmoss-resilience-to-warming-2/
https://jgi.doe.gov/publication/habitat-lite-a-gsc-case-study-based-on-free-text-terms-for-environmental-metadata/
https://jgi.doe.gov/publication/halophytes-and-heavy-metals-a-multi%e2%80%90omics-approach-to-understand-the-role-of-gene-and-genome-duplication-in-the-abiotic-stress-tolerance-of-cakile-maritima-2/
https://jgi.doe.gov/publication/halophytes-and-heavy-metals-a-multi%e2%80%90omics-approach-to-understand-the-role-of-gene-and-genome-duplication-in-the-abiotic-stress-tolerance-of-cakile-maritima/
https://jgi.doe.gov/publication/haplotype%e2%80%90resolved-genome-assembly-of-populus-tremula-x-p-alba-reveals-aspen%e2%80%90specific-megabase-satellite-dna/
https://jgi.doe.gov/publication/haplotype-analysis-of-the-apolipoprotein-gene-cluster-on-human-chromosome-11/
https://jgi.doe.gov/publication/haplotypes-in-the-apoa1-c3-a4-a5-gene-cluster-affect-plasma-lipids-in-both-humans-and-baboons/
https://jgi.doe.gov/publication/hardwood-tree-genomics-unlocking-woody-plant-biology/
https://jgi.doe.gov/publication/harnessing-genetic-diversity-in-saccharomyces-cerevisiae-for-fermentation-of-xylose-in-hydrolysates-of-alkaline-hydrogen-peroxide-pretreated-biomass/
https://jgi.doe.gov/publication/harnessing-glycosylation-to-improve-cellulase-activity/
https://jgi.doe.gov/publication/heterogeneity-of-soil-nutrients-and-subsurface-biota-in-a-dryland-ecosystem/
https://jgi.doe.gov/publication/heterologous-expression-and-characterization-of-two-1-hydroxy-2-naphthoic-acid-dioxygenases-from-arthrobacter-phenanthrenivorans/
https://jgi.doe.gov/publication/heterospecific-neighbor-plants-impact-root-microbiome-diversity-and-molecular-function-of-root-fungi-2/
https://jgi.doe.gov/publication/hexapod-origins-monophyletic-or-paraphyletic/
https://jgi.doe.gov/publication/hi-c-metagenome-sequencing-reveals-soil-phage-host-interactions-2/
https://jgi.doe.gov/publication/hi-c-metagenome-sequencing-reveals-soil-phage-host-interactions-3/
https://jgi.doe.gov/publication/hi-c-metagenome-sequencing-reveals-soil-phage-host-interactions/
https://jgi.doe.gov/publication/hidden-diversity-in-the-oomycete-genus-olpidiopsis-is-a-potential-hazard-to-red-algal-cultivation-and-conservation-worldwide/
https://jgi.doe.gov/publication/hidden-diversity-of-soil-giant-viruses/
https://jgi.doe.gov/publication/hidden-likelihood-support-in-genomic-data-can-forty-five-wrongs-make-a-right/
https://jgi.doe.gov/publication/hiding-in-plain-sight-the-globally-distributed-bacterial-candidate-phylum-pauc34f/
https://jgi.doe.gov/publication/high%e2%80%90throughput-identification-of-novel-heat-tolerance-genes-via-genome%e2%80%90wide-pooled-mutant-screens-in-the-model-green-alga-chlamydomonas-reinhardtii-2/
https://jgi.doe.gov/publication/high-density-genetic-maps-of-seashore-paspalum-using-genotyping-by-sequencing-and-their-relationship-to-the-sorghum-bicolor-genome/
https://jgi.doe.gov/publication/high-density-linkage-map-reveals-qtl-underlying-growth-traits-in-ap13xvs16-biparental-population-of-switchgrass/
https://jgi.doe.gov/publication/high-density-single-nucleotide-polymorphism-linkage-maps-of-lowland-switchgrass-using-genotyping-by-sequencing-11/
https://jgi.doe.gov/publication/high-functional-diversity-among-nitrospira-populations-that-dominate-rotating-biological-contactor-microbial-communities-in-a-municipal-wastewater-treatment-plant/
https://jgi.doe.gov/publication/high-intraspecific-genome-diversity-in-the-model-arbuscular-mycorrhizal-symbiont-rhizophagus-irregularis/
https://jgi.doe.gov/publication/high-level-of-intergenera-gene-exchange-shapes-the-evolution-of-haloarchaea-in-an-isolated-antarctic-lake-2/
https://jgi.doe.gov/publication/high-local-and-global-diversity-of-flavobacteria-in-marine-plankton/
https://jgi.doe.gov/publication/high-phenotypic-and-genotypic-plasticity-among-strains-of-the-mushroom-forming-fungus-schizophyllum-commune-2/
https://jgi.doe.gov/publication/high-phenotypic-and-genotypic-plasticity-among-strains-of-the-mushroom-forming-fungus-schizophyllum-commune-3/
https://jgi.doe.gov/publication/high-phenotypic-and-genotypic-plasticity-among-strains-of-the-mushroom-forming-fungus-schizophyllum-commune/
https://jgi.doe.gov/publication/high-potential-for-biomass-degrading-enzymes-revealed-by-hot-spring-metagenomics/
https://jgi.doe.gov/publication/high-quality-draft-genome-of-nakamurella-lactea-type-strain-a-rock-actinobacterium-and-emended-description-of-nakamurella-lactea/
https://jgi.doe.gov/publication/high-quality-draft-genome-sequence-and-analysis-of-pontibacter-roseus-type-strain-src-1t-dsm-17521t-isolated-from-muddy-waters-of-a-drainage-system-in-chandigarh-india-11/
https://jgi.doe.gov/publication/high-quality-draft-genome-sequence-of-bacteroides-barnesiae-type-strain-bl2t-dsm-18169t-from-chicken-caecum-11/
https://jgi.doe.gov/publication/high-quality-draft-genome-sequence-of-brachymonas-chironomi-aima4t-dsm-19884t-isolated-from-a-chironomus-sp-egg-mass-11/
https://jgi.doe.gov/publication/high-quality-draft-genome-sequence-of-corynebacterium-ulceribovis-type-strain-immib-l1395t-dsm-45146t-11/
https://jgi.doe.gov/publication/high-quality-draft-genome-sequence-of-desulfovibrio-carbinoliphilus-fw-101-2b-an-organic-acid-oxidizing-sulfate-reducing-bacterium-isolated-from-uraniumvi-contaminated-groundwater/
https://jgi.doe.gov/publication/high-quality-draft-genome-sequence-of-ensifer-meliloti-mlalz-1-a-microsymbiont-of-medicago-laciniata-l-miller-collected-in-lanzarote-canary-islands-spain/
https://jgi.doe.gov/publication/high-quality-draft-genome-sequence-of-fischerella-thermalis-jsc-11-a-siderophilic-cyanobacterium-with-bioremediation-potential-2/
https://jgi.doe.gov/publication/high-quality-draft-genome-sequence-of-flavobacterium-rivuli-type-strain-wb-3-3-2t-dsm-21788t-a-valuable-source-of-polysaccharide-decomposing-enzymes-11/
https://jgi.doe.gov/publication/high-quality-draft-genome-sequence-of-flavobacterium-suncheonense-gh29-5t-dsm-17707t-isolated-from-greenhouse-soil-in-south-korea-and-emended-description-of-flavobacterium-suncheonense-gh29-5t/
https://jgi.doe.gov/publication/high-quality-draft-genome-sequence-of-gracilimonas-tropica-cl-cb462t-dsm-19535t-isolated-from-a-synechococcus-culture/
https://jgi.doe.gov/publication/high-quality-draft-genome-sequence-of-kallotenue-papyrolyticum-jkg1t-reveals-broad-heterotrophic-capacity-focused-on-carbohydrate-and-amino-acid-metabolism-2/
https://jgi.doe.gov/publication/high-quality-draft-genome-sequence-of-kallotenue-papyrolyticum-jkg1t-reveals-broad-heterotrophic-capacity-focused-on-carbohydrate-and-amino-acid-metabolism/
https://jgi.doe.gov/publication/high-quality-draft-genome-sequence-of-leucobacter-chironomi-strain-mm2lbt-dsm-19883t-isolated-from-a-chironomus-sp-egg-mass-11/
https://jgi.doe.gov/publication/high-quality-draft-genome-sequence-of-meganema-perideroedes-str-gr1t-and-a-proposal-for-its-reclassification-to-the-family-meganemaceae-fam-nov-11/
https://jgi.doe.gov/publication/high-quality-draft-genome-sequence-of-olivibacter-sitiensis-type-strain-aw-6t-a-diphenol-degrader-with-genes-involved-in-the-catechol-pathway/
https://jgi.doe.gov/publication/high-quality-draft-genome-sequence-of-pseudomonas-aeruginosa-san-ai-an-environmental-isolate-resistant-to-heavy-metals/
https://jgi.doe.gov/publication/high-quality-draft-genome-sequence-of-rhizobium-mesoamericanum-strain-stm6155-a-mimosa-pudica-microsymbiont-from-new-caledonia/
https://jgi.doe.gov/publication/high-quality-draft-genome-sequence-of-sedimenticola-selenatireducens-strain-ak4oh1t-a-gammaproteobacterium-isolated-from-estuarine-sediment/
https://jgi.doe.gov/publication/high-quality-draft-genome-sequence-of-the-fermenting-bacterium-anaerobium-acetethylicum-type-strain-glubs11t-dsm-29698/
https://jgi.doe.gov/publication/high-quality-draft-genome-sequence-of-the-lotus-spp-microsymbiont-mesorhizobium-loti-strain-cj3sym-11/
https://jgi.doe.gov/publication/high-quality-draft-genome-sequence-of-the-opitutaceae-bacterium-strain-tav1-a-symbiont-of-the-wood-feeding-termite-reticulitermes-flavipes/
https://jgi.doe.gov/publication/high-quality-draft-genome-sequence-of-the-siderophilic-and-thermophilic-leptolyngbyaceae-cyanobacterium-jsc-12/
https://jgi.doe.gov/publication/high-quality-draft-genome-sequence-of-the-slightly-halophilic-bacterium-halomonas-zhanjiangensis-type-strain-jsm-078169t-dsm-21076t-from-a-sea-urchin-in-southern-china/
https://jgi.doe.gov/publication/high-quality-draft-genome-sequence-of-the-thermus-amyloliquefaciens-type-strain-yim-77409t-with-an-incomplete-denitrification-pathway/
https://jgi.doe.gov/publication/high-quality-draft-genome-sequence-of-the-yellow-pigmented-flavobacterium-joostella-marina-type-strain-en5t/
https://jgi.doe.gov/publication/high-quality-draft-genome-sequence-of-thermocrinis-jamiesonii-gbs1t-isolated-from-great-boiling-spring-nevada/
https://jgi.doe.gov/publication/high-quality-draft-genome-sequences-of-pseudomonas-fulva-dsm-17717t-pseudomonas-parafulva-dsm-17004t-and-pseudomonas-cremoricolorata-dsm-17059t-type-strains/
https://jgi.doe.gov/publication/high-quality-draft-genomes-from-thermus-caliditerrae-yim-77777-and-t-tengchongensis-yim-77401-isolates-from-tengchong-china/
https://jgi.doe.gov/publication/high-quality-draft-nuclear-and-mitochondrial-genome-sequence-of-fusarium-oxysporum-f-sp-albedinis-strain-9-the-causal-agent-of-bayoud-disease-on-date-palm-2/
https://jgi.doe.gov/publication/high-quality-genome-of-the-basidiomycete-yeast-dioszegia-hungarica-pdd-24b-2-isolated-from-cloud-water-2/
https://jgi.doe.gov/publication/high-quality-genome-sequence-of-the-radioresistant-bacterium-deinococcus-ficus-ks-0460/
https://jgi.doe.gov/publication/high-quality-permanent-draft-genome-sequence-of-bradyrhizobium-sp-ai1a-2-a-microsymbiont-of-andira-inermis-discovered-in-costa-rica-11/
https://jgi.doe.gov/publication/high-quality-permanent-draft-genome-sequence-of-bradyrhizobium-sp-strain-wsm1743-an-effective-microsymbiont-of-an-indigofera-sp-growing-in-australia/
https://jgi.doe.gov/publication/high-quality-permanent-draft-genome-sequence-of-bradyrhizobium-sp-tv2a-2-a-microsymbiont-of-tachigali-versicolor-discovered-in-barro-colorado-island-of-panama-11/
https://jgi.doe.gov/publication/high-quality-permanent-draft-genome-sequence-of-chryseobacterium-bovis-dsm-19482t-isolated-from-raw-cow-milk-2/
https://jgi.doe.gov/publication/high-quality-permanent-draft-genome-sequence-of-chryseobacterium-bovis-dsm-19482t-isolated-from-raw-cow-milk/
https://jgi.doe.gov/publication/high-quality-permanent-draft-genome-sequence-of-ensifer-medicae-strain-wsm244-a-microsymbiont-isolated-from-medicago-polymorpha-growing-in-alkaline-soil/
https://jgi.doe.gov/publication/high-quality-permanent-draft-genome-sequence-of-ensifer-meliloti-strain-4h41-an-effective-salt-and-drought-tolerant-microsymbiont-of-phaseolus-vulgaris-11/
https://jgi.doe.gov/publication/high-quality-permanent-draft-genome-sequence-of-ensifer-sp-pc2-isolated-from-a-nitrogen-fixing-root-nodule-of-the-legume-tree-khejri-native-to-the-thar-desert-of-india/
https://jgi.doe.gov/publication/high-quality-permanent-draft-genome-sequence-of-phaseolibacter-flectens-atcc-12775t-a-plant-pathogen-of-french-bean-pods/
https://jgi.doe.gov/publication/high-quality-permanent-draft-genome-sequence-of-rhizobium-leguminosarum-bv-viciae-strain-gb30-an-effective-microsymbiont-of-pisum-sativum-growing-in-poland-11/
https://jgi.doe.gov/publication/high-quality-permanent-draft-genome-sequence-of-rhizobium-sullae-strain-wsm1592-a-hedysarum-coronarium-microsymbiont-from-sassari-italy-11/
https://jgi.doe.gov/publication/high-quality-permanent-draft-genome-sequence-of-the-bradyrhizobium-elkanii-type-strain-usda-76t-isolated-from-glycine-max-l-merr/
https://jgi.doe.gov/publication/high-quality-permanent-draft-genome-sequence-of-the-extremely-osmotolerant-diphenol-degrading-bacterium-halotalea-alkalilenta-aw-7t-and-emended-description-of-the-genus-halotalea-11/
https://jgi.doe.gov/publication/high-quality-permanent-draft-genome-sequence-of-the-lebeckia-ambigua-nodulating-burkholderia-sp-strain-wsm4176-2/
https://jgi.doe.gov/publication/high-quality-permanent-draft-genome-sequence-of-the-lebeckia-ambigua-nodulating-burkholderia-sp-strain-wsm4176/
https://jgi.doe.gov/publication/high-quality-permanent-draft-genome-sequence-of-the-lebeckia-nodulating-burkholderia-dilworthii-strain-wsm3556t-11/
https://jgi.doe.gov/publication/high-quality-permanent-draft-genome-sequence-of-the-mimosa-asperata-nodulating-cupriavidus-sp-strain-amp6-2/
https://jgi.doe.gov/publication/high-quality-permanent-draft-genome-sequence-of-the-mimosa-asperata-nodulating-cupriavidus-sp-strain-amp6/
https://jgi.doe.gov/publication/high-quality-permanent-draft-genome-sequence-of-the-parapiptadenia-rigida-nodulating-burkholderia-sp-strain-uypr1-413-11/
https://jgi.doe.gov/publication/high-quality-permanent-draft-genome-sequence-of-the-parapiptadenia-rigida-nodulating-cupriavidus-sp-strain-uypr2-512-11/
https://jgi.doe.gov/publication/high-quality-rna-extraction-and-the-regulation-of-genes-encoding-cellulosomes-are-correlated-with-growth-stage-in-anaerobic-fungi/
https://jgi.doe.gov/publication/high-resolution-genetic-mapping-of-allelic-variants-associated-with-cell-wall-chemistry-in-populus/
https://jgi.doe.gov/publication/high-resolution-genetic-maps-of-eucalyptus-improve-eucalyptus-grandis-genome-assembly/
https://jgi.doe.gov/publication/high-resolution-linkage-map-and-chromosome-scale-genome-assembly-for-cassava-manihot-esculenta-crantz-from-10-populations/
https://jgi.doe.gov/publication/high-resolution-mapping-reveals-hotspots-and-sex-biased-recombination-in-populus-trichocarpa-2/
https://jgi.doe.gov/publication/high-resolution-metagenomics-targets-specific-functional-types-in-complex-microbial-communities/
https://jgi.doe.gov/publication/high-resolution-phenotyping-of-sorghum-genotypic-and-phenotypic-responses-to-low-nitrogen-and-synthetic-microbial-communities/
https://jgi.doe.gov/publication/high-resolution-phylogenetic-microbial-community-profiling/
https://jgi.doe.gov/publication/high-throughput-in-vitro-glycoside-hydrolase-high-screening-for-enzyme-discovery/
https://jgi.doe.gov/publication/high-throughput-metagenomic-technologies-for-complex-microbial-community-analysis-open-and-closed-formats/
https://jgi.doe.gov/publication/high-throughput-phosphoglycolate-phosphatase-activity-assay-using-crude-leaf-extract-and-recombinant-enzyme-to-determine-kinetic-parameters-km-and-vmax-using-a-microplate-reader-2/
https://jgi.doe.gov/publication/high-throughput-phosphoglycolate-phosphatase-activity-assay-using-crude-leaf-extract-and-recombinant-enzyme-to-determine-kinetic-parameters-km-and-vmax-using-a-microplate-reader/
https://jgi.doe.gov/publication/high-throughput-single-cell-transcriptome-profiling-of-plant-cell-types/
https://jgi.doe.gov/publication/high-throughput-snp-discovery-through-deep-resequencing-of-a-reduced-representation-library-to-anchor-and-orient-scaffolds-in-the-soybean-whole-genome-sequence/
https://jgi.doe.gov/publication/high-throughput-translational-medicine-challenges-and-solutions/
https://jgi.doe.gov/publication/highly-diverse-and-unknown-viruses-may-enhance-antarctic-endoliths-adaptability/
https://jgi.doe.gov/publication/hipmcl-a-high-performance-parallel-implementation-of-the-markov-clustering-algorithm-for-large-scale-networks/
https://jgi.doe.gov/publication/homologous-recombination-and-transposon-propagation-shape-the-population-structure-of-an-organism-from-the-deep-subsurface-with-minimal-metabolism/
https://jgi.doe.gov/publication/homotypic-clusters-of-transcription-factor-binding-sites-are-a-key-component-of-human-promoters-and-enhancers/
https://jgi.doe.gov/publication/horizontal-gene-transfer-and-gene-dosage-drives-adaptation-to-wood-colonization-in-a-tree-pathogen/
https://jgi.doe.gov/publication/horizontal-gene-transfer-in-histophilus-somni-and-its-role-in-the-evolution-of-pathogenic-strain-2336-as-determined-by-comparative-genomic-analyses-2/
https://jgi.doe.gov/publication/horizontal-gene-transfer-in-histophilus-somni-and-its-role-in-the-evolution-of-pathogenic-strain-2336-as-determined-by-comparative-genomic-analyses/
https://jgi.doe.gov/publication/horizontal-gene-transfer-of-the-mer-operon-is-associated-with-large-effects-on-the-transcriptome-and-increased-tolerance-to-mercury-in-nitrogen-fixing-bacteria-2/
https://jgi.doe.gov/publication/horizontal-gene-transfer-of-the-mer-operon-is-associated-with-large-effects-on-the-transcriptome-and-increased-tolerance-to-mercury-in-nitrogen-fixing-bacteria-3/
https://jgi.doe.gov/publication/horizontal-gene-transfer-of-the-mer-operon-is-associated-with-large-effects-on-the-transcriptome-and-increased-tolerance-to-mercury-in-nitrogen-fixing-bacteria/
https://jgi.doe.gov/publication/horizontal-transfer-of-a-pathway-for-coumarate-catabolism-unexpectedly-inhibits-purine-nucleotide-biosynthesis/
https://jgi.doe.gov/publication/horizontal-transfer-of-carbohydrate-metabolism-genes-into-ectomycorrhizal-amanita/
https://jgi.doe.gov/publication/horizontal-transfer-of-entire-genomes-via-mitochondrial-fusion-in-the-angiosperm-amborella/
https://jgi.doe.gov/publication/host-genotype-and-age-shape-the-leaf-and-root-microbiomes-of-a-wild-perennial-plant/
https://jgi.doe.gov/publication/host-genotype-controls-ecological-change-in-the-leaf-fungal-microbiome-2/
https://jgi.doe.gov/publication/host-linked-soil-viral-ecology-along-a-permafrost-thaw-gradient/
https://jgi.doe.gov/publication/host-population-diversity-as-a-driver-of-viral-infection-cycle-in-wild-populations-of-green-sulfur-bacteria-with-long-standing-virus-host-interactions/
https://jgi.doe.gov/publication/hot-springs-viruses-at-yellowstone-national-park-have-ancient-origins-and-are-adapted-to-thermophilic-hosts-2/
https://jgi.doe.gov/publication/hot-springs-viruses-at-yellowstone-national-park-have-ancient-origins-and-are-adapted-to-thermophilic-hosts/
https://jgi.doe.gov/publication/how-much-do-rrna-gene-surveys-underestimate-extant-bacterial-diversity/
https://jgi.doe.gov/publication/ht-sip-a-semi-automated-stable-isotope-probing-pipeline-identifies-cross-kingdom-interactions-in-the-hyphosphere-of-arbuscular-mycorrhizal-fungi-2/
https://jgi.doe.gov/publication/human-mouse-comparative-genomics-successes-and-failures-to-reveal-functional-regions-of-the-human-genome-2/
https://jgi.doe.gov/publication/human-mouse-comparative-genomics-successes-and-failures-to-reveal-functional-regions-of-the-human-genome/
https://jgi.doe.gov/publication/human-specific-gain-of-function-in-a-developmental-enhancer/
https://jgi.doe.gov/publication/hybrid-error-correction-and-de-novo-assembly-of-single-molecule-sequencing-reads/
https://jgi.doe.gov/publication/hybridization-history-and-repetitive-element-content-in-the-genome-of-a-homoploid-hybrid-yucca-gloriosa-asparagaceae/
https://jgi.doe.gov/publication/hydrazine-synthase-a-unique-phylomarker-with-which-to-study-the-presence-and-biodiversity-of-anammox-bacteria-2/
https://jgi.doe.gov/publication/hydrogen-based-metabolism-as-an-ancestral-trait-in-lineages-sibling-to-the-cyanobacteria/
https://jgi.doe.gov/publication/hydrogen-production-in-photosynthetic-microbial-mats-in-the-elkhorn-slough-estuary-monterey-bay/
https://jgi.doe.gov/publication/hydrogenotrophic-methanogenesis-in-archaeal-phylum-verstraetearchaeota-reveals-the-shared-ancestry-of-all-methanogens/
https://jgi.doe.gov/publication/hymenobacter-caeli-sp-nov-an-airborne-bacterium-isolated-from-king-george-island-antarctica/
https://jgi.doe.gov/publication/hyperactive-nanobacteria-with-host-dependent-traits-pervade-omnitrophota/
https://jgi.doe.gov/publication/hypoxic-survival-requires-a-2-on-2-hemoglobin-in-a-process-involving-nitric-oxide/
https://jgi.doe.gov/publication/ice-cover-extent-drives-phytoplankton-and-bacterial-community-structure-in-a-large-north-temperate-lake-implications-for-a-warming-climate/
https://jgi.doe.gov/publication/identification-and-characterization-of-a-skin-microbiome-on-caenorhabditis-elegans-suggests-environmental-microbes-confer-cuticle-protection-2/
https://jgi.doe.gov/publication/identification-and-characterization-of-a-skin-microbiome-on-caenorhabditis-elegans-suggests-environmental-microbes-confer-cuticle-protection-3/
https://jgi.doe.gov/publication/identification-and-characterization-of-a-skin-microbiome-on-caenorhabditis-elegans-suggests-environmental-microbes-confer-cuticle-protection/
https://jgi.doe.gov/publication/identification-and-characterization-of-functional-centromeres-of-the-common-bean/
https://jgi.doe.gov/publication/identification-and-characterization-of-the-polyketide-synthase-involved-in-ochratoxin-a-biosynthesis-in-aspergillus-carbonarius/
https://jgi.doe.gov/publication/identification-and-comparative-genomic-analysis-of-signaling-and-regulatory-components-in-the-diatom-thalassiosira-pseudonana/
https://jgi.doe.gov/publication/identification-and-distribution-of-the-nbs-lrr-gene-family-in-the-cassava-genome-11/
https://jgi.doe.gov/publication/identification-and-localization-of-myosin-superfamily-members-in-fish-retina-and-retinal-pigmented-epithelium/
https://jgi.doe.gov/publication/identification-and-recombinant-expression-of-a-cutinase-from-papiliotrema-laurentii-that-hydrolyzes-natural-and-synthetic-polyesters-2/
https://jgi.doe.gov/publication/identification-and-recombinant-expression-of-a-cutinase-from-papiliotrema-laurentii-that-hydrolyzes-natural-and-synthetic-polyesters/
https://jgi.doe.gov/publication/identification-and-structural-analysis-of-a-novel-carboxysome-shell-protein-with-implications-for-metabolite-transport/
https://jgi.doe.gov/publication/identification-characterization-and-gene-expression-analysis-of-nucleotide-binding-site-nb-type-resistance-gene-homologues-in-switchgrass/
https://jgi.doe.gov/publication/identification-heterologous-expression-and-characterization-of-the-tolypodiol-biosynthetic-gene-cluster-through-an-integrated-approach/
https://jgi.doe.gov/publication/identification-of-2%e2%80%91hydroxyacyl-coa-synthases-with-high-acyloin-condensation-activity-for-orthogonal-one-carbon-bioconversion/
https://jgi.doe.gov/publication/identification-of-a-gene-encoding-the-last-step-of-the-l-rhamnose-catabolic-pathway-in-aspergillus-niger-revealed-the-inducer-of-the-pathway-regulator/
https://jgi.doe.gov/publication/identification-of-a-haloalkaliphilic-and-thermostable-cellulase-with-improved-ionic-liquid-tolerance/
https://jgi.doe.gov/publication/identification-of-a-novel-cyanobacterial-group-as-active-diazotrophs-in-a-coastal-microbial-mat-using-nanosims-analysis/
https://jgi.doe.gov/publication/identification-of-a-novel-enhancer-of-brain-expression-near-the-apoe-gene-cluster-by-comparative-genomics/
https://jgi.doe.gov/publication/identification-of-a-novel-nematotoxic-protein-by-challenging-the-model-mushroom-coprinopsis-cinerea-with-a-fungivorous-nematode/
https://jgi.doe.gov/publication/identification-of-ancient-remains-through-genomic-sequencing/
https://jgi.doe.gov/publication/identification-of-beneficial-and-detrimental-bacteria-impacting-sorghum-responses-to-drought-using-multi-scale-and-multi-system-microbiome-comparisons-2/
https://jgi.doe.gov/publication/identification-of-candidate-genes-encoding-the-core-components-of-the-cell-death-machinery-in-the-ciona-intestinalis-genome/
https://jgi.doe.gov/publication/identification-of-candidate-genes-in-arabidopsis-and-populus-cell-wall-biosynthesis-using-text-mining-co-expression-network-analysis-and-comparative-genomics/
https://jgi.doe.gov/publication/identification-of-candidate-susceptibility-genes-to-puccinia-graminis-f-sp-tritici-in-wheat/
https://jgi.doe.gov/publication/identification-of-cellulose-responsive-bacterial-and-fungal-communities-in-geographically-and-edaphically-different-soils-by-using-stable-isotope-probing/
https://jgi.doe.gov/publication/identification-of-functional-single-nucleotide-polymorphism-of-populus-trichocarpa-ptrepsp-tf-and-determination-of-its-transcriptional-effect/
https://jgi.doe.gov/publication/identification-of-methyl-coenzyme-m-reductase-a-mcra-genes-associated-with-methane-oxidizing-archaea/
https://jgi.doe.gov/publication/identification-of-mobile-genetic-elements-with-genomad/
https://jgi.doe.gov/publication/identification-of-novel-biomass-degrading-enzymes-from-genomic-dark-matter-populating-genomic-sequence-space-with-functional-annotation/
https://jgi.doe.gov/publication/identification-of-over-ten-thousand-candidate-structured-rnas-in-viruses-and-phages-2/
https://jgi.doe.gov/publication/identification-of-over-ten-thousand-candidate-structured-rnas-in-viruses-and-phages-3/
https://jgi.doe.gov/publication/identification-of-over-ten-thousand-candidate-structured-rnas-in-viruses-and-phages/
https://jgi.doe.gov/publication/identification-of-synthetic-consortia-from-a-set-of-plant%e2%80%90beneficial-bacteria/
https://jgi.doe.gov/publication/identification-of-two-1-hydroxy-2-naphthoate-dioxygenase-genes-in-arthrobacter-sp-strain-sphe3/
https://jgi.doe.gov/publication/identifying-aspects-of-the-post-transcriptional-program-governing-the-proteome-of-the-green-alga-micromonas-pusilla/
https://jgi.doe.gov/publication/identifying-candidate-structured-rnas-in-crispr-operons-2/
https://jgi.doe.gov/publication/identifying-the-basal-angiosperm-node-in-chloroplast-genome-phylogenies-sampling-ones-way-out-of-the-felsenstein-zone/
https://jgi.doe.gov/publication/identifying-the-gluc-1-and-gluc-2-mutations-in-neurospora-crassa-by-genome-resequencing-2/
https://jgi.doe.gov/publication/illuminating-the-virosphere-through-global-metagenomics/
https://jgi.doe.gov/publication/ima-genome-f18-2/
https://jgi.doe.gov/publication/ima-genome-f18-3/
https://jgi.doe.gov/publication/ima-genome-f18/
https://jgi.doe.gov/publication/img-4-version-of-the-integrated-microbial-genomes-comparative-analysis-system/
https://jgi.doe.gov/publication/img-abc-a-knowledge-base-to-fuel-discovery-of-biosynthetic-gene-clusters-and-novel-secondary-metabolites-11/
https://jgi.doe.gov/publication/img-abc-new-features-for-bacterial-secondary-metabolism-analysis-and-targeted-biosynthetic-gene-cluster-discovery-in-thousands-of-microbial-genomes/
https://jgi.doe.gov/publication/img-abc-v-5-0-an-update-to-the-img-atlas-of-biosynthetic-gene-clusters-knowledgebase/
https://jgi.doe.gov/publication/img-er-a-system-for-microbial-genome-annotation-expert-review-and-curation/
https://jgi.doe.gov/publication/img-m-v-5-0-an-integrated-data-management-and-comparative-analysis-system-for-microbial-genomes-and-microbiomes/
https://jgi.doe.gov/publication/img-pr-a-database-of-plasmids-from-genomes-and-metagenomes-with-rich-annotations-and-metadata-2/
https://jgi.doe.gov/publication/img-pr-a-database-of-plasmids-from-genomes-and-metagenomes-with-rich-annotations-and-metadata-3/
https://jgi.doe.gov/publication/img-pr-a-database-of-plasmids-from-genomes-and-metagenomes-with-rich-annotations-and-metadata/
https://jgi.doe.gov/publication/img-the-integrated-microbial-genomes-database-and-comparative-analysis-system-2/
https://jgi.doe.gov/publication/img-vr-v-2-0-an-integrated-data-management-and-analysis-system-for-cultivated-and-environmental-viral-genomes/
https://jgi.doe.gov/publication/img-vr-v3-an-integrated-ecological-and-evolutionary-framework-for-interrogating-genomes-of-uncultivated-viruses/
https://jgi.doe.gov/publication/img-vr-v4-an-expanded-database-of-uncultivated-virus-genomes-within-a-framework-of-extensive-functional-taxonomic-and-ecological-metadata-2/
https://jgi.doe.gov/publication/imgm-4-version-of-the-integrated-metagenome-comparative-analysis-system/
https://jgi.doe.gov/publication/imgm-a-data-management-and-analysis-system-for-metagenomes/
https://jgi.doe.gov/publication/imgm-hmp-a-metagenome-comparative-analysis-system-for-the-human-microbiome-project/
https://jgi.doe.gov/publication/imgm-integrated-genome-and-metagenome-comparative-data-analysis-system/
https://jgi.doe.gov/publication/imgm-the-integrated-metagenome-data-management-and-comparative-analysis-system-2/
https://jgi.doe.gov/publication/imgvr-a-database-of-cultured-and-uncultured-dna-viruses-and-retroviruses/
https://jgi.doe.gov/publication/imitation-switch-is-required-for-normal-chromatin-structure-and-gene-repression-in-prc2-target-domains/
https://jgi.doe.gov/publication/impact-of-fire-on-active-layer-and-permafrost-microbial-communities-and-metagenomes-in-an-upland-alaskan-boreal-forest/
https://jgi.doe.gov/publication/impact-of-harvest-on-switchgrass-leaf-microbial-communities-2/
https://jgi.doe.gov/publication/impact-of-library-preparation-protocols-and-template-quantity-on-the-metagenomic-reconstruction-of-a-mock-microbial-community/
https://jgi.doe.gov/publication/impact-of-single-cell-genomics-and-metagenomics-on-the-emerging-view-of-extremophile-microbial-dark-matter/
https://jgi.doe.gov/publication/impacts-of-directed-evolution-and-soil-management-legacy-on-the-maize-rhizobiome/
https://jgi.doe.gov/publication/impacts-of-land-use-change-on-soil-microbial-communities-and-their-function-in-the-amazon-rainforest/
https://jgi.doe.gov/publication/impacts-of-maize-domestication-and-breeding-on-rhizosphere-microbial-community-recruitment-from-a-nutrient-depleted-agricultural-soil/
https://jgi.doe.gov/publication/impacts-of-the-wetland-sedge-carex-aquatilis-on-microbial-community-and-methane-metabolisms-2/
https://jgi.doe.gov/publication/implications-of-the-plastid-genome-sequence-of-typha-typhaceae-poales-for-understanding-genome-evolution-in-poaceae/
https://jgi.doe.gov/publication/improved-assemblies-using-a-source-agnostic-pipeline-for-metagenomic-assembly-by-merging-megamerge-of-contigs-3/
https://jgi.doe.gov/publication/improved-chromosome-level-genome-assembly-and-annotation-of-the-seagrass-zostera-marina-eelgrass-version-1-peer-review-1-approved/
https://jgi.doe.gov/publication/improved-draft-genome-sequence-of-microbacterium-sp-strain-lkl04-a-bacterial-endophyte-associated-with-switchgrass-plants/
https://jgi.doe.gov/publication/improved-draft-genome-sequence-of-pseudomonas-poae-a2-s9-a-strain-with-plant-growth-promoting-activity/
https://jgi.doe.gov/publication/improved-genome-annotation-for-zymomonas-mobilis/
https://jgi.doe.gov/publication/improved-genome-assembly-and-evidence-based-global-gene-model-set-for-the-chordate-ciona-intestinalis-new-insight-into-intron-and-operon-populations/
https://jgi.doe.gov/publication/improved-high-quality-draft-genome-sequence-of-rhodococcus-sp-jg-3-a-eurypsychrophilic-actinobacteria-from-antarctic-dry-valley-permafrost-11/
https://jgi.doe.gov/publication/improved-high-quality-draft-genome-sequence-of-the-eurypsychrophile-rhodotorula-sp-jg1b-isolated-from-permafrost-in-the-hyperarid-upper-elevation-mcmurdo-dry-valleys-antarctica/
https://jgi.doe.gov/publication/improving-genome-assemblies-by-sequencing-pcr-products-with-pacbio/
https://jgi.doe.gov/publication/improving-microbial-genome-annotations-in-an-integrated-database-context/
https://jgi.doe.gov/publication/improving-synthetic-biology-communication-recommended-practices-for-visual-depiction-and-digital-submission-of-genetic-designs/
https://jgi.doe.gov/publication/improving-the-coverage-of-the-cyanobacterial-phylum-using-diversity-driven-genome-sequencing/
https://jgi.doe.gov/publication/in-depth-metagenomic-analysis-in-contrasting-oil-wells-reveals-syntrophic-bacterial-and-archaeal-associations-for-oil-biodegradation-in-petroleum-reservoirs/
https://jgi.doe.gov/publication/in-depth-spatiotemporal-characterization-of-planktonic-archaeal-and-bacterial-communities-in-north-and-south-san-francisco-bay/
https://jgi.doe.gov/publication/in-marine-bacteroidetes-the-bulk-of-glycan-degradation-during-algae-blooms-is-mediated-by-few-clades-using-a-restricted-set-of-genes-2/
https://jgi.doe.gov/publication/in-marine-bacteroidetes-the-bulk-of-glycan-degradation-during-algae-blooms-is-mediated-by-few-clades-using-a-restricted-set-of-genes/
https://jgi.doe.gov/publication/in-silico-analysis-of-the-expression-profile-of-aa9-lytic-polysaccharide-monooxygenases-lpmos-and-the-cdh-cellobiose-dehydrogenase-enzyme-in-wood-degrader-agaricomycetes-the-pleurotus-ostreatus-cas-2/
https://jgi.doe.gov/publication/in-silico-analysis-of-the-expression-profile-of-aa9-lytic-polysaccharide-monooxygenases-lpmos-and-the-cdh-cellobiose-dehydrogenase-enzyme-in-wood-degrader-agaricomycetes-the-pleurotus-ostreatus-cas-3/
https://jgi.doe.gov/publication/in-silico-analysis-of-the-expression-profile-of-aa9-lytic-polysaccharide-monooxygenases-lpmos-and-the-cdh-cellobiose-dehydrogenase-enzyme-in-wood-degrader-agaricomycetes-the-pleurotus-ostreatus-cas/
https://jgi.doe.gov/publication/in-silico-analysis-of-the-metabolic-potential-and-niche-specialization-of-candidate-phylum-latescibacteria-ws3-11/
https://jgi.doe.gov/publication/in-vitro-characterization-of-phenylacetate-decarboxylase-a-novel-enzyme-catalyzing-toluene-biosynthesis-in-an-anaerobic-microbial-community/
https://jgi.doe.gov/publication/in-vivo-evolution-of-lactic-acid-hyper-tolerant-clostridium-thermocellum-2/
https://jgi.doe.gov/publication/inconsistencies-in-arguments-for-the-supertree-approach-supermatrices-versus-supertrees-of-crocodylia/
https://jgi.doe.gov/publication/increased-production-of-fatty-acids-and-triglycerides-in-aspergillus-oryzae-by-enhancing-expressions-of-fatty-acid-synthesis-related-genes/
https://jgi.doe.gov/publication/increasing-focus-on-environmental-biotechnology-in-the-face-of-pressing-environmental-challenges/
https://jgi.doe.gov/publication/increasing-the-thermodynamic-driving-force-of-the-phosphofructokinase-reaction-in-clostridium-thermocellum-2/
https://jgi.doe.gov/publication/individual-genome-assembly-from-complex-community-short-read-metagenomic-datasets-2/
https://jgi.doe.gov/publication/individual-genome-assembly-from-complex-community-short-read-metagenomic-datasets/
https://jgi.doe.gov/publication/inference-and-reconstruction-of-the-heimdallarchaeial-ancestry-of-eukaryotes/
https://jgi.doe.gov/publication/information-theory-and-machine-learning-illuminate-large%e2%80%90scale-metabolomic-responses-of-brachypodium-distachyon-to-environmental-change/
https://jgi.doe.gov/publication/inorganic-nitrogen-availability-alters-eucalyptus-grandis-receptivity-to-the-ectomycorrhizal-fungus-pisolithus-albus-but-not-symbiotic-nitrogen-transfer/
https://jgi.doe.gov/publication/insight-into-the-bacterial-endophytic-communities-of-peach-cultivars-related-to-crown-gall-disease-resistance/
https://jgi.doe.gov/publication/insight-into-trade-off-between-wood-decay-and-parasitism-from-the-genome-of-a-fungal-forest-pathogen/
https://jgi.doe.gov/publication/insights-from-humanmouse-genome-comparisons/
https://jgi.doe.gov/publication/insights-into-an-unusual-auxiliary-activity-9-family-member-lacking-the-histidine-brace-motif-of-lytic-polysaccharide-monooxygenases-2/
https://jgi.doe.gov/publication/insights-into-an-unusual-auxiliary-activity-9-family-member-lacking-the-histidine-brace-motif-of-lytic-polysaccharide-monooxygenases/
https://jgi.doe.gov/publication/insights-into-bilaterian-evolution-from-three-spiralian-genomes/
https://jgi.doe.gov/publication/insights-into-land-plant-evolution-garnered-from-the-marchantia-polymorpha-genome/
https://jgi.doe.gov/publication/insights-into-secondary-metabolism-from-a-global-analysis-of-prokaryotic-biosynthetic-gene-clusters/
https://jgi.doe.gov/publication/insights-into-the-action-of-phylogenetically-diverse-microbial-expansins-on-the-structure-of-cellulose-microfibrils-2/
https://jgi.doe.gov/publication/insights-into-the-action-of-phylogenetically-diverse-microbial-expansins-on-the-structure-of-cellulose-microfibrils-3/
https://jgi.doe.gov/publication/insights-into-the-action-of-phylogenetically-diverse-microbial-expansins-on-the-structure-of-cellulose-microfibrils/
https://jgi.doe.gov/publication/insights-into-the-bacterial-community-and-its-temporal-succession-during-the-fermentation-of-wine-grapes-11/
https://jgi.doe.gov/publication/insights-into-the-evolution-of-mitochondrial-genome-size-from-complete-sequences-of-citrullus-lanatus-and-cucurbita-pepo-cucurbitaceae/
https://jgi.doe.gov/publication/insights-into-the-fundamental-physiology-of-the-uncultured-fe-oxidizing-bacterium-leptothrix-ochracea/
https://jgi.doe.gov/publication/insights-into-the-maize-pan-genome-and-pan-transcriptome/
https://jgi.doe.gov/publication/insights-into-the-metabolism-lifestyle-and-putative-evolutionary-history-of-the-novel-archaeal-phylum-diapherotrites/
https://jgi.doe.gov/publication/insights-into-the-phylogeny-and-coding-potential-of-microbial-dark-matter/
https://jgi.doe.gov/publication/insights-into-the-red-algae-and-eukaryotic-evolution-from-the-genome-of-porphyra-umbilicalis-bangiophyceae-rhodophyta/
https://jgi.doe.gov/publication/insights-into-the-single-cell-draft-genome-of-candidatus-achromatium-palustre/
https://jgi.doe.gov/publication/insights-of-biomass-recalcitrance-in-natural-populus-trichocarpa-variants-for-biomass-conversion/
https://jgi.doe.gov/publication/integrated-analysis-of-homozygous-deletions-focal-amplifications-and-sequence-alterations-in-breast-and-colorectal-cancers/
https://jgi.doe.gov/publication/integrating-biogeochemistry-with-multiomic-sequence-information-in-a-model-oxygen-minimum-zone/
https://jgi.doe.gov/publication/integrating-chromatin-conformation-information-in-a-self-supervised-learning-model-improves-metagenome-binning/
https://jgi.doe.gov/publication/integrating-ecology-into-biotechnology/
https://jgi.doe.gov/publication/integrating-microarray-analysis-and-the-soybean-genome-to-understand-the-soybeans-iron-deficiency-response/
https://jgi.doe.gov/publication/integration-of-phenotypic-metadata-and-protein-similarity-in-archaea-using-a-spectral-bipartitioning-approach/
https://jgi.doe.gov/publication/integrative-analysis-of-multimodal-mass-spectrometry-data-in-mzmine-3/
https://jgi.doe.gov/publication/integrative-annotation-of-21037-human-genes-validated-by-full-length-cdna-clones/
https://jgi.doe.gov/publication/integrative-genomic-mining-for-enzyme-function-to-enable-engineering-of-a-non-natural-biosynthetic-pathway/
https://jgi.doe.gov/publication/integrative-genomics-reveals-paths-to-sex-dimorphism-in-salix-purpurea-l/
https://jgi.doe.gov/publication/integrative-visual-omics-of-the-white-rot-fungus-polyporus-brumalis-exposes-the-biotechnological-potential-of-its-oxidative-enzymes-for-delignifying-raw-plant-biomass/
https://jgi.doe.gov/publication/interactions-among-triphenyltin-degradation-phospholipid-synthesis-and-membrane-characteristics-of-bacillus-thuringiensis-in-the-presence-of-d-malic-acid/
https://jgi.doe.gov/publication/interactions-between-plants-and-soil-shaping-the-root-microbiome-under-abiotic-stress/
https://jgi.doe.gov/publication/intergenic-locations-of-rice-centromeric-chromatin/
https://jgi.doe.gov/publication/interrogating-the-grainyhead-like-2-grhl2-genomic-locus-identifies-an-enhancer-element-that-regulates-palatogenesis-in-mouse/
https://jgi.doe.gov/publication/interrogation-of-the-rna-species-in-magnaporthe-grisea/
https://jgi.doe.gov/publication/intersubunit-coupling-enables-fast-co2%e2%80%91fixation-by-reductive-carboxylases-2/
https://jgi.doe.gov/publication/into-the-darkness-the-ecologies-of-novel-microbial-dark-matter-phyla-in-an-antarctic-lake-2/
https://jgi.doe.gov/publication/intra-species-genetic-variability-drives-carbon-metabolism-and-symbiotic-host-interactions-in-the-ectomycorrhizal-fungus-pisolithus-microcarpus/
https://jgi.doe.gov/publication/intracellular-pathways-for-lignin-catabolism-in-white-rot-fungi/
https://jgi.doe.gov/publication/intraspecies-sequence-comparisons-for-annotating-genomes/
https://jgi.doe.gov/publication/intraspecific-comparison-and-annotation-of-two-complete-mitochondrial-genome-sequences-from-the-plant-pathogenic-fungus-mycosphaerella-graminicola/
https://jgi.doe.gov/publication/introduction-sequences-and-consequences/
https://jgi.doe.gov/publication/investigation-of-inter-and-intraspecies-variation-through-genome-sequencing-of-aspergillus-section-nigri/
https://jgi.doe.gov/publication/investigation-of-proposed-ladderane-biosynthetic-genes-from-anammox-bacteria-by-heterologous-expression-in-e-coli/
https://jgi.doe.gov/publication/investigation-of-recombination-intense-viral-groups-and-their-genes-in-the-earths-virome/
https://jgi.doe.gov/publication/iphop-an-integrated-machine-learning-framework-to-maximize-host-prediction-for-metagenome-derived-viruses-of-archaea-and-bacteria/
https://jgi.doe.gov/publication/iron-nutrition-and-physiological-responses-to-iron-stress-in-nitrosomonas-europaea/
https://jgi.doe.gov/publication/isolation-and-characterization-of-the-prochlorococcus-carboxysome-reveal-the-presence-of-the-novel-shell-protein-csos1d-2/
https://jgi.doe.gov/publication/isolation-and-characterization-of-the-prochlorococcus-carboxysome-reveal-the-presence-of-the-novel-shell-protein-csos1d/
https://jgi.doe.gov/publication/isolation-and-sequencing-of-a-single-copy-of-an-introgressed-chromosome-from-a-complex-genome-for-gene-and-snp-identification-2/
https://jgi.doe.gov/publication/isolation-of-histone-from-sorghum-leaf-tissue-for-top-down-mass-spectrometry-profiling-of-potential-epigenetic-markers/
https://jgi.doe.gov/publication/isolation-of-succinivibrionaceae-implicated-in-low-methane-emissions-from-tammar-wallabies/
https://jgi.doe.gov/publication/itaconic-acid-production-is-regulated-by-laea-in-aspergillus-pseudoterreus-2/
https://jgi.doe.gov/publication/ivirus-2-0-cyberinfrastructure-supported-tools-and-data-to-power-dna-virus-ecology-2/
https://jgi.doe.gov/publication/j5-dna-assembly-design-automation/
https://jgi.doe.gov/publication/jbrowse-a-dynamic-web-platform-for-genome-visualization-and-analysis/
https://jgi.doe.gov/publication/jclust-a-clustering-and-visualization-toolbox/
https://jgi.doe.gov/publication/jgi-plant-gene-atlas-an-updateable-transcriptome-resource-to-improve-functional-gene-descriptions-across-the-plant-kingdom/
https://jgi.doe.gov/publication/judicial-opinion-129/
https://jgi.doe.gov/publication/judicial-opinion-130-2/
https://jgi.doe.gov/publication/judicial-opinion-130/
https://jgi.doe.gov/publication/karrikin-insensitive2-regulates-leaf-development-root-system-architecture-and-arbuscular%e2%80%90mycorrhizal-symbiosis-in-brachypodium-distachyon-2/
https://jgi.doe.gov/publication/kinetic-variation-in-grass-phosphoenolpyruvate-carboxylases-provides-opportunity-to-enhance-c-4-photosynthetic-efficiency/
https://jgi.doe.gov/publication/kingdom-wide-analysis-of-fungal-transcriptomes-and-trnas-reveals-conserved-patterns-of-adaptive-evolution/
https://jgi.doe.gov/publication/laboratory-evolution-and-reverse-engineering-of-clostridium-thermocellum-for-growth-on-glucose-and-fructose/
https://jgi.doe.gov/publication/laccase-and-its-role-in-production-of-extracellular-reactive-oxygen-species-during-wood-decay-by-the-brown-rot-basidiomycete-postia-placenta/
https://jgi.doe.gov/publication/lack-of-mef2a-mutations-in-coronary-artery-disease/
https://jgi.doe.gov/publication/landscape-topography-structures-the-soil-microbiome-in-arctic-polygonal-tundra/
https://jgi.doe.gov/publication/large-differences-in-potential-denitrification-and-sediment-microbial-communities-across-the-laurentian-great-lakes/
https://jgi.doe.gov/publication/large-direct-repeats-flank-genomic-rearrangements-between-a-new-clinical-isolate-of-francisella-tularensis-subsp-tularensis-a1-and-schu-s4/
https://jgi.doe.gov/publication/large-scale-analyses-of-human-microbiomes-reveal-thousands-of-small-novel-genes/
https://jgi.doe.gov/publication/large-scale-contamination-of-microbial-isolate-genomes-by-illumina-phix-control-11/
https://jgi.doe.gov/publication/large-scale-cultivation-of-the-bumblebee-gut-microbiota-reveals-an-underestimated-bacterial-species-diversity-capable-of-pathogen-inhibition/
https://jgi.doe.gov/publication/large-scale-genome-sequencing-of-mycorrhizal-fungi-provides-insights-into-the-early-evolution-of-symbiotic-traits/
https://jgi.doe.gov/publication/large-scale-genomic-analyses-with-machine-learning-uncover-predictive-patterns-associated-with-fungal-phytopathogenic-lifestyles-and-traits-2/
https://jgi.doe.gov/publication/large-scale-genomic-analyses-with-machine-learning-uncover-predictive-patterns-associated-with-fungal-phytopathogenic-lifestyles-and-traits-3/
https://jgi.doe.gov/publication/large-scale-genomic-analyses-with-machine-learning-uncover-predictive-patterns-associated-with-fungal-phytopathogenic-lifestyles-and-traits/
https://jgi.doe.gov/publication/large-scale-maps-of-variable-infection-efficiencies-in-aquatic-bacteroidetes-phage-host-model-systems-2/
https://jgi.doe.gov/publication/large-scale-maps-of-variable-infection-efficiencies-in-aquatic-bacteroidetes-phage-host-model-systems/
https://jgi.doe.gov/publication/large-scale-protein-level-comparison-of-deltaproteobacteria-reveals-cohesive-metabolic-groups/
https://jgi.doe.gov/publication/large-scale-replicated-field-study-of-maize-rhizosphere-identifies-heritable-microbes/
https://jgi.doe.gov/publication/large-variability-of-bathypelagic-microbial-eukaryotic-communities-across-the-worlds-oceans/
https://jgi.doe.gov/publication/latent-homology-and-convergent-regulatory-evolution-underlies-the-repeated-emergence-of-yeasts/
https://jgi.doe.gov/publication/laying-the-foundation-for-a-genomic-rosetta-stone-creating-information-hubs-through-the-use-of-consensus-identifiers/
https://jgi.doe.gov/publication/legumes-symbioses-absence-of-nod-genes-in-photosynthetic-bradyrhizobia/
https://jgi.doe.gov/publication/leptothrix-ochracea-genomes-reveal-potential-for-mixotrophic-growth-on-feii-and-organic-carbon-2/
https://jgi.doe.gov/publication/leptothrix-ochracea-genomes-reveal-potential-for-mixotrophic-growth-on-feii-and-organic-carbon-3/
https://jgi.doe.gov/publication/leptothrix-ochracea-genomes-reveal-potential-for-mixotrophic-growth-on-feii-and-organic-carbon/
https://jgi.doe.gov/publication/lessons-from-two-design-build-test-learn-cycles-of-dodecanol-production-in-escherichia-coli-aided-by-machine-learning/
https://jgi.doe.gov/publication/leucoagaricus-gongylophorus-produces-diverse-enzymes-for-the-degradation-of-recalcitrant-plant-polymers-in-leaf-cutter-ant-fungus-gardens-2/
https://jgi.doe.gov/publication/leveraging-a-structural-blueprint-to-rationally-engineer-the-rieske-oxygenase-tsam/
https://jgi.doe.gov/publication/leveraging-single-cell-genomics-to-expand-the-fungal-tree-of-life/
https://jgi.doe.gov/publication/life-strategies-for-aminicenantia-in-subseafloor-oceanic-crust/
https://jgi.doe.gov/publication/light-responsive-expression-atlas-reveals-the-effects-of-light-quality-and-intensity-in-kalanchoe-fedtschenkoi-a-plant-with-crassulacean-acid-metabolism/
https://jgi.doe.gov/publication/lignin-content-in-natural-populus-variants-affects-sugar-release/
https://jgi.doe.gov/publication/lignin-deconstruction-by-anaerobic-fungi/
https://jgi.doe.gov/publication/lignin-modifying-processes-in-the-rhizosphere-of-arid-land-grasses/
https://jgi.doe.gov/publication/lignocellulose-pretreatment-in-a-fungus-cultivating-termite-2/
https://jgi.doe.gov/publication/lignocellulose-pretreatment-in-a-fungus-cultivating-termite/
https://jgi.doe.gov/publication/lineage-specific-chromatin-signatures-reveal-a-regulator-of-lipid-metabolism-in-microalgae-11/
https://jgi.doe.gov/publication/lineage-specific-imprinting-and-evolution-of-the-zinc-finger-gene-zim2/
https://jgi.doe.gov/publication/linkage-and-association-between-distinct-variants-of-the-apoa1c3a4a5-gene-cluster-and-familial-combined-hyperlipidemia/
https://jgi.doe.gov/publication/linking-secondary-metabolites-to-gene-clusters-through-genome-sequencing-of-six-diverse-aspergillus-species/
https://jgi.doe.gov/publication/lipid-analysis-of-co2-rich-subsurface-aquifers-suggests-an-autotrophy-based-deep-biosphere-with-lysolipids-enriched-in-cpr-bacteria/
https://jgi.doe.gov/publication/lipid-metabolic-changes-in-an-early-divergent-fungus-govern-the-establishment-of-a-mutualistic-symbiosis-with-endobacteria/
https://jgi.doe.gov/publication/liquid-serial-dilution-is-inferior-to-solid-media-for-isolation-of-cultures-representative-of-the-phylum-level-diversity-of-soil-bacteria/
https://jgi.doe.gov/publication/litter-chemistry-influences-decomposition-through-activity-of-specific-microbial-functional-guilds/
https://jgi.doe.gov/publication/local-scale-panmixia-in-the-lichenized-fungus-xanthoria-parietina-contrasts-with-substantial-genetic-structure-in-its-trebouxia-photobionts/
https://jgi.doe.gov/publication/localization-and-regulation-of-mouse-pantothenate-kinase-2/
https://jgi.doe.gov/publication/localized-plasticity-in-the-streamlined-genomes-of-vinyl-chloride-respiring-dehalococcoides-2/
https://jgi.doe.gov/publication/localized-plasticity-in-the-streamlined-genomes-of-vinyl-chloride-respiring-dehalococcoides/
https://jgi.doe.gov/publication/long-read-metagenomics-of-soil-communities-reveals-phylum-specific-secondary-metabolite-dynamics-2/
https://jgi.doe.gov/publication/long-term-crispr-locus-dynamics-and-stable-host-virus-co-existence-in-subsurface-fractured-shales/
https://jgi.doe.gov/publication/long-term-excess-nitrogen-fertilizer-increases-sensitivity-of-soil-microbial-community-to-seasonal-change-revealed-by-ecological-network-and-metagenome-analyses/
https://jgi.doe.gov/publication/long-term-persistence-of-three-microbial-wildfire-biomarkers-in-forest-soils/
https://jgi.doe.gov/publication/long-term-transcriptional-activity-at-zero-growth-of-a-cosmopolitan-rare-biosphere-member/
https://jgi.doe.gov/publication/long-term-warming-modulates-diversity-vertical-structuring-of-microbial-communities-and-sulfate-reduction-in-coastal-baltic-sea-sediments/
https://jgi.doe.gov/publication/lophotrochozoan-mitochondrial-genomes/
https://jgi.doe.gov/publication/low-abundance-populations-distinguish-microbiome-performance-in-plant-cell-wall-deconstruction-2/
https://jgi.doe.gov/publication/lower-viral-evolutionary-pressure-under-stable-versus-fluctuating-conditions-in-subzero-arctic-brines/
https://jgi.doe.gov/publication/luteibacter-mycovicinus-sp-nov-a-yellow-pigmented-gammaproteobacterium-found-as-an-endohyphal-symbiont-of-endophytic-ascomycota-2/
https://jgi.doe.gov/publication/luteibacter-mycovicinus-sp-nov-a-yellow-pigmented-gammaproteobacterium-found-as-an-endohyphal-symbiont-of-endophytic-ascomycota/
https://jgi.doe.gov/publication/lytic-archaeal-viruses-infect-abundant-primary-producers-in-earths-crust/
https://jgi.doe.gov/publication/maast-genotyping-thousands-of-microbial-strains-efficiently/
https://jgi.doe.gov/publication/machine-learning-sheds-light-on-microbial-dark-proteins-2/
https://jgi.doe.gov/publication/machine-learning-sheds-light-on-microbial-dark-proteins-3/
https://jgi.doe.gov/publication/machine-learning-sheds-light-on-microbial-dark-proteins/
https://jgi.doe.gov/publication/magi-a-method-for-metabolite-annotation-and-gene-integration/
https://jgi.doe.gov/publication/major-changes-in-microbial-diversity-and-community-composition-across-gut-sections-of-a-juvenile-panchlora-cockroach-2/
https://jgi.doe.gov/publication/major-changes-in-microbial-diversity-and-community-composition-across-gut-sections-of-a-juvenile-panchlora-cockroach/
https://jgi.doe.gov/publication/major-impacts-of-widespread-structural-variation-on-sorghum/
https://jgi.doe.gov/publication/major-proliferation-of-transposable-elements-shaped-the-genome-of-the-soybean-rust-pathogen-phakopsora-pachyrhizi/
https://jgi.doe.gov/publication/major-role-of-nitrite-oxidizing-bacteria-in-dark-ocean-carbon-fixation/
https://jgi.doe.gov/publication/maninetcluster-a-novel-manifold-learning-approach-to-reveal-the-functional-links-between-gene-networks/
https://jgi.doe.gov/publication/manipulating-the-3d-organization-of-the-largest-synthetic-yeast-chromosome-2/
https://jgi.doe.gov/publication/manipulating-the-3d-organization-of-the-largest-synthetic-yeast-chromosome-3/
https://jgi.doe.gov/publication/manipulating-the-3d-organization-of-the-largest-synthetic-yeast-chromosome/
https://jgi.doe.gov/publication/mapping-n-linked-glycosylation-sites-in-the-secretome-and-whole-cells-of-aspergillus-niger-using-hydrazide-chemistry-and-mass-spectrometry/
https://jgi.doe.gov/publication/mapping-the-burkholderia-cenocepacia-niche-response-via-high-throughput-sequencing/
https://jgi.doe.gov/publication/mapping-the-microbiome-milieu/
https://jgi.doe.gov/publication/marine-algae-and-land-plants-share-conserved-phytochrome-signaling-systems/
https://jgi.doe.gov/publication/marine-dna-methylation-patterns-are-associated-with-microbial-community-composition-and-inform-virus-host-dynamics-2/
https://jgi.doe.gov/publication/marine-proteobacteria-metabolize-glycolate-via-the-beta-hydroxyaspartate-cycle/
https://jgi.doe.gov/publication/marine-synechococcus-isolates-representing-globally-abundant-genomic-lineages-demonstrate-a-unique-evolutionary-path-of-genome-reduction-without-a-decrease-in-gc-content/
https://jgi.doe.gov/publication/marker-free-carotenoid-enriched-rice-generated-through-targeted-gene-insertion-using-crispr-cas9/
https://jgi.doe.gov/publication/marsarchaeota-are-an-aerobic-archaeal-lineage-abundant-in-geothermal-iron-oxide-microbial-mats/
https://jgi.doe.gov/publication/marvd2-a-machine-learning-enhanced-tool-to-discriminate-between-archaeal-and-bacterial-viruses-in-viral-datasets/
https://jgi.doe.gov/publication/mass-spectrometry-imaging-based-assays-for-aminotransferase-activity-reveal-a-broad-substrate-spectrum-for-a-previously-uncharacterized-enzyme/
https://jgi.doe.gov/publication/massive-changes-in-genome-architecture-accompany-the-transition-to-self-fertility-in-the-filamentous-fungus-neurospora-tetrasperma/
https://jgi.doe.gov/publication/massive-lateral-transfer-of-genes-encoding-plant-cell-wall-degrading-enzymes-to-the-mycoparasitic-fungus-trichoderma-from-its-plant-associated-hosts/
https://jgi.doe.gov/publication/massively-parallel-sequencing-identifies-the-gene-megf8-with-enu-induced-mutation-causing-heterotaxy/
https://jgi.doe.gov/publication/maxbin-an-automated-binning-method-to-recover-individual-genomes-from-metagenomes-using-an-expectation-maximization-algorithm/
https://jgi.doe.gov/publication/mcr-dependent-methanogenesis-in-archaeoglobaceae-enriched-from-a-terrestrial-hot-spring/
https://jgi.doe.gov/publication/meanders-as-a-scaling-motif-for-understanding-of-floodplain-soil-microbiome-and-biogeochemical-potential-at-the-watershed-scale/
https://jgi.doe.gov/publication/measurement-of-bacterial-replication-rates-in-microbial-communities/
https://jgi.doe.gov/publication/mechanically-induced-localisation-of-secondary-wall-interacting-bzip-is-associated-with-thigmomorphogenic-and-secondary-cell-wall-gene-expression-2/
https://jgi.doe.gov/publication/mechanically-induced-localisation-of-secondary-wall-interacting-bzip-is-associated-with-thigmomorphogenic-and-secondary-cell-wall-gene-expression/
https://jgi.doe.gov/publication/mechanisms-of-manganeseii-oxidation-by-filamentous-ascomycete-fungi-vary-with-species-and-time-as-a-function-of-secretome-composition/
https://jgi.doe.gov/publication/mechanisms-of-thermal-adaptation-revealed-from-the-genomes-of-the-antarctic-archaea-methanogenium-frigidum-and-methanococcoides-burtonii/
https://jgi.doe.gov/publication/mechanistic-insights-into-consumption-of-the-food-additive-xanthan-gum-by-the-human-gut-microbiota-2/
https://jgi.doe.gov/publication/mecors-metagenome-enabled-error-correction-of-single-cell-sequencing-reads/
https://jgi.doe.gov/publication/mediation-of-plant-mycorrhizal-interaction-by-a-lectin-receptor-like-kinase/
https://jgi.doe.gov/publication/medicago-root-nodule-microbiomes-insights-into-a-complex-ecosystem-with-potential-candidates-for-plant-growth-promotion-2/
https://jgi.doe.gov/publication/mediterranean-grassland-soil-c-n-compound-turnover-is-dependent-on-rainfall-and-depth-and-is-mediated-by-genomically-divergent-microorganisms/
https://jgi.doe.gov/publication/medium-chain-fatty-acid-synthesis-by-candidatus-weimeria-bifida-gen-nov-sp-nov-and-candidatus-pseudoramibacter-fermentans-sp-nov/
https://jgi.doe.gov/publication/medusozoan-phylogeny-and-character-evolution-clarified-by-new-large-and-small-subunit-rdna-data-and-an-assessment-of-the-utility-of-phylogenetic-mixture-models-2/
https://jgi.doe.gov/publication/medusozoan-phylogeny-and-character-evolution-clarified-by-new-large-and-small-subunit-rdna-data-and-an-assessment-of-the-utility-of-phylogenetic-mixture-models/
https://jgi.doe.gov/publication/meeting-report-from-the-genomic-standards-consortium-gsc-workshop-8/
https://jgi.doe.gov/publication/meeting-report-from-the-genomic-standards-consortium-gsc-workshops-6-and-7/
https://jgi.doe.gov/publication/meeting-report-metagenomics-metadata-and-meta-analysis-m3-workshop-at-the-pacific-symposium-on-biocomputing-2010/
https://jgi.doe.gov/publication/megabase-deletions-of-gene-deserts-result-in-viable-mice/
https://jgi.doe.gov/publication/megaphylogeny-resolves-global-patterns-of-mushroom-evolution/
https://jgi.doe.gov/publication/members-of-the-genus-methylobacter-are-inferred-to-account-for-the-majority-of-aerobic-methane-oxidation-in-oxic-soils-from-a-freshwater-wetland/
https://jgi.doe.gov/publication/membrane-bioreactor-pretreatment-of-high-salinity-og-produced-water-2/
https://jgi.doe.gov/publication/membrane-lipid-and-expression-responses-of-saccharolobus-islandicus-rey15a-to-acid-and-cold-stress/
https://jgi.doe.gov/publication/meraculous-de-novo-genome-assembly-with-short-paired-end-reads/
https://jgi.doe.gov/publication/mercury-methylation-by-metabolically-versatile-and-cosmopolitan-marine-bacteria/
https://jgi.doe.gov/publication/mesophilic-and-thermophilic-conditions-select-for-unique-but-highly-parallel-microbial-communities-to-perform-carboxylate-platform-biomass-conversion/
https://jgi.doe.gov/publication/meta-omics-survey-of-nife-hydrogenase-genes-fails-to-capture-drastic-variations-in-h-2-oxidation-activity-measured-in-three-soils-exposed-to-h-2/
https://jgi.doe.gov/publication/metabat-2-an-adaptive-binning-algorithm-for-robust-and-efficient-genome-reconstruction-from-metagenome-assemblies/
https://jgi.doe.gov/publication/metabat-an-efficient-tool-for-accurately-reconstructing-single-genomes-from-complex-microbial-communities/
https://jgi.doe.gov/publication/metabolic-analysis-of-the-soil-microbe-dechloromonas-aromatica-str-rcb-indications-of-a-surprisingly-complex-life-style-and-cryptic-anaerobic-pathways-for-aromatic-degradation/
https://jgi.doe.gov/publication/metabolic-dependencies-govern-microbial-syntrophies-during-methanogenesis-in-an-anaerobic-digestion-ecosystem/
https://jgi.doe.gov/publication/metabolic-engineering-for-valorization-of-macroalgae-biomass-2/
https://jgi.doe.gov/publication/metabolic-engineering-of-clostridium-thermocellum-for-n-butanol-production-from-cellulose/
https://jgi.doe.gov/publication/metabolic-engineering-of-low-ph-tolerant-non-model-yeast-issatchenkia-orientalis-for-production-of-citramalate/
https://jgi.doe.gov/publication/metabolic-model-predictions-enable-targeted-microbiome-manipulation-through-precision-prebiotics/
https://jgi.doe.gov/publication/metabolic-modeling-of-fungi-2/
https://jgi.doe.gov/publication/metabolic-network-analysis-and-metatranscriptomics-reveal-auxotrophies-and-nutrient-sources-of-the-cosmopolitan-freshwater-microbial-lineage-aci/
https://jgi.doe.gov/publication/metabolic-patterns-in-septoria-canker-resistant-and-susceptible-populus-trichocarpa-genotypes-24-hours-post-inoculation/
https://jgi.doe.gov/publication/metabolic-potential-for-reductive-acetogenesis-and-a-novel-energy-converting-nife-hydrogenase-in-bathyarchaeia-from-termite-guts-a-genome-centric-analysis/
https://jgi.doe.gov/publication/metabolic-potential-of-a-single-cell-belonging-to-one-of-the-most-abundant-lineages-in-freshwater-bacterioplankton/
https://jgi.doe.gov/publication/metabolic-reprogramming-by-viruses-in-the-sunlit-and-dark-ocean-2/
https://jgi.doe.gov/publication/metabolic-reprogramming-by-viruses-in-the-sunlit-and-dark-ocean/
https://jgi.doe.gov/publication/metabolic-versatility-of-small-archaea-micrarchaeota-and-parvarchaeota/
https://jgi.doe.gov/publication/metabolic-versatility-of-the-nitrite-oxidizing-bacterium-nitrospira-marina-and-its-proteomic-response-to-oxygen-limited-conditions/
https://jgi.doe.gov/publication/metabolite-release-by-nitrifiers-facilitates-metabolic-interactions-in-the-ocean-2/
https://jgi.doe.gov/publication/metabolite-release-by-nitrifiers-facilitates-metabolic-interactions-in-the-ocean-3/
https://jgi.doe.gov/publication/metabolite-release-by-nitrifiers-facilitates-metabolic-interactions-in-the-ocean/
https://jgi.doe.gov/publication/metabolomic-photoprotective-and-photosynthetic-acclimatory-responses-to-post%e2%80%90flowering-drought-in-sorghum-2/
https://jgi.doe.gov/publication/metabolomic-photoprotective-and-photosynthetic-acclimatory-responses-to-post%e2%80%90flowering-drought-in-sorghum-3/
https://jgi.doe.gov/publication/metabolomic-photoprotective-and-photosynthetic-acclimatory-responses-to-post%e2%80%90flowering-drought-in-sorghum/
https://jgi.doe.gov/publication/metabolomics-of-sorghum-roots-during-nitrogen-stress-reveals-compromised-metabolic-capacity-for-salicylic-acid-biosynthesis/
https://jgi.doe.gov/publication/metabotyping-as-a-stopover-in-genome-to-phenome-mapping/
https://jgi.doe.gov/publication/metagenome-assembled-bacterial-genomes-from-benthic-microbial-mats-in-ice-covered-lake-vanda-antarctica-2/
https://jgi.doe.gov/publication/metagenome-assembled-bacterial-genomes-from-benthic-microbial-mats-in-ice-covered-lake-vanda-antarctica/
https://jgi.doe.gov/publication/metagenome-assembled-genomes-for-candidatus-phormidium-sp-strain-ab48-and-co-occurring-microorganisms-from-an-industrial-photobioreactor-environment-2/
https://jgi.doe.gov/publication/metagenome-assembled-genomes-from-a-microbiome-converting-xylose-to-medium-chain-carboxylic-acids-2/
https://jgi.doe.gov/publication/metagenome-assembled-genomes-from-a-microbiome-grown-in-dairy-manure-hydrolysate-2/
https://jgi.doe.gov/publication/metagenome-assembled-genomes-from-microbiomes-fermenting-dairy-coproducts-2/
https://jgi.doe.gov/publication/metagenome-assembled-genomes-from-microbiomes-fermenting-dairy-coproducts-3/
https://jgi.doe.gov/publication/metagenome-assembled-genomes-from-microbiomes-fermenting-dairy-coproducts/
https://jgi.doe.gov/publication/metagenome-assembled-genomes-of-phytoplankton-microbiomes-from-the-arctic-and-atlantic-oceans-2/
https://jgi.doe.gov/publication/metagenome-metatranscriptome-and-single-cell-sequencing-reveal-microbial-response-to-deepwater-horizon-oil-spill/
https://jgi.doe.gov/publication/metagenome-of-a-versatile-chemolithoautotroph-from-expanding-oceanic-dead-zones-2/
https://jgi.doe.gov/publication/metagenome-of-a-versatile-chemolithoautotroph-from-expanding-oceanic-dead-zones/
https://jgi.doe.gov/publication/metagenome-sequence-analysis-of-filamentous-microbial-communities-obtained-from-geochemically-distinct-geothermal-channels-reveals-specialization-of-three-aquificales-lineages/
https://jgi.doe.gov/publication/metagenome-sequencing-to-explore-phylogenomics-of-terrestrial-cyanobacteria/
https://jgi.doe.gov/publication/metagenomes-and-metagenome-assembled-genomes-from-microbial-communities-fermenting-ultrafiltered-milk-permeate-2/
https://jgi.doe.gov/publication/metagenomes-and-metagenome-assembled-genomes-from-microbiomes-metabolizing-thin-stillage-from-an-ethanol-biorefinery-2/
https://jgi.doe.gov/publication/metagenomes-and-metagenome-assembled-genomes-from-substrate-amended-hot-spring-sediment-incubations-from-yellowstone-national-park-2/
https://jgi.doe.gov/publication/metagenomes-and-metatranscriptomes-from-boreal-potential-and-actual-acid-sulfate-soil-materials/
https://jgi.doe.gov/publication/metagenomes-and-metatranscriptomes-of-a-glucose-amended-agricultural-soil/
https://jgi.doe.gov/publication/metagenomes-from-arctic-soil-microbial-communities-from-the-barrow-environmental-observatory-utqiagvik-ak-usa-2/
https://jgi.doe.gov/publication/metagenomes-from-experimental-hydrologic-manipulation-of-restored-coastal-plain-wetland-soils-tyrell-county-north-carolina/
https://jgi.doe.gov/publication/metagenomes-from-two-microbial-consortia-associated-with-santa-barbara-seep-oil/
https://jgi.doe.gov/publication/metagenomes-in-the-borderline-ecosystems-of-the-antarctic-cryptoendolithic-communities/
https://jgi.doe.gov/publication/metagenomes-metatranscriptomes-and-metagenome-assembled-genomes-from-chesapeake-and-delaware-bay-usa-water-samples/
https://jgi.doe.gov/publication/metagenomic-analysis-of-a-permafrost-microbial-community-reveals-a-rapid-response-to-thaw-2/
https://jgi.doe.gov/publication/metagenomic-analysis-of-a-permafrost-microbial-community-reveals-a-rapid-response-to-thaw/
https://jgi.doe.gov/publication/metagenomic-analysis-of-a-stable-trichloroethene-degrading-microbial-community/
https://jgi.doe.gov/publication/metagenomic-analysis-of-intertidal-hypersaline-microbial-mats-from-elkhorn-slough-california-grown-with-and-without-molybdate/
https://jgi.doe.gov/publication/metagenomic-analysis-of-microbial-consortium-from-natural-crude-oil-that-seeps-into-the-marine-ecosystem-offshore-southern-california/
https://jgi.doe.gov/publication/metagenomic-analysis-of-subtidal-sediments-from-polar-and-subpolar-coastal-environments-highlights-the-relevance-of-anaerobic-hydrocarbon-degradation-processes/
https://jgi.doe.gov/publication/metagenomic-analysis-of-two-enhanced-biological-phosphorus-removal-ebpr-sludge-communities/
https://jgi.doe.gov/publication/metagenomic-and-functional-analysis-of-hindgut-microbiota-of-a-wood-feeding-higher-termite-2/
https://jgi.doe.gov/publication/metagenomic-and-functional-analysis-of-hindgut-microbiota-of-a-wood-feeding-higher-termite/
https://jgi.doe.gov/publication/metagenomic-and-metaproteomic-insights-into-bacterial-communities-in-leaf-cutter-ant-fungus-gardens/
https://jgi.doe.gov/publication/metagenomic-and-metatranscriptomic-analyses-reveal-structure-and-dynamics-of-a-dechlorinating-community-containing-dehalococcoides-mccartyi-and-corrinoid-providing-microorganisms-under-cobalamin-limit/
https://jgi.doe.gov/publication/metagenomic-and-metatranscriptomic-analyses-revealed-uncultured-bacteroidales-populations-as-the-dominant-proteolytic-amino-acid-degraders-in-anaerobic-digesters/
https://jgi.doe.gov/publication/metagenomic-binning-of-a-marine-sponge-microbiome-reveals-unity-in-defense-but-metabolic-specialization/
https://jgi.doe.gov/publication/metagenomic-compendium-of-189680-dna-viruses-from-the-human-gut-microbiome/
https://jgi.doe.gov/publication/metagenomic-discovery-of-biomass-degrading-genes-and-genomes-from-cow-rumen/
https://jgi.doe.gov/publication/metagenomic-insights-into-diazotrophic-communities-across-arctic-glacier-forefields/
https://jgi.doe.gov/publication/metagenomic-insights-into-evolution-of-a-heavy-metal-contaminated-groundwater-microbial-community/
https://jgi.doe.gov/publication/metagenomic-insights-into-the-taxonomy-function-and-dysbiosis-of-prokaryotic-communities-in-octocorals/
https://jgi.doe.gov/publication/metagenomic-insights-into-the-uncultured-diversity-and-physiology-of-microbes-in-four-hypersaline-soda-lake-brines/
https://jgi.doe.gov/publication/metagenomic-investigation-of-the-geologically-unique-hellenic-volcanic-arc-reveals-a-distinctive-ecosystem-with-unexpected-physiology/
https://jgi.doe.gov/publication/metagenomic-methods-for-addressing-nasas-planetary-protection-policy-requirements-on-future-missions-a-workshop-report/
https://jgi.doe.gov/publication/metagenomic-profiling-reveals-lignocellulose-degrading-system-in-a-microbial-community-associated-with-a-wood-feeding-beetle/
https://jgi.doe.gov/publication/metagenomic-reconstruction-of-nitrogen-and-carbon-cycling-pathways-in-forest-soil-influence-of-different-hardwood-tree-species/
https://jgi.doe.gov/publication/metagenomic-reconstructions-of-bacterial-crispr-loci-constrain-population-histories-11/
https://jgi.doe.gov/publication/metagenomic-sequencing-of-an-in-vitro-simulated-microbial-community/
https://jgi.doe.gov/publication/metagenomic-sequencing-of-two-salton-sea-microbiomes/
https://jgi.doe.gov/publication/metagenomic-stable-isotope-probing-reveals-bacteriophage-participation-in-soil-carbon-cycling/
https://jgi.doe.gov/publication/metagenomics-in-virology-2/
https://jgi.doe.gov/publication/metagenomics-resolved-genomics-provides-novel-insights-into-chitin-turnover-metabolic-specialization-and-niche-partitioning-in-the-octocoral-microbiome-2/
https://jgi.doe.gov/publication/metagenomics-reveals-niche-partitioning-within-the-phototrophic-zone-of-a-microbial-mat/
https://jgi.doe.gov/publication/metagenomics-uncovers-gaps-in-amplicon-based-detection-of-microbial-diversity/
https://jgi.doe.gov/publication/metagenomics-untangles-potential-adaptations-of-antarctic-endolithic-bacteria-at-the-fringe-of-habitability/
https://jgi.doe.gov/publication/metahcr-a-web-enabled-metagenome-data-management-system-for-hydrocarbon-resources/
https://jgi.doe.gov/publication/metapangenomics-reveals-depth-dependent-shifts-in-metabolic-potential-for-the-ubiquitous-marine-bacterial-sar324-lineage/
https://jgi.doe.gov/publication/metaproteomics-method-to-determine-carbon-sources-and-assimilation-pathways-of-species-in-microbial-communities/
https://jgi.doe.gov/publication/metatranscriptomes-of-california-grassland-soil-microbial-communities-in-response-to-rewetting-2/
https://jgi.doe.gov/publication/metatranscriptomes-of-california-grassland-soil-microbial-communities-in-response-to-rewetting/
https://jgi.doe.gov/publication/metatranscriptomes-of-two-biological-soil-crust-types-from-the-mojave-desert-in-response-to-wetting/
https://jgi.doe.gov/publication/metatranscriptomic-analyses-of-diel-metabolic-functions-during-a-microcystis-bloom-in-western-lake-erie-united-states/
https://jgi.doe.gov/publication/metatranscriptomic-analysis-of-lignocellulolytic-microbial-communities-involved-in-high-solids-decomposition-of-rice-straw-11/
https://jgi.doe.gov/publication/metatranscriptomic-analysis-reveals-dissimilarity-in-viral-community-activity-between-an-ice-free-and-ice-covered-winter-in-lake-erie-2/
https://jgi.doe.gov/publication/metatranscriptomic-analysis-reveals-dissimilarity-in-viral-community-activity-between-an-ice-free-and-ice-covered-winter-in-lake-erie-3/
https://jgi.doe.gov/publication/metatranscriptomic-analysis-reveals-dissimilarity-in-viral-community-activity-between-an-ice-free-and-ice-covered-winter-in-lake-erie/
https://jgi.doe.gov/publication/metatranscriptomic-array-analysis-of-candidatus-accumulibacter-phosphatis-enriched-enhanced-biological-phosphorus-removal-sludge/
https://jgi.doe.gov/publication/metatranscriptomic-insights-on-gene-expression-and-regulatory-controls-in-candidatus-accumulibacter-phosphatis/
https://jgi.doe.gov/publication/metatranscriptomic-reconstruction-reveals-rna-viruses-with-the-potential-to-shape-carbon-cycling-in-soil/
https://jgi.doe.gov/publication/metatranscriptomic-sequencing-of-a-cyanobacterial-soil-surface-consortium-with-and-without-a-diverse-underlying-soil-microbiome/
https://jgi.doe.gov/publication/metatranscriptomic-sequencing-of-winter-and-spring-planktonic-communities-from-lake-erie-a-laurentian-great-lake-2/
https://jgi.doe.gov/publication/metatranscriptomics-sheds-light-on-the-links-between-the-functional-traits-of-fungal-guilds-and-ecological-processes-in-forest-soil-ecosystems/
https://jgi.doe.gov/publication/methane-cycling-microbial-community-characteristics-comparing-natural-actively-extracted-restored-and-unrestored-boreal-peatlands/
https://jgi.doe.gov/publication/methane-derived-carbon-flows-into-host-virus-networks-at-different-trophic-levels-in-soil-2/
https://jgi.doe.gov/publication/methane-oxidizing-activity-enhances-sulfamethoxazole-biotransformation-in-a-benthic-constructed-wetland-biomat/
https://jgi.doe.gov/publication/methane-yield-phenotypes-linked-to-differential-gene-expression-in-the-sheep-rumen-microbiome/
https://jgi.doe.gov/publication/methanogenesis-and-salt-tolerance-genes-of-a-novel-halophilic-methanosarcinaceae-metagenome-assembled-genome-from-a-former-solar-saltern-2/
https://jgi.doe.gov/publication/methanogenesis-in-oxygenated-soils-is-a-substantial-fraction-of-wetland-methane-emissions/
https://jgi.doe.gov/publication/methanolobus-use-unspecific-methyltransferases-to-produce-methane-from-dimethylsulphide-in-baltic-sea-sediments/
https://jgi.doe.gov/publication/methanomethylovorans-are-the-dominant-dimethylsulfide-degrading-methanogens-in-gravel-and-sandy-river-sediment-microcosms-2/
https://jgi.doe.gov/publication/methanomethylovorans-are-the-dominant-dimethylsulfide-degrading-methanogens-in-gravel-and-sandy-river-sediment-microcosms-3/
https://jgi.doe.gov/publication/methanomethylovorans-are-the-dominant-dimethylsulfide-degrading-methanogens-in-gravel-and-sandy-river-sediment-microcosms/
https://jgi.doe.gov/publication/methods-for-obtaining-and-analyzing-whole-chloroplast-genome-sequences/
https://jgi.doe.gov/publication/methyl-based-methanogenesis-an-ecological-and-genomic-review/
https://jgi.doe.gov/publication/methyl-reducing-methanogenesis-by-a-thermophilic-culture-of-korarchaeia-2/
https://jgi.doe.gov/publication/methyl-reducing-methanogenesis-by-a-thermophilic-culture-of-korarchaeia-3/
https://jgi.doe.gov/publication/methyl-reducing-methanogenesis-by-a-thermophilic-culture-of-korarchaeia/
https://jgi.doe.gov/publication/methylglucosylation-of-aromatic-amino-and-phenolic-moieties-of-drug-like-biosynthons-by-combinatorial-biosynthesis/
https://jgi.doe.gov/publication/methylome-and-complete-genome-sequence-of-parageobacillus-toebii-dsm-14590t-a-thermophilic-bacterium/
https://jgi.doe.gov/publication/methylotrophy-in-the-mire-direct-and-indirect-routes-for-methane-production-in-thawing-permafrost/
https://jgi.doe.gov/publication/methylphosphonate-degradation-and-salt-tolerance-genes-of-two-novel-halophilic-marivita-metagenome-assembled-genomes-from-unrestored-solar-salterns-2/
https://jgi.doe.gov/publication/mibig-3-0-a-community-driven-effort-to-annotate-experimentally-validated-biosynthetic-gene-clusters-2/
https://jgi.doe.gov/publication/microbes-and-climate-change-a-research-prospectus-for-the-future-2/
https://jgi.doe.gov/publication/microbes-in-thawing-permafrost-the-unknown-variable-in-the-climate-change-equation/
https://jgi.doe.gov/publication/microbial-adaptability-in-changing-environments-2/
https://jgi.doe.gov/publication/microbial-adaptability-in-changing-environments/
https://jgi.doe.gov/publication/microbial-biogeography-putting-microorganisms-on-the-map/
https://jgi.doe.gov/publication/microbial-co-habitation-and-lateral-gene-transfer-what-transposases-can-tell-us/
https://jgi.doe.gov/publication/microbial-colonization-and-persistence-in-deep-fractured-shales-is-guided-by-metabolic-exchanges-and-viral-predation-2/
https://jgi.doe.gov/publication/microbial-communities-and-biogeochemical-functioning-across-peatlands-in-the-athabasca-oil-sands-region-of-canada-implications-for-reclamation-and-management-2/
https://jgi.doe.gov/publication/microbial-communities-of-the-laurentian-great-lakes-reflect-connectivity-and-local-biogeochemistry/
https://jgi.doe.gov/publication/microbial-community-analysis-of-three-hydrocarbon-reservoir-cores-provides-valuable-insights-for-the-assessment-of-reservoir-souring-potential/
https://jgi.doe.gov/publication/microbial-community-field-surveys-reveal-abundant-pseudomonas-population-in-sorghum-rhizosphere-composed-of-many-closely-related-phylotypes/
https://jgi.doe.gov/publication/microbial-community-shifts-during-the-annual-operation-of-messolonghi-solar-saltern-greece-2/
https://jgi.doe.gov/publication/microbial-community-shifts-during-the-annual-operation-of-messolonghi-solar-saltern-greece/
https://jgi.doe.gov/publication/microbial-community-structure-and-functional-potential-along-a-hypersaline-gradient/
https://jgi.doe.gov/publication/microbial-community-structure-and-functional-potential-in-cultivated-and-native-tallgrass-prairie-soils-of-the-midwestern-united-states/
https://jgi.doe.gov/publication/microbial-community-transcriptomes-reveal-microbes-and-metabolic-pathways-associated-with-dissolved-organic-matter-turnover-in-the-sea/
https://jgi.doe.gov/publication/microbial-dark-matter-ecogenomics-reveals-complex-synergistic-networks-in-a-methanogenic-bioreactor/
https://jgi.doe.gov/publication/microbial-diversity-for-biotechnology/
https://jgi.doe.gov/publication/microbial-drivers-of-methane-emissions-from-unrestored-industrial-salt-ponds/
https://jgi.doe.gov/publication/microbial-ecology-and-site-characteristics-underlie-differences-in-salinity%e2%80%90methane-relationships-in-coastal-wetlands-2/
https://jgi.doe.gov/publication/microbial-ecology-and-site-characteristics-underlie-differences-in-salinity%e2%80%90methane-relationships-in-coastal-wetlands/
https://jgi.doe.gov/publication/microbial-ecology-in-a-changing-climate/
https://jgi.doe.gov/publication/microbial-ecology-of-an-antarctic-hypersaline-lake-genomic-assessment-of-ecophysiology-among-dominant-haloarchaea/
https://jgi.doe.gov/publication/microbial-ecology-on-solar-panels-in-berkeley-ca-united-states/
https://jgi.doe.gov/publication/microbial-functional-diversity-across-biogeochemical-provinces-in-the-central-pacific-ocean-2/
https://jgi.doe.gov/publication/microbial-genome-data-resources/
https://jgi.doe.gov/publication/microbial-life-under-ice-metagenome-diversity-and-in-situ-activity-of-verrucomicrobia-in-seasonally-ice-covered-lakes/
https://jgi.doe.gov/publication/microbial-metabolisms-in-a-2-5-km-deep-ecosystem-created-by-hydraulic-fracturing-in-shales/
https://jgi.doe.gov/publication/microbial-metagenomes-and-metatranscriptomes-during-a-coastal-phytoplankton-bloom/
https://jgi.doe.gov/publication/microbial-polyphenol-metabolism-is-part-of-the-thawing-permafrost-carbon-cycle-2/
https://jgi.doe.gov/publication/microbial-polyphenol-metabolism-is-part-of-the-thawing-permafrost-carbon-cycle/
https://jgi.doe.gov/publication/microbial-responses-to-long-term-warming-differ-across-soil-microenvironments-2/
https://jgi.doe.gov/publication/microbial-responses-to-long-term-warming-differ-across-soil-microenvironments/
https://jgi.doe.gov/publication/microbial-sensitivity-to-temperature-and-sulfate-deposition-modulates-greenhouse-gas-emissions-from-peat-soils/
https://jgi.doe.gov/publication/microbial-species-delineation-using-whole-genome-sequences-11/
https://jgi.doe.gov/publication/microbiology-metagenomics/
https://jgi.doe.gov/publication/microbiome-a-unified-initiative-to-harness-earths-microbiomes/
https://jgi.doe.gov/publication/microbiome-composition-modulates-secondary-metabolism-in-a-multispecies-bacterial-community-2/
https://jgi.doe.gov/publication/microbiome-data-science-understanding-our-microbial-planet/
https://jgi.doe.gov/publication/microbiome-engineering-for-sustainable-agriculture-using-synthetic-biology-to-enhance-nitrogen-metabolism-in-plant-associated-microbes-2/
https://jgi.doe.gov/publication/microbiome-engineering-synthetic-biology-of-plant-associated-microbiomes-in-sustainable-agriculture/
https://jgi.doe.gov/publication/microbiomes-of-velloziaceae-from-phosphorus-impoverished-soils-of-the-campos-rupestres-a-biodiversity-hotspot/
https://jgi.doe.gov/publication/microfabrication-of-a-chamber-for-high-resolution-in-situ-imaging-of-the-whole-root-for-plant-microbe-interactions/
https://jgi.doe.gov/publication/microfluidic-based-mini-metagenomics-enables-discovery-of-novel-microbial-lineages-from-complex-environmental-samples/
https://jgi.doe.gov/publication/microorganisms-involved-in-methylmercury-demethylation-and-mercury-reduction-are-widely-distributed-and-active-in-the-bathypelagic-deep-ocean-waters-2/
https://jgi.doe.gov/publication/microorganisms-involved-in-methylmercury-demethylation-and-mercury-reduction-are-widely-distributed-and-active-in-the-bathypelagic-deep-ocean-waters-3/
https://jgi.doe.gov/publication/microorganisms-involved-in-methylmercury-demethylation-and-mercury-reduction-are-widely-distributed-and-active-in-the-bathypelagic-deep-ocean-waters/
https://jgi.doe.gov/publication/microsatellite-discovery-from-bac-end-sequences-and-genetic-mapping-to-anchor-the-soybean-physical-and-genetic-maps/
https://jgi.doe.gov/publication/microsyn-a-user-friendly-tool-for-detection-of-microsynteny-in-a-gene-family/
https://jgi.doe.gov/publication/microtopography-matters-belowground-ch4-cycling-regulated-by-differing-microbial-processes-in-peatland-hummocks-and-lawns-2/
https://jgi.doe.gov/publication/mieux-connaitre-les-virus-presents-sur-terre-grace-aux-metagenomes/
https://jgi.doe.gov/publication/millimeter-scale-genetic-gradients-and-community-level-molecular-convergence-in-a-hypersaline-microbial-mat/
https://jgi.doe.gov/publication/minimum-information-about-a-biosynthetic-gene-cluster-11/
https://jgi.doe.gov/publication/minimum-information-about-a-marker-gene-sequence-mimarks-and-minimum-information-about-any-x-sequence-mixs-specifications/
https://jgi.doe.gov/publication/minimum-information-about-a-single-amplified-genome-misag-and-a-metagenome-assembled-genome-mimag-of-bacteria-and-archaea/
https://jgi.doe.gov/publication/minimum-information-about-an-uncultivated-virus-genome-miuvig/
https://jgi.doe.gov/publication/mining-metatranscriptomes-reveals-a-vast-world-of-viroid-like-circular-rnas/
https://jgi.doe.gov/publication/mitochondrial-atp-generation-is-more-proteome-efficient-than-glycolysis/
https://jgi.doe.gov/publication/mitochondrial-genome-data-support-the-basal-position-of-acoelomorpha-and-the-polyphyly-of-the-platyhelminthes/
https://jgi.doe.gov/publication/mitochondrial-genome-sequences-and-comparative-genomics-of-phytophthora-ramorum-and-p-sojae/
https://jgi.doe.gov/publication/mitovirus-and-mitochondrial-coding-sequences-from-basal-fungus-entomophthora-muscae/
https://jgi.doe.gov/publication/mixed-linkage-glucan-is-the-main-carbohydrate-source-and-starch-is-an-alternative-source-during-brachypodium-grain-germination/
https://jgi.doe.gov/publication/mixotrophic-iron-oxidizing-thiomonas-isolates-from-an-acid-mine-drainage-affected-creek/
https://jgi.doe.gov/publication/mixs-hcr-a-mixs-extension-defining-a-minimal-information-standard-for-sequence-data-from-environments-pertaining-to-hydrocarbon-resources/
https://jgi.doe.gov/publication/mixtures-of-aromatic-compounds-induce-ligninolytic-gene-expression-in-the-wood-rotting-fungus-dichomitus-squalens/
https://jgi.doe.gov/publication/mo-than-meets-the-eye-genomic-insights-into-molybdoenzyme-diversity-of-seleniivibrio-woodruffii-strain-s4t-2/
https://jgi.doe.gov/publication/mo-than-meets-the-eye-genomic-insights-into-molybdoenzyme-diversity-of-seleniivibrio-woodruffii-strain-s4t/
https://jgi.doe.gov/publication/mobile-genetic-elements-in-the-bacterial-phylum-acidobacteria/
https://jgi.doe.gov/publication/mobile-mute-specifies-subsidiary-cells-to-build-physiologically-improved-grass-stomata/
https://jgi.doe.gov/publication/model-choice-missing-data-and-taxon-sampling-impact-phylogenomic-inference-of-deep-basidiomycota-relationships/
https://jgi.doe.gov/publication/model-communities-hint-at-promiscuous-metabolic-linkages-between-ubiquitous-free-living-freshwater-bacteria/
https://jgi.doe.gov/publication/moderate-high-temperature-is-beneficial-or-detrimental-depending-on-carbon-availability-in-the-green-alga-chlamydomonas-reinhardtii-2/
https://jgi.doe.gov/publication/moderate-high-temperature-is-beneficial-or-detrimental-depending-on-carbon-availability-in-the-green-alga-chlamydomonas-reinhardtii-3/
https://jgi.doe.gov/publication/moderate-high-temperature-is-beneficial-or-detrimental-depending-on-carbon-availability-in-the-green-alga-chlamydomonas-reinhardtii/
https://jgi.doe.gov/publication/modular-cell-free-expression-plasmids-to-accelerate-biological-design-in-cells/
https://jgi.doe.gov/publication/modulation-of-plant-and-fungal-gene-expression-upon-cd-exposure-and-symbiosis-in-ericoid-mycorrhizal-vaccinium-myrtillus/
https://jgi.doe.gov/publication/modulation-of-sensory-perception-by-hydrogen-peroxide-enables-caenorhabditis-elegans-to-find-a-niche-that-provides-both-food-and-protection-from-hydrogen-peroxide-2/
https://jgi.doe.gov/publication/molecular-characterization-of-l-413c-a-p2-related-plague-diagnostic-bacteriophage/
https://jgi.doe.gov/publication/molecular-evolution-and-recombination-in-gender-associated-mitochondrial-dnas-of-the-manila-clam-tapes-philippinarum/
https://jgi.doe.gov/publication/molecular-evolutionary-consequences-of-niche-restriction-in-francisella-tularensis-a-facultative-intracellular-pathogen/
https://jgi.doe.gov/publication/molecular-mechanisms-driving-switch-behavior-in-xylem-cell-differentiation/
https://jgi.doe.gov/publication/molecular-mechanisms-of-extensive-mitochondrial-gene-rearrangement-in-plethodontid-salamanders/
https://jgi.doe.gov/publication/molecular-phylogenetics-of-squamata-the-position-of-snakes-amphisbaenians-and-dibamids-and-the-root-of-the-squamate-tree/
https://jgi.doe.gov/publication/molecular-phylogeny-of-the-critically-endangered-indochinese-box-turtle-cuora-galbinifrons/
https://jgi.doe.gov/publication/morphological-and-genomic-features-of-the-new-klosneuvirinae-isolate-fadolivirus-ihumi-vv54-2/
https://jgi.doe.gov/publication/morphological-homoplasy-life-history-evolution-and-historical-biogeography-of-plethodontid-salamanders-inferred-from-complete-mitochondrial-genomes/
https://jgi.doe.gov/publication/msphere-of-influence-the-view-from-the-microbiologists-of-the-future/
https://jgi.doe.gov/publication/multi-chassis-engineering-for-heterologous-production-of-microbial-natural-products/
https://jgi.doe.gov/publication/multi-lab-ecofab-study-shows-highly-reproducible-physiology-and-depletion-of-soil-metabolites-by-a-model-grass/
https://jgi.doe.gov/publication/multi-omic-analyses-of-exogenous-nutrient-bag-decomposition-by-the-black-morel-morchella-importuna-reveal-sustained-carbon-acquisition-and-transferring/
https://jgi.doe.gov/publication/multi-omic-analyses-of-extensively-decayed-pinus-contorta-reveal-expression-of-diverse-array-of-lignocellulose-degrading-enzymes/
https://jgi.doe.gov/publication/multi-omics-driven-metabolic-network-reconstruction-and-analysis-of-lignocellulosic-carbon-utilization-in-rhodosporidium-toruloides/
https://jgi.doe.gov/publication/multi-omics-of-permafrost-active-layer-and-thermokarst-bog-soil-microbiomes/
https://jgi.doe.gov/publication/multi-omics-profiling-of-the-cold-tolerant-monoraphidium-minutum-26b-am-in-response-to-abiotic-stress-2/
https://jgi.doe.gov/publication/multi-species-sequence-comparison-the-next-frontier-in-genome-annotation/
https://jgi.doe.gov/publication/multicellular-magnetotactic-bacteria-are-genetically-heterogeneous-consortia-with-metabolically-differentiated-cells-2/
https://jgi.doe.gov/publication/multicellular-magnetotactic-bacteria-are-genetically-heterogeneous-consortia-with-metabolically-differentiated-cells-3/
https://jgi.doe.gov/publication/multicellular-magnetotactic-bacteria-are-genetically-heterogeneous-consortia-with-metabolically-differentiated-cells/
https://jgi.doe.gov/publication/multilevel-analysis-between-physcomitrium-patens-and-mortierellaceae-endophytes-explores-potential-long%e2%80%90standing-interaction-among-land-plants-and-fungi/
https://jgi.doe.gov/publication/multiomics-in-the-central-arctic-ocean-for-benchmarking-biodiversity-change-2/
https://jgi.doe.gov/publication/multiphyletic-origins-of-methylotrophy-in-alphaproteobacteria-exemplified-by-comparative-genomics-of-lake-washington-isolates/
https://jgi.doe.gov/publication/multiple-displacement-amplification-compromises-quantitative-analysis-of-metagenomes-2/
https://jgi.doe.gov/publication/multiple-displacement-amplification-compromises-quantitative-analysis-of-metagenomes/
https://jgi.doe.gov/publication/multiple-genes-recruited-from-hormone-pathways-partition-maize-diterpenoid-defences/
https://jgi.doe.gov/publication/multiple-genome-sequences-reveal-adaptations-of-a-phototrophic-bacterium-to-sediment-microenvironments/
https://jgi.doe.gov/publication/multiple-microbial-guilds-mediate-soil-methane-cycling-along-a-wetland-salinity-gradient/
https://jgi.doe.gov/publication/multiple-origins-and-rapid-evolution-of-duplicated-mitochondrial-genes-in-parthenogenetic-geckos-heteronotia-binoei-squamata-gekkonidae/
https://jgi.doe.gov/publication/multiple-origins-one-evolutionary-trajectory-gradual-evolution-characterizes-distinct-lineages-of-allotetraploid-brachypodium-2/
https://jgi.doe.gov/publication/multiple-sources-of-aerobic-methane-production-in-aquatic-ecosystems-include-bacterial-photosynthesis-2/
https://jgi.doe.gov/publication/multiple-syntrophic-interactions-in-a-terephthalate-degrading-methanogenic-consortium-2/
https://jgi.doe.gov/publication/multiple-syntrophic-interactions-in-a-terephthalate-degrading-methanogenic-consortium/
https://jgi.doe.gov/publication/multiple-whole-genome-alignments-without-a-reference-organism/
https://jgi.doe.gov/publication/multiplex-editing-of-the-nucleoredoxin1-tandem-array-in-poplar-from-small-indels-to-translocations-and-complex-inversions/
https://jgi.doe.gov/publication/multiplex-knockout-of-trichome-regulating-myb-duplicates-in-hybrid-poplar-using-a-single-grna-2/
https://jgi.doe.gov/publication/multisubstrate-specificity-shaped-the-complex-evolution-of-the-aminotransferase-family-across-the-tree-of-life-2/
https://jgi.doe.gov/publication/multisubstrate-specificity-shaped-the-complex-evolution-of-the-aminotransferase-family-across-the-tree-of-life/
https://jgi.doe.gov/publication/multitrait-genome-wide-association-analysis-of-populus-trichocarpa-identifies-key-polymorphisms-controlling-morphological-and-physiological-traits/
https://jgi.doe.gov/publication/murine-colitis-reveals-a-disease-associated-bacteriophage-community/
https://jgi.doe.gov/publication/mutant-phenotypes-for-thousands-of-bacterial-genes-of-unknown-function/
https://jgi.doe.gov/publication/mutation-of-shoc2-promotes-aberrant-protein-n-myristoylation-and-causes-noonan-like-syndrome-with-loose-anagen-hair/
https://jgi.doe.gov/publication/mutations-in-the-predicted-dna-polymerase-subunit-pold3-result-in-more-rapid-flowering-of-brachypodium-distachyon/
https://jgi.doe.gov/publication/mvp-a-modular-viromics-pipeline-to-identify-filter-cluster-annotate-and-bin-viruses-from-metagenomes-2/
https://jgi.doe.gov/publication/mvp-a-modular-viromics-pipeline-to-identify-filter-cluster-annotate-and-bin-viruses-from-metagenomes-3/
https://jgi.doe.gov/publication/mvp-a-modular-viromics-pipeline-to-identify-filter-cluster-annotate-and-bin-viruses-from-metagenomes/
https://jgi.doe.gov/publication/mycocosm-portal-gearing-up-for-1000-fungal-genomes/
https://jgi.doe.gov/publication/mycocosm-the-jgis-fungal-genome-portal-for-comparative-genomic-and-multiomics-data-analyses-2/
https://jgi.doe.gov/publication/mycoparasites-gut-dwellers-and-saprotrophs-phylogenomic-reconstructions-and-comparative-analyses-of-kickxellomycotina-fungi/
https://jgi.doe.gov/publication/n-dependent-dynamics-of-root-growth-and-nitrate-and-ammonium-uptake-are-altered-by-the-bacterium-herbaspirillum-seropedicae-in-the-cereal-model-brachypodium-distachyon-2/
https://jgi.doe.gov/publication/naked-corals-skeleton-loss-in-scleractinia/
https://jgi.doe.gov/publication/nap-the-network-analysis-profiler-a-web-tool-for-easier-topological-analysis-and-comparison-of-medium-scale-biological-networks/
https://jgi.doe.gov/publication/narnaviruses-novel-players-in-fungal-bacterial-symbioses/
https://jgi.doe.gov/publication/nast-a-multiple-sequence-alignment-server-for-comparative-analysis-of-16s-rrna-genes/
https://jgi.doe.gov/publication/natural-soil-microbes-alter-flowering-phenology-and-the-intensity-of-selection-on-flowering-time-in-a-wild-arabidopsis-relative-3/
https://jgi.doe.gov/publication/natural-soil-microbiome-variation-affects-spring-foliar-phenology-with-consequences-for-plant-productivity-and-climate-driven-range-shifts/
https://jgi.doe.gov/publication/natural-variation-in-genes-potentially-involved-in-plant-architecture-and-adaptation-in-switchgrass-panicum-virgatum-l/
https://jgi.doe.gov/publication/natural-variation-in-lignin-and-pectin-biosynthesis-related-genes-in-switchgrass-panicum-virgatum-l-and-association-of-snp-variants-with-dry-matter-traits/
https://jgi.doe.gov/publication/natural-variation-in-the-multidrug-efflux-pump-sge1-underlies-ionic-liquid-tolerance-in-yeast/
https://jgi.doe.gov/publication/near-complete-genome-sequence-of-lipomyces-tetrasporous-nrrl-y-64009-an-oleaginous-yeast-capable-of-growing-on-lignocellulosic-hydrolysates-2/
https://jgi.doe.gov/publication/near-complete-genome-sequence-of-lipomyces-tetrasporous-nrrl-y-64009-an-oleaginous-yeast-capable-of-growing-on-lignocellulosic-hydrolysates-3/
https://jgi.doe.gov/publication/near-complete-genome-sequence-of-lipomyces-tetrasporous-nrrl-y-64009-an-oleaginous-yeast-capable-of-growing-on-lignocellulosic-hydrolysates/
https://jgi.doe.gov/publication/near-complete-genome-sequence-of-thalassospira-sp-strain-ko164-isolated-from-a-lignin-enriched-marine-sediment-microcosm/
https://jgi.doe.gov/publication/near-complete-genome-sequence-of-zygosaccharomyces-rouxii-nrrl-y-64007-a-yeast-capable-of-growing-on-lignocellulosic-hydrolysates-2/
https://jgi.doe.gov/publication/network-topology-evaluation-and-transitive-alignments-for-molecular-networking-2/
https://jgi.doe.gov/publication/network-topology-evaluation-and-transitive-alignments-for-molecular-networking-3/
https://jgi.doe.gov/publication/network-topology-evaluation-and-transitive-alignments-for-molecular-networking/
https://jgi.doe.gov/publication/neurospora-intermedia-from-a-traditional-fermented-food-enables-waste-to-food-conversion-2/
https://jgi.doe.gov/publication/neurospora-intermedia-from-a-traditional-fermented-food-enables-waste-to-food-conversion-3/
https://jgi.doe.gov/publication/neurospora-intermedia-from-a-traditional-fermented-food-enables-waste-to-food-conversion/
https://jgi.doe.gov/publication/new-biological-insights-into-how-deforestation-in-amazonia-affects-soil-microbial-communities-using-metagenomics-and-metagenome-assembled-genomes/
https://jgi.doe.gov/publication/new-family-of-tungstate-responsive-transcriptional-regulators-in-sulfate-reducing-bacteria/
https://jgi.doe.gov/publication/new-insights-into-the-influence-of-plant-and-microbial-diversity-on-denitrification-rates-in-a-salt-marsh/
https://jgi.doe.gov/publication/new-keys-to-unlock-the-treasure-trove-of-microbial-natural-products/
https://jgi.doe.gov/publication/new-microviridae-isolated-from-sulfitobacter-reveals-two-cosmopolitan-subfamilies-of-single-stranded-dna-phages-infecting-marine-and-terrestrial-alphaproteobacteria-2/
https://jgi.doe.gov/publication/new-voyages-to-explore-the-natural-product-galaxy/
https://jgi.doe.gov/publication/newly-identified-sex-chromosomes-in-the-sphagnum-peat-moss-genome-alter-carbon-sequestration-and-ecosystem-dynamics/
https://jgi.doe.gov/publication/next-generation-sequencing-and-bioinformatic-bottlenecks-the-current-state-of-metagenomic-data-analysis/
https://jgi.doe.gov/publication/next-generation-sequencing-data-of-a-defined-microbial-mock-community/
https://jgi.doe.gov/publication/next-generation-transcriptome-assembly/
https://jgi.doe.gov/publication/niche-differentiation-among-annually-recurrent-coastal-marine-group-ii-euryarchaeota/
https://jgi.doe.gov/publication/niche-differentiation-is-spatially-and-temporally-regulated-in-the-rhizosphere/
https://jgi.doe.gov/publication/niche-differentiation-of-bacteria-and-fungi-in-carbon-and-nitrogen-cycling-of-different-habitats-in-a-temperate-coniferous-forest-a-metaproteomic-approach/
https://jgi.doe.gov/publication/niche-dimensions-of-a-marine-bacterium-are-identified-using-invasion-studies-in-coastal-seawater/
https://jgi.doe.gov/publication/niche-of-harmful-alga-aureococcus-anophagefferens-revealed-through-ecogenomics/
https://jgi.doe.gov/publication/nifh-pyrosequencing-reveals-the-potential-for-location-specific-soil-chemistry-to-influence-n2-fixing-community-dynamics/
https://jgi.doe.gov/publication/nitrogen-and-phosphorous-acquisition-strategies-drive-coexistence-patterns-among-archaeal-lineages-in-soil/
https://jgi.doe.gov/publication/nitrogen-cycling-microbiomes-are-structured-by-plant-mycorrhizal-associations-with-consequences-for-nitrogen-oxide-fluxes-in-forests/
https://jgi.doe.gov/publication/nitrosococcus-watsonii-sp-nov-a-new-species-of-marine-obligate-ammonia-oxidizing-bacteria-that-is-not-omnipresent-in-the-worlds-oceans-calls-to-validate-the-names-nitrosococcus-halophilus-and/
https://jgi.doe.gov/publication/nitrosopumilus-maritimus-genome-reveals-unique-mechanisms-for-nitrification-and-autotrophy-in-globally-distributed-marine-crenarchaea/
https://jgi.doe.gov/publication/nmpfamsdb-a-database-of-novel-protein-families-from-microbial-metagenomes-and-metatranscriptomes-2/
https://jgi.doe.gov/publication/nmpfamsdb-a-database-of-novel-protein-families-from-microbial-metagenomes-and-metatranscriptomes-3/
https://jgi.doe.gov/publication/nmpfamsdb-a-database-of-novel-protein-families-from-microbial-metagenomes-and-metatranscriptomes/
https://jgi.doe.gov/publication/non-contiguous-finished-genome-sequence-and-contextual-data-of-the-filamentous-soil-bacterium-ktedonobacter-racemifer-type-strain-sosp1-21/
https://jgi.doe.gov/publication/non-contiguous-finished-genome-sequence-and-description-of-bacillus-massiliogorillae-sp-nov/
https://jgi.doe.gov/publication/non-contiguous-finished-genome-sequence-and-description-of-bartonella-florenciae-sp-nov/
https://jgi.doe.gov/publication/non-contiguous-finished-genome-sequence-and-description-of-clostridium-dakarense-sp-nov/
https://jgi.doe.gov/publication/non-contiguous-finished-genome-sequence-and-description-of-halopiger-djelfamassiliensis-sp-nov/
https://jgi.doe.gov/publication/non-contiguous-finished-genome-sequence-and-description-of-nosocomiicoccus-massiliensis-sp-nov/
https://jgi.doe.gov/publication/non-contiguous-finished-genome-sequence-of-aminomonas-paucivorans-type-strain-glu-3/
https://jgi.doe.gov/publication/non-contiguous-finished-genome-sequence-of-plant-growth-promoting-serratia-proteamaculans-s4/
https://jgi.doe.gov/publication/non-contiguous-finished-genome-sequence-of-the-opportunistic-oral-pathogen-prevotella-multisaccharivorax-type-strain-pppa20/
https://jgi.doe.gov/publication/non-sulfate-reducing-syntrophic-bacteria-affiliated-with-desulfotomaculum-cluster-i-are-widely-distributed-in-methanogenic-environments/
https://jgi.doe.gov/publication/nonhybrid-finished-microbial-genome-assemblies-from-long-read-smrt-sequencing-data/
https://jgi.doe.gov/publication/nontargeted-virus-sequence-discovery-pipeline-and-virus-clustering-for-metagenomic-data/
https://jgi.doe.gov/publication/novel-and-emerging-capabilities-that-can-provide-a-holistic-understanding-of-the-plant-root-microbiome/
https://jgi.doe.gov/publication/novel-approaches-in-function-driven-single-cell-genomics-2/
https://jgi.doe.gov/publication/novel-approaches-in-function-driven-single-cell-genomics/
https://jgi.doe.gov/publication/novel-approaches-toward-scalable-composable-workflows-in-hyper-heterogeneous-computing-environments-2/
https://jgi.doe.gov/publication/novel-approaches-toward-scalable-composable-workflows-in-hyper-heterogeneous-computing-environments-3/
https://jgi.doe.gov/publication/novel-approaches-toward-scalable-composable-workflows-in-hyper-heterogeneous-computing-environments/
https://jgi.doe.gov/publication/novel-assembly-strategy-cracks-open-the-mysteries-of-walnut-genome-evolution/
https://jgi.doe.gov/publication/novel-copper-containing-membrane-monooxygenases-cummos-encoded-by-alkane-utilizing-betaproteobacteria/
https://jgi.doe.gov/publication/novel-extracellular-electron-transfer-channels-in-a-gram-positive-thermophilic-bacterium/
https://jgi.doe.gov/publication/novel-features-of-the-polysaccharide-digesting-gliding-bacterium-flavobacterium-johnsoniae-as-revealed-by-genome-sequence-analysis/
https://jgi.doe.gov/publication/novel-function-of-the-human-presqualene-diphosphate-phosphatase-as-a-type-ii-phosphatidate-phosphatase-in-phosphatidylcholine-and-triacylglyceride-biosynthesis-pathways/
https://jgi.doe.gov/publication/novel-heavy-metal-resistance-gene-clusters-are-present-in-the-genome-of-cupriavidus-neocaledonicus-stm-6070-a-new-species-of-mimosa-pudica-microsymbiont-isolated-from-heavy-metal-rich-mining-site-soi/
https://jgi.doe.gov/publication/novel-hydrophobins-from-trichoderma-define-a-new-hydrophobin-subclass-protein-properties-evolution-regulation-and-processing/
https://jgi.doe.gov/publication/novel-insights-from-uncultivated-genomes-of-the-global-human-gut-microbiome/
https://jgi.doe.gov/publication/novel-insights-into-the-diversity-of-catabolic-metabolism-from-ten-haloarchaeal-genomes/
https://jgi.doe.gov/publication/novel-metabolic-interactions-and-environmental-conditions-mediate-the-boreal-peatmoss-cyanobacteria-mutualism-2/
https://jgi.doe.gov/publication/novel-metabolism-in-chlamydomonas-through-the-lens-of-genomics/
https://jgi.doe.gov/publication/novel-reductive-dehalogenases-from-the-marine-sponge-associated-bacterium-desulfoluna-spongiiphila/
https://jgi.doe.gov/publication/novel-soil-bacteria-possess-diverse-genes-for-secondary-metabolite-biosynthesis/
https://jgi.doe.gov/publication/novel-spore-forming-species-exhibiting-intrinsic-resistance-to-third-and-fourth-generation-cephalosporins-and-description-of-tigheibacillus-jepli-gen-nov-sp-nov/
https://jgi.doe.gov/publication/novel-viral-dna-polymerases-from-metagenomes-suggest-genomic-sources-of-strand-displacing-biochemical-phenotypes-2/
https://jgi.doe.gov/publication/novel-z-dna-binding-domains-in-giant-viruses-2/
https://jgi.doe.gov/publication/novel-z-dna-binding-domains-in-giant-viruses/
https://jgi.doe.gov/publication/numerous-cultivated-and-uncultivated-viruses-encode-ribosomal-proteins/
https://jgi.doe.gov/publication/nutrient-inputs-stimulate-mercury-methylation-by-syntrophs-in-a-subarctic-peatland-2/
https://jgi.doe.gov/publication/obligate-biotrophy-features-unraveled-by-the-genomic-analysis-of-rust-fungi/
https://jgi.doe.gov/publication/obtaining-comparative-genomic-data-with-the-vista-family-of-computational-tools/
https://jgi.doe.gov/publication/obtaining-genomes-from-uncultivated-environmental-microorganisms-using-facs-based-single-cell-genomics/
https://jgi.doe.gov/publication/ocean-current-patterns-drive-the-worldwide-colonization-of-eelgrass-zostera-marina/
https://jgi.doe.gov/publication/ochratoxin-a-production-by-penicillium-thymicola/
https://jgi.doe.gov/publication/old-can-be-new-again-happy-whole-genome-sequencing-mapping-and-assembly/
https://jgi.doe.gov/publication/omega-an-overlap-graph-de-novo-assembler-for-metagenomics/
https://jgi.doe.gov/publication/omics-analyses-and-biochemical-study-of-phlebiopsis-gigantea-elucidate-its-degradation-strategy-of-wood-extractives/
https://jgi.doe.gov/publication/on-single-cell-enzyme-assays-in-marine-microbial-ecology-and-biogeochemistry-2/
https://jgi.doe.gov/publication/on-the-origin-and-evolutionary-consequences-of-gene-body-dna-methylation/
https://jgi.doe.gov/publication/on-the-origin-of-birds-nest-fungi-phylogenomic-analyses-of-fungi-in-the-nidulariaceae-agaricales-basidiomycota/
https://jgi.doe.gov/publication/on-the-origin-of-reverse-transcriptase-using-crispr-cas-systems-and-their-hyperdiverse-enigmatic-spacer-repertoires/
https://jgi.doe.gov/publication/one-bacterial-cell-one-complete-genome/
https://jgi.doe.gov/publication/one-complete-and-seven-draft-genome-sequences-of-subdivision-1-and-3-acidobacteria-isolated-from-soil/
https://jgi.doe.gov/publication/open-access-repository-scale-propagated-nearest-neighbor-suspect-spectral-library-for-untargeted-metabolomics/
https://jgi.doe.gov/publication/open-education-open-minds/
https://jgi.doe.gov/publication/openmsi-arrayed-analysis-toolkit-analyzing-spatially-defined-samples-using-mass-spectrometry-imaging/
https://jgi.doe.gov/publication/operation-driven-heterogeneity-and-overlooked-feed-associated-populations-in-global-anaerobic-digester-microbiome/
https://jgi.doe.gov/publication/optimized-crispr-interference-system-for-investigating-pseudomonas-alloputida-genes-involved-in-rhizosphere-microbiome-assembly-2/
https://jgi.doe.gov/publication/optimized-crispr-interference-system-for-investigating-pseudomonas-alloputida-genes-involved-in-rhizosphere-microbiome-assembly-3/
https://jgi.doe.gov/publication/optimized-crispr-interference-system-for-investigating-pseudomonas-alloputida-genes-involved-in-rhizosphere-microbiome-assembly/
https://jgi.doe.gov/publication/optimizing-de-novo-genome-assembly-from-pcr-amplified-metagenomes/
https://jgi.doe.gov/publication/optofluidic-raman-activated-cell-sorting-for-targeted-genome-retrieval-or-cultivation-of-microbial-cells-with-specific-functions/
https://jgi.doe.gov/publication/organic-sulfur-fingerprint-indicates-continued-injection-fluid-signature-10-months-after-hydraulic-fracturing/
https://jgi.doe.gov/publication/origins-and-recombination-of-the-bacterial-sized-multichromosomal-mitochondrial-genome-of-cucumber/
https://jgi.doe.gov/publication/ort-a-workflow-linking-genome-scale-metabolic-models-with-reactive-transport-codes-2/
https://jgi.doe.gov/publication/orthophosphate-uptake-onto-woodchips-in-denitrifying-bioreactors-is-enhanced-by-anoxic-anaerobic-oxic-cycling-2/
https://jgi.doe.gov/publication/orthophosphate-uptake-onto-woodchips-in-denitrifying-bioreactors-is-enhanced-by-anoxic-anaerobic-oxic-cycling-3/
https://jgi.doe.gov/publication/orthophosphate-uptake-onto-woodchips-in-denitrifying-bioreactors-is-enhanced-by-anoxic-anaerobic-oxic-cycling/
https://jgi.doe.gov/publication/oryzisolibacter-propanilivorax-gen-nov-sp-nov-a-propanil-degrading-bacterium/
https://jgi.doe.gov/publication/overexpression-of-a-prefoldin-beta-subunit-gene-reduces-biomass-recalcitrance-in-the-bioenergy-crop-populus/
https://jgi.doe.gov/publication/overexpression-of-a-rice-bahd-acyltransferase-gene-in-switchgrass-panicum-virgatum-l-enhances-saccharification/
https://jgi.doe.gov/publication/overexpression-of-reduced-wall-acetylation-c-increases-xylan-acetylation-and-biomass-recalcitrance-in-populus/
https://jgi.doe.gov/publication/overview-of-the-mosaic-expedition-ecosystem-2/
https://jgi.doe.gov/publication/overview-of-the-mosaic-expedition-ecosystem-3/
https://jgi.doe.gov/publication/overview-of-the-mosaic-expedition-ecosystem/
https://jgi.doe.gov/publication/oxic-anoxic-cycling-promotes-coupling-between-complex-carbon-metabolism-and-denitrification-in-woodchip-bioreactors/
https://jgi.doe.gov/publication/oxidative-cyclization-of-prodigiosin-by-an-alkylglycerol-monooxygenase-like-enzyme-2/
https://jgi.doe.gov/publication/oxidative-cyclization-of-prodigiosin-by-an-alkylglycerol-monooxygenase-like-enzyme/
https://jgi.doe.gov/publication/oxidative-pathways-of-deoxyribose-and-deoxyribonate-catabolism/
https://jgi.doe.gov/publication/oxygenation-influences-xylose-fermentation-and-gene-expression-in-the-yeast-genera-spathaspora-and-scheffersomyces/
https://jgi.doe.gov/publication/p-nitrophenyl-esters-provide-new-insights-and-applications-for-the-thiolase-enzyme-olea/
https://jgi.doe.gov/publication/paenibacillus-aquistagni-sp-nov-isolated-from-an-artificial-lake-accumulating-industrial-wastewater-2/
https://jgi.doe.gov/publication/paenibacillus-aquistagni-sp-nov-isolated-from-an-artificial-lake-accumulating-industrial-wastewater/
https://jgi.doe.gov/publication/paleontology-new-tricks-with-old-bones/
https://jgi.doe.gov/publication/pan-genome-of-the-phytoplankton-emiliania-underpins-its-global-distribution/
https://jgi.doe.gov/publication/pangenomics-reveals-alternative-environmental-lifestyles-among-chlamydiae/
https://jgi.doe.gov/publication/parallel-evolution-of-nacre-building-gene-sets-in-molluscs/
https://jgi.doe.gov/publication/parallel-evolution-of-truncated-transfer-rna-genes-in-arachnid-mitochondrial-genomes/
https://jgi.doe.gov/publication/partial-genome-sequence-of-the-haloalkaliphilic-soda-lake-bacterium-thioalkalivibrio-thiocyanoxidans-arh-2t/
https://jgi.doe.gov/publication/partial-genome-sequence-of-thioalkalivibrio-thiocyanodenitrificans-arhd-1t-a-chemolithoautotrophic-haloalkaliphilic-sulfur-oxidizing-bacterium-capable-of-complete-denitrification/
https://jgi.doe.gov/publication/particle-association-lifestyle-is-a-phylogenetically-conserved-trait-in-bathypelagic-prokaryotes/
https://jgi.doe.gov/publication/particulate-and-dissolved-metabolite-distributions-along-a-latitudinal-transect-of-the-western-atlantic-ocean-2/
https://jgi.doe.gov/publication/pathway-and-gene-discovery-from-natural-hosts-and-organisms/
https://jgi.doe.gov/publication/pathway-centric-analysis-of-microbial-metabolic-potential-and-expression-along-nutrient-and-energy-gradients-in-the-western-atlantic-ocean-2/
https://jgi.doe.gov/publication/pathway-discovery-and-engineering-for-cleavage-of-a-%ce%b2-1-lignin-derived-biaryl-compound/
https://jgi.doe.gov/publication/pathways-of-carbon-assimilation-and-ammonia-oxidation-suggested-by-environmental-genomic-analyses-of-marine-crenarchaeota/
https://jgi.doe.gov/publication/patterns-and-drivers-of-fungal-community-depth-stratification-in-sphagnum-peat/
https://jgi.doe.gov/publication/patterns-and-ecological-drivers-of-viral-communities-in-acid-mine-drainage-sediments-across-southern-china-2/
https://jgi.doe.gov/publication/patterns-in-wetland-microbial-community-composition-and-functional-gene-repertoire-associated-with-methane-emissions-21/
https://jgi.doe.gov/publication/patterns-in-wetland-microbial-community-composition-and-functional-gene-repertoire-associated-with-methane-emissions-22/
https://jgi.doe.gov/publication/patterns-of-genomic-variation-reveal-a-single-evolutionary-origin-of-the-wild-allotetraploid-mimulus-sookensis-2/
https://jgi.doe.gov/publication/patterns-of-genomic-variation-reveal-a-single-evolutionary-origin-of-the-wild-allotetraploid-mimulus-sookensis/
https://jgi.doe.gov/publication/patterns-of-pan%e2%80%90genome-occupancy-and-gene-coexpression-under-water%e2%80%90deficit-in-brachypodium-distachyon-2/
https://jgi.doe.gov/publication/peatland-acidobacteria-with-a-dissimilatory-sulfur-metabolism/
https://jgi.doe.gov/publication/peatland-microbial-community-responses-to-plant-functional-group-and-drought-are-depth-dependent/
https://jgi.doe.gov/publication/peatmoss-physcomitrella-expression-atlas-tool-a-unified-gene-expression-atlas-for-the-model-plant-physcomitrella-patens/
https://jgi.doe.gov/publication/pelagic-metagenome-assembled-genomes-from-an-estuarine-salinity-gradient-in-san-francisco-bay/
https://jgi.doe.gov/publication/performance-evaluation-and-tuning-of-biopig-for-genomic-analysis-2/
https://jgi.doe.gov/publication/performance-evaluation-and-tuning-of-biopig-for-genomic-analysis/
https://jgi.doe.gov/publication/permanent-draft-genome-of-thermithiobaclillus-tepidarius-dsm-3134t-a-moderately-thermophilic-obligately-chemolithoautotrophic-member-of-the-acidithiobacillia/
https://jgi.doe.gov/publication/permanent-draft-genome-of-thiobacillus-thioparus-dsm-505t-an-obligately-chemolithoautotrophic-member-of-the-betaproteobacteria/
https://jgi.doe.gov/publication/permanent-draft-genome-sequence-of-comamonas-testosteroni-kf-1/
https://jgi.doe.gov/publication/permanent-draft-genome-sequence-of-desulfurococcus-amylolyticus-strain-z-533t-a-peptide-and-starch-degrader-isolated-from-thermal-springs-in-the-kamchatka-peninsula-and-kunashir-island-russia-2/
https://jgi.doe.gov/publication/permanent-draft-genome-sequence-of-desulfurococcus-amylolyticus-strain-z-533t-a-peptide-and-starch-degrader-isolated-from-thermal-springs-in-the-kamchatka-peninsula-and-kunashir-island-russia/
https://jgi.doe.gov/publication/permanent-draft-genome-sequence-of-desulfurococcus-mobilis-type-strain-dsm-2161-a-thermoacidophilic-sulfur-reducing-crenarchaeon-isolated-from-acidic-hot-springs-of-hveravellir-iceland/
https://jgi.doe.gov/publication/permanent-draft-genome-sequence-of-dethiosulfovibrio-peptidovorans-type-strain-sebr-4207/
https://jgi.doe.gov/publication/permanent-draft-genome-sequence-of-nocardia-sp-bmg111209-an-actinobacterium-isolated-from-nodules-of-casuarina-glauca/
https://jgi.doe.gov/publication/permanent-draft-genome-sequence-of-the-gliding-predator-saprospira-grandis-strain-sa-g1-hr1/
https://jgi.doe.gov/publication/permanent-draft-genome-sequences-of-the-symbiotic-nitrogen-fixing-ensifer-meliloti-strains-bo21cc-and-ak58/
https://jgi.doe.gov/publication/permanent-improved-high-quality-draft-genome-sequence-of-nocardia-casuarinae-strain-bmg51109-an-endophyte-of-actinorhizal-root-nodules-of-casuarina-glauca/
https://jgi.doe.gov/publication/persistence-and-plasticity-in-bacterial-gene-regulation-2/
https://jgi.doe.gov/publication/persistent-memory-as-an-effective-alternative-to-random-access-memory-in-metagenome-assembly-2/
https://jgi.doe.gov/publication/perspective-on-taxonomic-classification-of-uncultivated-viruses-2/
https://jgi.doe.gov/publication/pests-diseases-and-aridity-have-shaped-the-genome-of-corymbia-citriodora/
https://jgi.doe.gov/publication/pezizomycetes-genomes-reveal-the-molecular-basis-of-ectomycorrhizal-truffle-lifestyle/
https://jgi.doe.gov/publication/phage-bacteria-relationships-and-crispr-elements-revealed-by-a-metagenomic-survey-of-the-rumen-microbiome/
https://jgi.doe.gov/publication/phage-encoded-h-ns-a-potential-achilles-heel-in-the-bacterial-defence-system/
https://jgi.doe.gov/publication/phage-host-coevolution-in-natural-populations-2/
https://jgi.doe.gov/publication/phage-specific-metabolic-reprogramming-of-virocells/
https://jgi.doe.gov/publication/pharmaceutical-biotransformation-is-influenced-by-photosynthesis-and-microbial-nitrogen-cycling-in-a-benthic-wetland-biomat-2/
https://jgi.doe.gov/publication/phased-diploid-genome-assembly-with-single-molecule-real-time-sequencing/
https://jgi.doe.gov/publication/phbmt1-a-bahd-family-monolignol-acyltransferase-mediates-lignin-acylation-in-poplar-2/
https://jgi.doe.gov/publication/phenotype-to-genotype-in-neurospora-crassa-association-of-the-scumbo-phenotype-with-mutations-in-the-gene-encoding-ceramide-c9-methyltransferase-2/
https://jgi.doe.gov/publication/phenotypic-and-genetic-variation-among-soybean-rust-isolates/
https://jgi.doe.gov/publication/phenotypic-and-genomic-signatures-of-interspecies-cooperation-and-conflict-in-naturally-occurring-isolates-of-a-model-plant-symbiont-2/
https://jgi.doe.gov/publication/philympics-2021-prophage-predictions-perplex-programs-2/
https://jgi.doe.gov/publication/phosphate-availability-modulates-root-exudate-composition-and-rhizosphere-microbial-community-in-a-teosinte-and-a-modern-maize-cultivar/
https://jgi.doe.gov/publication/phosphate-limitation-responses-in-marine-green-algae-are-linked-to-reprogramming-of-the-trna-epitranscriptome-and-codon-usage-bias-2/
https://jgi.doe.gov/publication/phosphate-limitation-responses-in-marine-green-algae-are-linked-to-reprogramming-of-the-trna-epitranscriptome-and-codon-usage-bias-3/
https://jgi.doe.gov/publication/phosphate-limitation-responses-in-marine-green-algae-are-linked-to-reprogramming-of-the-trna-epitranscriptome-and-codon-usage-bias/
https://jgi.doe.gov/publication/phosphate-transporters-in-marine-phytoplankton-and-their-viruses-cross-domain-commonalities-in-viral-host-gene-exchanges/
https://jgi.doe.gov/publication/phototrophic-co-cultures-from-extreme-environments-community-structure-and-potential-value-for-fundamental-and-applied-research/
https://jgi.doe.gov/publication/phycocosm-a-comparative-algal-genomics-resource/
https://jgi.doe.gov/publication/phyllosticta-citricarpa-and-sister-species-of-global-importance-to-citrus-2/
https://jgi.doe.gov/publication/phyllosticta-citricarpa-and-sister-species-of-global-importance-to-citrus/
https://jgi.doe.gov/publication/phyllosticta-paracitricarpa-is-synonymous-with-the-eu-quarantine-fungus-p-citricarpa-based-on-phylogenomic-analyses-2/
https://jgi.doe.gov/publication/phyllosticta-paracitricarpa-is-synonymous-with-the-eu-quarantine-fungus-p-citricarpa-based-on-phylogenomic-analyses-3/
https://jgi.doe.gov/publication/phyllosticta-paracitricarpa-is-synonymous-with-the-eu-quarantine-fungus-p-citricarpa-based-on-phylogenomic-analyses/
https://jgi.doe.gov/publication/phylo-vista-interactive-visualization-of-multiple-dna-sequence-alignments/
https://jgi.doe.gov/publication/phylogenetic-and-functional-analysis-of-metagenome-sequence-from-high-temperature-archaeal-habitats-demonstrate-linkages-between-metabolic-potential-and-geochemistry/
https://jgi.doe.gov/publication/phylogenetic-and-metagenomic-analysis-of-verrucomicrobia-in-former-agricultural-grassland-soil/
https://jgi.doe.gov/publication/phylogenetic-and-phylogenomic-definition-of-rhizopus-species/
https://jgi.doe.gov/publication/phylogenetic-and-phylogenomic-overview-of-the-polyporales/
https://jgi.doe.gov/publication/phylogenetic-genomic-organization-and-expression-analysis-of-hydrophobin-genes-in-the-ectomycorrhizal-basidiomycete-laccaria-bicolor/
https://jgi.doe.gov/publication/phylogenetic-position-of-the-pentastomida-and-pancrustacean-relationships/
https://jgi.doe.gov/publication/phylogenetic-relationships-among-amphisbaenian-reptiles-based-on-complete-mitochondrial-genomic-sequences/
https://jgi.doe.gov/publication/phylogenetic-shadowing-of-primate-sequences-to-find-functional-regions-of-the-human-genome/
https://jgi.doe.gov/publication/phylogenetic-stratigraphy-in-the-guerrero-negro-hypersaline-microbial-mat/
https://jgi.doe.gov/publication/phylogenetically-driven-sequencing-of-extremely-halophilic-archaea-reveals-strategies-for-static-and-dynamic-osmo-response/
https://jgi.doe.gov/publication/phylogenetics-and-phylogenomics-of-rust-fungi/
https://jgi.doe.gov/publication/phylogenomic-analyses-indicate-that-early-fungi-evolved-digesting-cell-walls-of-algal-ancestors-of-land-plants-11/
https://jgi.doe.gov/publication/phylogenomic-analysis-of-589-metagenome-assembled-genomes-encompassing-all-major-prokaryotic-lineages-from-the-gut-of-higher-termites/
https://jgi.doe.gov/publication/phylogenomic-analysis-of-polyketide-synthase-encoding-genes-in-trichoderma/
https://jgi.doe.gov/publication/phylogenomic-structure-and-speciation-in-an-emerging-model-the-sphagnum-magellanicum-complex-bryophyta-2/
https://jgi.doe.gov/publication/phylogenomically-guided-identification-of-industrially-relevant-gh1-beta-glucosidases-through-dna-synthesis-and-nanostructure-initiator-mass-spectrometry/
https://jgi.doe.gov/publication/phylogenomics-and-comparative-genomics-highlight-specific-genetic-features-in-ganoderma-species-2/
https://jgi.doe.gov/publication/phylogenomics-and-genetic-analysis-of-solvent-producing-clostridium-species-2/
https://jgi.doe.gov/publication/phylogenomics-and-genetic-analysis-of-solvent-producing-clostridium-species/
https://jgi.doe.gov/publication/phylogenomics-of-endogonaceae-and-evolution-of-mycorrhizas-within-mucoromycota/
https://jgi.doe.gov/publication/phylogenomics-reveals-convergent-evolution-of-red-violet-coloration-in-land-plants-and-the-origins-of-the-anthocyanin-biosynthetic-pathway/
https://jgi.doe.gov/publication/phylogenomics-suggests-oxygen-availability-as-a-driving-force-in-thaumarchaeota-evolution/
https://jgi.doe.gov/publication/phylogeny-and-physiology-of-candidate-phylum-atribacteria-op9js1-inferred-from-cultivation-independent-genomics-11/
https://jgi.doe.gov/publication/phylogeny-morphology-virulence-ecology-and-host-range-of-ordospora-pajunii-ordosporidae-a-microsporidian-symbiont-of-daphnia-spp-2/
https://jgi.doe.gov/publication/phylogeny-morphology-virulence-ecology-and-host-range-of-ordospora-pajunii-ordosporidae-a-microsporidian-symbiont-of-daphnia-spp/
https://jgi.doe.gov/publication/phylogeny-of-sea-hares-in-the-aplysia-clade-based-on-mitochondrial-dna-sequence-data/
https://jgi.doe.gov/publication/phylogeographic-reconstruction-of-a-bacterial-species-with-high-levels-of-lateral-gene-transfer-2/
https://jgi.doe.gov/publication/phylogeographic-reconstruction-of-a-bacterial-species-with-high-levels-of-lateral-gene-transfer/
https://jgi.doe.gov/publication/phylometagenomics-of-cycad-coralloid-roots-reveals-shared-symbiotic-signals/
https://jgi.doe.gov/publication/physical-map-assisted-whole-genome-shotgun-sequence-assemblies/
https://jgi.doe.gov/publication/physiological-and-genomic-evidence-of-cysteine-degradation-and-aerobic-hydrogen-sulfide-production-in-freshwater-bacteria/
https://jgi.doe.gov/publication/physiological-potential-and-evolutionary-trajectories-of-syntrophic-sulfate-reducing-bacterial-partners-of-anaerobic-methanotrophic-archaea/
https://jgi.doe.gov/publication/phytochrome-c-regulation-of-photoperiodic-flowering-via-photoperiod1-is-mediated-by-early-flowering-3-in-brachypodium-distachyon/
https://jgi.doe.gov/publication/phytophthora-genome-sequences-uncover-evolutionary-origins-and-mechanisms-of-pathogenesis/
https://jgi.doe.gov/publication/phytophthora-palmivora-establishes-tissue-specific-intracellular-infection-structures-in-the-earliest-divergent-land-plant-lineage/
https://jgi.doe.gov/publication/phytozome-a-comparative-platform-for-green-plant-genomics/
https://jgi.doe.gov/publication/plant-compartment-and-biogeography-affect-microbiome-composition-in-cultivated-and-native-agave-species/
https://jgi.doe.gov/publication/plant-compartment-and-genetic-variation-drive-microbiome-composition-in-switchgrass-roots/
https://jgi.doe.gov/publication/plant-metabolic-network-15-a-resource-of-genome-wide-metabolism-databases-for-126-plants-and-algae/
https://jgi.doe.gov/publication/plant-microbiomes-harbor-potential-to-promote-nutrient-turnover-in-impoverished-substrates-of-a-brazilian-biodiversity-hotspot-2/
https://jgi.doe.gov/publication/plant-myo-inositol-transport-influences-bacterial-colonization-phenotypes/
https://jgi.doe.gov/publication/plant-pan-genomics-comes-of-age/
https://jgi.doe.gov/publication/plant-single-cell-solutions-for-energy-and-the-environment/
https://jgi.doe.gov/publication/plantseed-enables-automated-annotation-and-reconstruction-of-plant-primary-metabolism-with-improved-compartmentalization-and-comparative-consistency/
https://jgi.doe.gov/publication/plasmid-copy-number-engineering-accelerates-fungal-polyketide-discovery-upon-unnatural-polyketide-biosynthesis/
https://jgi.doe.gov/publication/plasmids-captured-in-c-metallidurans-ch34-defining-the-proma-family-of-broad-host-range-plasmids/
https://jgi.doe.gov/publication/plethodontid-salamander-mitochondrial-genomics-a-parsimony-evaluation-of-character-conflict-and-implications-for-historical-biogeography/
https://jgi.doe.gov/publication/ploidy-evolution-in-a-wild-yeast-is-linked-to-an-interaction-between-cell-type-and-metabolism-2/
https://jgi.doe.gov/publication/ploidy-evolution-in-a-wild-yeast-is-linked-to-an-interaction-between-cell-type-and-metabolism-3/
https://jgi.doe.gov/publication/ploidy-evolution-in-a-wild-yeast-is-linked-to-an-interaction-between-cell-type-and-metabolism/
https://jgi.doe.gov/publication/pmr5-an-acetylation-protein-at-the-intersection-of-pectin-biosynthesis-and-defense-against-fungal-pathogens-2/
https://jgi.doe.gov/publication/pmr5-an-acetylation-protein-at-the-intersection-of-pectin-biosynthesis-and-defense-against-fungal-pathogens/
https://jgi.doe.gov/publication/poisson-hurdle-model-based-method-for-clustering-microbiome-features-2/
https://jgi.doe.gov/publication/polycracker-a-robust-method-for-the-unsupervised-partitioning-of-polyploid-subgenomes-by-signatures-of-repetitive-dna-evolution/
https://jgi.doe.gov/publication/polynucleobacter-meluiroseus-sp-nov-a-bacterium-isolated-from-a-lake-located-in-the-mountains-of-the-mediterranean-island-of-corsica/
https://jgi.doe.gov/publication/polynucleobacter-necessarius-a-model-for-genome-reduction-in-both-free-living-and-symbiotic-bacteria/
https://jgi.doe.gov/publication/polysaccharide-niche-partitioning-of-distinct-polaribacter-clades-during-north-sea-spring-algal-blooms/
https://jgi.doe.gov/publication/polysaccharide-utilization-loci-of-north-sea-flavobacteriia-as-basis-for-using-susc-d-protein-expression-for-predicting-major-phytoplankton-glycans/
https://jgi.doe.gov/publication/population-based-resequencing-of-angptl4-uncovers-variations-that-reduce-triglycerides-and-increase-hdl/
https://jgi.doe.gov/publication/population-genomics-and-climate-adaptation-of-a-c4-perennial-grass-panicum-hallii-poaceae/
https://jgi.doe.gov/publication/population-genomics-of-a-forest-fungus-reveals-high-gene-flow-and-climate-adaptation-signatures-2/
https://jgi.doe.gov/publication/population-genomics-of-picophytoplankton-unveils-novel-chromosome-hypervariability/
https://jgi.doe.gov/publication/population-genomics-of-populus-trichocarpa-identifies-signatures-of-selection-and-adaptive-trait-associations/
https://jgi.doe.gov/publication/population-genomics-provides-insights-into-the-genetic-basis-of-adaptive-evolution-in-the-mushroom-forming-fungus-lentinula-edodes-2/
https://jgi.doe.gov/publication/population-level-analysis-of-evolved-mutations-underlying-improvements-in-plant-hemicellulose-and-cellulose-fermentation-by-clostridium-phytofermentans/
https://jgi.doe.gov/publication/population-structure-of-an-antarctic-aquatic-cyanobacterium-2/
https://jgi.doe.gov/publication/populus-myc2-orchestrates-root-transcriptional-reprogramming-of-defence-pathway-to-impair-laccaria-bicolor-ectomycorrhizal-development/
https://jgi.doe.gov/publication/porphyra-bangiophyceae-transcriptomes-provide-insights-into-red-algal-development-and-metabolism/
https://jgi.doe.gov/publication/position-specific-metabolic-probing-and-metagenomics-of-microbial-communities-reveal-conserved-central-carbon-metabolic-network-activities-at-high-temperatures/
https://jgi.doe.gov/publication/positional-conservation-of-clusters-of-overlapping-promoter-like-sequences-in-enterobacterial-genomes/
https://jgi.doe.gov/publication/postzygotic-barriers-persist-despite-ongoing-introgression-in-hybridizing-mimulus-species/
https://jgi.doe.gov/publication/potential-biocontrol-activities-of-populus-endophytes-against-several-plant-pathogens-using-different-inhibitory-mechanisms/
https://jgi.doe.gov/publication/potential-for-chemolithoautotrophy-among-ubiquitous-bacteria-lineages-in-the-dark-ocean/
https://jgi.doe.gov/publication/potential-for-functional-divergence-in-ectomycorrhizal-fungal-communities-across-a-precipitation-gradient/
https://jgi.doe.gov/publication/potential-virus-mediated-nitrogen-cycling-in-oxygen-depleted-oceanic-waters/
https://jgi.doe.gov/publication/power-in-isolation-insights-from-single-cells/
https://jgi.doe.gov/publication/pr-pr-cross-platform-laboratory-automation-system/
https://jgi.doe.gov/publication/pre-cambrian-roots-of-novel-antarctic-cryptoendolithic-bacterial-lineages/
https://jgi.doe.gov/publication/precision-drug-targeting-understanding-the-intracellular-transport-mechanism-11/
https://jgi.doe.gov/publication/predicted-structural-proteome-of-sphagnum-divinum-and-proteome-scale-annotation/
https://jgi.doe.gov/publication/predominant-acidilobus-like-populations-from-geothermal-environments-in-yellowstone-national-park-exhibit-similar-metabolic-potential-in-different-hypoxic-microbial-communities/
https://jgi.doe.gov/publication/preferential-retention-of-genes-from-one-parental-genome-after-polyploidy-illustrates-the-nature-and-scope-of-the-genomic-conflicts-induced-by-hybridization/
https://jgi.doe.gov/publication/prepublication-data-sharing/
https://jgi.doe.gov/publication/prevalent-genome-streamlining-and-latitudinal-divergence-of-planktonic-bacteria-in-the-surface-ocean/
https://jgi.doe.gov/publication/primer-and-platform-effects-on-16s-rrna-tag-sequencing-11/
https://jgi.doe.gov/publication/probing-specificities-of-alcohol-acyltransferases-for-designer-ester-biosynthesis-with-a-high-throughput-microbial-screening-platform/
https://jgi.doe.gov/publication/probing-the-active-fraction-of-soil-microbiomes-using-boncat-facs/
https://jgi.doe.gov/publication/probiotics-to-minimize-the-disruption-of-faecal-microbiota-in-healthy-subjects-undergoing-antibiotic-therapy/
https://jgi.doe.gov/publication/prodege-a-computational-protocol-for-fully-automated-decontamination-of-genomes-11/
https://jgi.doe.gov/publication/prodigal-prokaryotic-gene-recognition-and-translation-initiation-site-identification/
https://jgi.doe.gov/publication/production-of-fungal-mycelia-in-a-temperate-coniferous-forest-shows-distinct-seasonal-patterns/
https://jgi.doe.gov/publication/programmed-dna-destruction-by-miniature-crispr-cas14-enzymes/
https://jgi.doe.gov/publication/prokaryotic-community-profiles-at-different-operational-stages-of-a-greek-solar-saltern/
https://jgi.doe.gov/publication/prokaryotic-responses-to-a-warm-temperature-anomaly-in-northeast-subarctic-pacific-waters-2/
https://jgi.doe.gov/publication/prokaryotic-viruses-impact-functional-microorganisms-in-nutrient-removal-and-carbon-cycle-in-wastewater-treatment-plants/
https://jgi.doe.gov/publication/promoter-elements-associated-with-rna-pol-11-stalling-in-the-drosophila-embryo/
https://jgi.doe.gov/publication/propagation-of-viral-genomes-by-replicating-ammonia-oxidising-archaea-during-soil-nitrification-2/
https://jgi.doe.gov/publication/proposed-design-of-distributed-macroalgal-biorefineries-thermodynamics-bioconversion-technology-and-sustainability-implications-for-developing-economies/
https://jgi.doe.gov/publication/protein-based-organelles-in-bacteria-carboxysomes-and-related-microcompartments/
https://jgi.doe.gov/publication/protein-structure-determination-using-metagenome-sequence-data/
https://jgi.doe.gov/publication/proteogenomic-analyses-indicate-bacterial-methylotrophy-and-archaeal-heterotrophy-are-prevalent-below-the-grass-root-zone/
https://jgi.doe.gov/publication/proteogenomic-analysis-of-a-thermophilic-bacterial-consortium-adapted-to-deconstruct-switchgrass/
https://jgi.doe.gov/publication/proteome-and-phospholipid-alteration-reveal-metabolic-network-of-bacillus-thuringiensis-under-triclosan-stress/
https://jgi.doe.gov/publication/proteome-insights-into-the-symbiotic-relationship-between-a-captive-colony-of-nasutitermes-corniger-and-its-hindgut-microbiome/
https://jgi.doe.gov/publication/proteome-of-the-wood-decay-fungus-fomitopsis-pinicola-is-altered-by-substrate-2/
https://jgi.doe.gov/publication/proteome-profile-of-the-endomembrane-of-developing-coleoptiles-from-switchgrass-panicum-virgatum/
https://jgi.doe.gov/publication/proteome-reallocation-enables-the-selective-de-novo-biosynthesis-of-non-linear-branched-chain-acetate-esters-2/
https://jgi.doe.gov/publication/proteome-specialization-of-anaerobic-fungi-during-ruminal-degradation-of-recalcitrant-plant-fiber/
https://jgi.doe.gov/publication/proteomics-for-validation-of-automated-gene-model-predictions/
https://jgi.doe.gov/publication/protist-impacts-on-marine-cyanovirocell-metabolism-2/
https://jgi.doe.gov/publication/protocol-for-condition-dependent-metabolite-yield-prediction-using-the-trimer-pipeline-2/
https://jgi.doe.gov/publication/protocol-for-single-cell-isolation-and-genome-amplification-of-environmental-microbial-eukaryotes-for-genomic-analysis-2/
https://jgi.doe.gov/publication/providing-biological-context-for-gwas-results-using-eqtl-regulatory-and-co%e2%80%90expression-networks-in-populus-2/
https://jgi.doe.gov/publication/providing-biological-context-for-gwas-results-using-eqtl-regulatory-and-co%e2%80%90expression-networks-in-populus-3/
https://jgi.doe.gov/publication/providing-biological-context-for-gwas-results-using-eqtl-regulatory-and-co%e2%80%90expression-networks-in-populus/
https://jgi.doe.gov/publication/psimscan-algorithm-and-utility-for-fast-protein-similarity-search/
https://jgi.doe.gov/publication/pumping-iron-a-multi-omics-analysis-of-two-extremophilic-algae-reveals-iron-economy-management/
https://jgi.doe.gov/publication/purifying-the-impure-sequencing-metagenomes-and-metatranscriptomes-from-complex-animal-associated-samples/
https://jgi.doe.gov/publication/pyrosequencing-reveals-high-temperature-cellulolytic-microbial-consortia-in-great-boiling-spring-after-in-situ-lignocellulose-enrichment/
https://jgi.doe.gov/publication/qtl-associated-with-resistance-to-cassava-brown-streak-and-cassava-mosaic-diseases-in-a-bi-parental-cross-of-two-tanzanian-farmer-varieties-namikonga-and-albert/
https://jgi.doe.gov/publication/qtl-mapping-for-pest-and-disease-resistance-in-cassava-and-coincidence-of-some-qtl-with-introgression-regions-derived-from-manihot-glaziovii/
https://jgi.doe.gov/publication/qtl-x-environment-interactions-underlie-adaptive-divergence-in-switchgrass-across-a-large-latitudinal-gradient/
https://jgi.doe.gov/publication/qualitative-and-quantitative-resistances-to-leaf-rust-finely-mapped-within-two-nucleotide-binding-site-leucine-rich-repeat-nbs-lrr-rich-genomic-regions-of-chromosome-19-in-poplar/
https://jgi.doe.gov/publication/quality-magnified-2/
https://jgi.doe.gov/publication/quality-magnified-3/
https://jgi.doe.gov/publication/quality-magnified/
https://jgi.doe.gov/publication/quality-sample-collection-handling-and-preservation-for-an-effective-microbial-forensics-program/
https://jgi.doe.gov/publication/quantitative-genetic-by-soil-microbiome-interactions-in-a-perennial-grass-affect-functional-traits/
https://jgi.doe.gov/publication/quantitative-phylogenetic-assessment-of-microbial-communities-in-diverse-environments/
https://jgi.doe.gov/publication/quantitative-trait-loci-for-cell-wall-composition-traits-measured-using-near-infrared-spectroscopy-in-the-model-c4-perennial-grass-panicum-hallii-2/
https://jgi.doe.gov/publication/quantitative-trait-loci-for-cell-wall-composition-traits-measured-using-near-infrared-spectroscopy-in-the-model-c4-perennial-grass-panicum-hallii/
https://jgi.doe.gov/publication/rainforest-to-pasture-conversion-stimulates-soil-methanogenesis-across-the-brazilian-amazon/
https://jgi.doe.gov/publication/rapid-cell-free-characterization-of-multi-subunit-crispr-effectors-and-transposons-2/
https://jgi.doe.gov/publication/rapid-changes-in-coastal-ocean-microbiomes-uncoupled-with-shifts-in-environmental-variables-2/
https://jgi.doe.gov/publication/rapid-evolution-of-coral-proteins-responsible-for-interaction-with-the-environment/
https://jgi.doe.gov/publication/rapid-kinetic-characterization-of-glycosyl-hydrolases-based-on-oxime-derivatization-and-nanostructure-initiator-mass-spectrometry-nims/
https://jgi.doe.gov/publication/rapid-quantification-of-mutant-fitness-in-diverse-bacteria-by-sequencing-randomly-bar-coded-transposons-11/
https://jgi.doe.gov/publication/rapid-response-of-nitrogen-cycling-gene-transcription-to-labile-carbon-amendments-in-a-soil-microbial-community/
https://jgi.doe.gov/publication/rapid-selective-sweep-of-pre-existing-polymorphisms-and-slow-fixation-of-new-mutations-in-experimental-evolution-of-desulfovibrio-vulgaris-11/
https://jgi.doe.gov/publication/rapid-whole-genome-mutational-profiling-using-next-generation-sequencing-technologies-2/
https://jgi.doe.gov/publication/rapid-whole-genome-mutational-profiling-using-next-generation-sequencing-technologies/
https://jgi.doe.gov/publication/rare-earth-element-alcohol-dehydrogenases-widely-occur-among-globally-distributed-numerically-abundant-and-environmentally-important-microbes/
https://jgi.doe.gov/publication/rare-loss-of-function-mutations-in-angptl-family-members-contribute-to-plasma-triglyceride-levels-in-humans/
https://jgi.doe.gov/publication/rational-reprogramming-of-o-methylation-regioselectivity-for-combinatorial-biosynthetic-tailoring-of-benzenediol-lactone-scaffolds/
https://jgi.doe.gov/publication/rationale-for-reconsidering-current-regulations-restricting-use-of-hybrids-in-orange-juice/
https://jgi.doe.gov/publication/re-evaluating-the-systematics-of-dendrolycopodium-using-restriction-site-associated-dna-sequencing-2/
https://jgi.doe.gov/publication/reactive-iron-not-fungal-community-drives-organic-carbon-oxidation-potential-in-floodplain-soils/
https://jgi.doe.gov/publication/rearrangement-of-a-large-novel-pseudomonas-aeruginosa-gene-island-in-strains-isolated-from-a-patient-developing-ventilator-associated-pneumonia-2/
https://jgi.doe.gov/publication/recent-activity-in-expanding-populations-and-purifying-selection-have-shaped-transposable-element-landscapes-across-natural-accessions-of-the-mediterranean-grass-brachypodium-distachyon-2/
https://jgi.doe.gov/publication/recent-activity-in-expanding-populations-and-purifying-selection-have-shaped-transposable-element-landscapes-across-natural-accessions-of-the-mediterranean-grass-brachypodium-distachyon/
https://jgi.doe.gov/publication/reclassification-of-a-polynucleobacter-cosmopolitanus-strain-isolated-from-tropical-lake-victoria-as-polynucleobacter-victoriensis-sp-nov/
https://jgi.doe.gov/publication/reclassification-of-sphaerobacter-thermophilus-from-the-subclass-sphaerobacteridae-in-the-phylum-actinobacteria-to-the-class-thermomicrobia-emended-description-in-the-phylum-chloroflexi-emended-des/
https://jgi.doe.gov/publication/reclassification-of-the-clostridium-clostridioforme-and-clostridium-sphenoides-clades-as-enterocloster-gen-nov-and-lacrimispora-gen-nov-including-reclassification-of-15-taxa/
https://jgi.doe.gov/publication/recoding-of-stop-codons-expands-the-metabolic-potential-of-two-novel-asgardarchaeota-lineages/
https://jgi.doe.gov/publication/recombination-and-insertion-events-involving-the-botulinum-neurotoxin-complex-genes-in-clostridium-botulinum-types-a-b-e-and-f-and-clostridium-butyricum-type-e-strains-2/
https://jgi.doe.gov/publication/recombination-and-insertion-events-involving-the-botulinum-neurotoxin-complex-genes-in-clostridium-botulinum-types-a-b-e-and-f-and-clostridium-butyricum-type-e-strains/
https://jgi.doe.gov/publication/recombination-should-not-be-an-afterthought/
https://jgi.doe.gov/publication/reconstructing-each-cells-genome-within-complex-microbial-communities-dream-or-reality/
https://jgi.doe.gov/publication/reconstruction-of-regulatory-and-metabolic-pathways-in-metal-reducing-delta-proteobacteria/
https://jgi.doe.gov/publication/recovery-of-genomes-from-metagenomes-via-a-dereplication-aggregation-and-scoring-strategy/
https://jgi.doe.gov/publication/recreating-stable-brachypodium-hybridum-allotetraploids-by-uniting-the-divergent-genomes-of-b-distachyon-and-b-stacei/
https://jgi.doe.gov/publication/recruiting-human-microbiome-shotgun-data-to-site-specific-reference-genomes/
https://jgi.doe.gov/publication/recurrent-patterns-of-microdiversity-in-a-temperate-coastal-marine-environment/
https://jgi.doe.gov/publication/rediscovery-by-whole-genome-sequencing-classical-mutations-and-genome-polymorphisms-in-neurospora-crassa/
https://jgi.doe.gov/publication/reductive-amination-cascades-in-cell%e2%80%90free-and-resting-whole-cell-formats-for-valorization-of-lignin-deconstruction-products-2/
https://jgi.doe.gov/publication/reductive-amination-cascades-in-cell%e2%80%90free-and-resting-whole-cell-formats-for-valorization-of-lignin-deconstruction-products-3/
https://jgi.doe.gov/publication/reductive-amination-cascades-in-cell%e2%80%90free-and-resting-whole-cell-formats-for-valorization-of-lignin-deconstruction-products/
https://jgi.doe.gov/publication/reductive-enzyme-cascades-for-valorization-of-polyethylene-terephthalate-deconstruction-products/
https://jgi.doe.gov/publication/reekeekee-and-roodoodooviruses-two-different-microviridae-clades-constituted-by-the-smallest-dna-phages/
https://jgi.doe.gov/publication/reevaluating-the-salty-divide-phylogenetic-specificity-of-transitions-between-marine-and-freshwater-systems/
https://jgi.doe.gov/publication/reference-free-structural-variant-detection-in-microbiomes-via-long-read-co-assembly-graphs-2/
https://jgi.doe.gov/publication/reference-free-structural-variant-detection-in-microbiomes-via-long-read-co-assembly-graphs/
https://jgi.doe.gov/publication/reference-genome-common-bean-genome-wide-analysis-dual-domestications/
https://jgi.doe.gov/publication/reference-genome-sequence-of-the-model-plant-setaria/
https://jgi.doe.gov/publication/refined-annotation-and-assembly-of-the-tetrahymena-thermophila-genome-sequence-through-est-analysis-comparative-genomic-hybridization-and-targeted-gap-closure/
https://jgi.doe.gov/publication/refinement-of-the-candidatus-accumulibacter-genus-based-on-metagenomic-analysis-of-biological-nutrient-removal-bnr-pilot-scale-plants-operated-with-reduced-aeration-2/
https://jgi.doe.gov/publication/refinement-of-the-candidatus-accumulibacter-genus-based-on-metagenomic-analysis-of-biological-nutrient-removal-bnr-pilot-scale-plants-operated-with-reduced-aeration/
https://jgi.doe.gov/publication/regprecise-3-0-a-resource-for-genome-scale-exploration-of-transcriptional-regulation-in-bacteria/
https://jgi.doe.gov/publication/regprecise-a-database-of-curated-genomic-inferences-of-transcriptional-regulatory-interactions-in-prokaryotes-2/
https://jgi.doe.gov/publication/regprecise-a-database-of-curated-genomic-inferences-of-transcriptional-regulatory-interactions-in-prokaryotes/
https://jgi.doe.gov/publication/regprecise-web-services-interface-programmatic-access-to-the-transcriptional-regulatory-interactions-in-bacteria-reconstructed-by-comparative-genomics/
https://jgi.doe.gov/publication/regpredict-an-integrated-system-for-regulon-inference-in-prokaryotes-by-comparative-genomics-approach/
https://jgi.doe.gov/publication/regtransbase-a-database-of-regulatory-sequences-and-interactions-based-on-literature-a-resource-for-investigating-transcriptional-regulation-in-prokaryotes/
https://jgi.doe.gov/publication/regtransbase-a-database-of-regulatory-sequences-and-interactions-in-a-wide-range-of-prokaryotic-genomes/
https://jgi.doe.gov/publication/regulation-of-cell-to-cell-communication-and-cell-wall-integrity-by-a-network-of-map-kinase-pathways-and-transcription-factors-in-neurospora-crassa/
https://jgi.doe.gov/publication/regulation-of-hair-cell-and-stomatal-size-by-a-hair-cell-specific-peroxidase-in-the-grass-brachypodium-distachyo-n/
https://jgi.doe.gov/publication/regulation-of-the-expression-of-the-apolipoproteina-gene-evidence-for-a-regulatory-role-of-the-5-distal-apolipoproteina-transcription-control-region-enhancer-in-yeast-artificial-chromosome-tra/
https://jgi.doe.gov/publication/regulation-of-yeast-to-hyphae-transition-in-yarrowia-lipolytica/
https://jgi.doe.gov/publication/relationship-between-abundance-and-specific-activity-of-bacterioplankton-in-open-ocean-surface-waters/
https://jgi.doe.gov/publication/relationships-between-fluid-mixing-biodiversity-and-chemosynthetic-primary-productivity-in-yellowstone-hot-springs/
https://jgi.doe.gov/publication/remarkably-coherent-population-structure-for-a-dominant-antarctic-chlorobium-species-2/
https://jgi.doe.gov/publication/repeated-cis-regulatory-tuning-of-a-metabolic-bottleneck-gene-during-evolution/
https://jgi.doe.gov/publication/repeated-migration-interbreeding-and-bottlenecking-shaped-the-phylogeography-of-the-selfing-grass-brachypodium-stacei-2/
https://jgi.doe.gov/publication/repeated-migration-interbreeding-and-bottlenecking-shaped-the-phylogeography-of-the-selfing-grass-brachypodium-stacei-3/
https://jgi.doe.gov/publication/repeated-migration-interbreeding-and-bottlenecking-shaped-the-phylogeography-of-the-selfing-grass-brachypodium-stacei/
https://jgi.doe.gov/publication/repeated-polyploidization-of-gossypium-genomes-and-the-evolution-of-spinnable-cotton-fibres/
https://jgi.doe.gov/publication/reply-to-examining-microbe-metabolite-correlations-by-linear-methods/
https://jgi.doe.gov/publication/representing-sex-chromosomes-in-genome-assemblies-2/
https://jgi.doe.gov/publication/resequencing-and-annotation-of-the-nostoc-punctiforme-attc-29133-genome-facilitating-biofuel-and-high-value-chemical-production/
https://jgi.doe.gov/publication/resolving-the-controls-over-the-production-and-emission-of-ice-nucleating-particles-in-sea-spray/
https://jgi.doe.gov/publication/response-to-comment-on-hexapod-origins-monophyletic-or-paraphyletic/
https://jgi.doe.gov/publication/restoration-of-biofuel-production-levels-and-increased-tolerance-under-ionic-liquid-stress-is-enabled-by-a-mutation-in-the-essential-escherichia-coli-gene-cydc/
https://jgi.doe.gov/publication/restoring-wetlands-on-intensive-agricultural-lands-modifies-nitrogen-cycling-microbial-communities-and-reduces-n2o-production-potential/
https://jgi.doe.gov/publication/revealing-enzyme-functional-architecture-via-high-throughput-microfluidic-enzyme-kinetics/
https://jgi.doe.gov/publication/revealing-reaction-intermediates-in-one-carbon-elongation-by-thiamine-diphosphate-coa-dependent-enzyme-family-2/
https://jgi.doe.gov/publication/revealing-reaction-intermediates-in-one-carbon-elongation-by-thiamine-diphosphate-coa-dependent-enzyme-family-3/
https://jgi.doe.gov/publication/revealing-reaction-intermediates-in-one-carbon-elongation-by-thiamine-diphosphate-coa-dependent-enzyme-family/
https://jgi.doe.gov/publication/revealing-the-transcriptomic-complexity-of-switchgrass-by-pacbio-long-read-sequencing/
https://jgi.doe.gov/publication/reversal-of-carbapenem-resistance-in-shewanella-algae-by-crispr-cas9-genome-editing/
https://jgi.doe.gov/publication/reverse-methanogenesis-testing-the-hypothesis-with-environmental-genomics/
https://jgi.doe.gov/publication/revised-sequence-and-annotation-of-the-rhodobacter-sphaeroides-2-4-1-genome/
https://jgi.doe.gov/publication/revisiting-a-simple-fungal-metabolic-pathway-reveals-redundancy-complexity-and-diversity/
https://jgi.doe.gov/publication/revisiting-the-sequencing-of-the-first-tree-genome-populus-trichocarpa/
https://jgi.doe.gov/publication/rewiring-metabolism-of-clostridium-thermocellum-for-consolidated-bioprocessing-of-lignocellulosic-biomass-poplar-to-produce-short-chain-esters/
https://jgi.doe.gov/publication/rex-encoded-by-dvu_0916-in-desulfovibrio-vulgaris-hildenborough-is-a-repressor-of-sulfate-adenylyl-transferase-and-is-regulated-by-nadh/
https://jgi.doe.gov/publication/rhizosphere-and-detritusphere-habitats-modulate-expression-of-soil-n-cycling-genes-during-plant-development/
https://jgi.doe.gov/publication/rice-snp-seek-database-update-new-snps-indels-and-queries/
https://jgi.doe.gov/publication/riding-giants/
https://jgi.doe.gov/publication/rivit-seq-enables-systematic-identification-of-regulons-of-transcriptional-machineries-2/
https://jgi.doe.gov/publication/rna-dependent-cysteine-biosynthesis-in-bacteria-and-archaea-2/
https://jgi.doe.gov/publication/rna-dependent-cysteine-biosynthesis-in-bacteria-and-archaea/
https://jgi.doe.gov/publication/rna-editing-in-basidiomycota-revisited-2/
https://jgi.doe.gov/publication/rna-seq-based-high-resolution-linkage-map-reveals-the-genetic-architecture-of-fruiting-body-development-in-shiitake-mushroom-lentinula-edodes-3/
https://jgi.doe.gov/publication/rna-seq-based-high-resolution-linkage-map-reveals-the-genetic-architecture-of-fruiting-body-development-in-shiitake-mushroom-lentinula-edodes/
https://jgi.doe.gov/publication/rna-seq-reveals-that-light-and-darkness-are-different-stimuli-in-freshwater-heterotrophic-actinobacteria-2/
https://jgi.doe.gov/publication/robust-analysis-of-5-transcript-ends-5-rate-a-novel-technique-for-transcriptome-analysis-and-genome-annotation/
https://jgi.doe.gov/publication/robust-and-effective-methodologies-for-cryopreservation-and-dna-extraction-from-anaerobic-gut-fungi/
https://jgi.doe.gov/publication/rokubacteria-genomic-giants-among-the-uncultured-bacterial-phyla/
https://jgi.doe.gov/publication/rolling-circle-amplification-for-sequencing-templates/
https://jgi.doe.gov/publication/rolling-circle-amplification-of-metazoan-mitochondrial-genomes/
https://jgi.doe.gov/publication/root-associated-bacterial-communities-and-root-metabolite-composition-are-linked-to-nitrogen-use-efficiency-in-sorghum/
https://jgi.doe.gov/publication/root-exudates-alter-the-expression-of-diverse-metabolic-transport-regulatory-and-stress-response-genes-in-rhizosphere-pseudomonas/
https://jgi.doe.gov/publication/rumen-metagenome-and-metatranscriptome-analyses-of-low-methane-yield-sheep-reveals-a-sharpea-enriched-microbiome-characterised-by-lactic-acid-formation-and-utilisation/
https://jgi.doe.gov/publication/russulaceae-a-new-genomic-dataset-to-study-ecosystem-function-and-evolutionary-diversification-of-ectomycorrhizal-fungi-with-their-tree-associates/
https://jgi.doe.gov/publication/salicylic-acid-activates-poplar-defense-against-the-biotrophic-rust-fungus-melampsora-larici-populina-via-increased-biosynthesis-of-catechin-and-proanthocyanidins/
https://jgi.doe.gov/publication/salicylic-acid-modulates-colonization-of-the-root-microbiome-by-specific-bacterial-taxa-11/
https://jgi.doe.gov/publication/salinity-tolerance-mechanisms-of-an-arctic-pelagophyte-using-comparative-transcriptomic-and-gene-expression-analysis-2/
https://jgi.doe.gov/publication/salt-tolerance-of-two-perennial-grass-brachypodium-sylvaticum-accessions/
https://jgi.doe.gov/publication/sar11-bacteria-linked-to-ocean-anoxia-and-nitrogen-loss/
https://jgi.doe.gov/publication/sbol-visual-a-graphical-language-for-genetic-designs/
https://jgi.doe.gov/publication/scanning-human-gene-deserts-for-long-range-enhancers/
https://jgi.doe.gov/publication/scmicrobe-pta-near-complete-genomes-from-single-bacterial-cells-2/
https://jgi.doe.gov/publication/scmicrobe-pta-near-complete-genomes-from-single-bacterial-cells-3/
https://jgi.doe.gov/publication/scmicrobe-pta-near-complete-genomes-from-single-bacterial-cells/
https://jgi.doe.gov/publication/sea-anemone-genome-reveals-ancestral-eumetazoan-gene-repertoire-and-genomic-organization/
https://jgi.doe.gov/publication/seagrass-genomes-reveal-ancient-polyploidy-and-adaptations-to-the-marine-environment/
https://jgi.doe.gov/publication/searching-for-fat-tails-in-crispr-cas-systems-data-analysis-and-mathematical-modeling/
https://jgi.doe.gov/publication/seasonal-activities-of-the-phyllosphere-microbiome-of-perennial-crops/
https://jgi.doe.gov/publication/seasonal-dynamics-of-core-fungi-in-the-switchgrass-phyllosphere-and-co-occurrence-with-leaf-bacteria/
https://jgi.doe.gov/publication/seasonal-fluctuations-in-ionic-concentrations-drive-microbial-succession-in-a-hypersaline-lake-community/
https://jgi.doe.gov/publication/seasonal-succession-leads-to-habitat-dependent-differentiation-in-ribosomal-rnadna-ratios-among-freshwater-lake-bacteria/
https://jgi.doe.gov/publication/secondary-wall-associated-myb1-is-a-positive-regulator-of-secondary-cell-wall-thickening-in-brachypodium-distachyon-and-is-not-found-in-the-brassicaceae/
https://jgi.doe.gov/publication/secreted-effector-proteins-of-the-poplar-leaf-spot-and-stem-canker-pathogen-sphaerulina-musiva-manipulate-plant-immunity-and-contribute-to-virulence-in-diverse-ways/
https://jgi.doe.gov/publication/secretome-analysis-from-the-ectomycorrhizal-ascomycete-cenococcum-geophilum/
https://jgi.doe.gov/publication/sediment-microbial-communities-in-great-boiling-spring-are-controlled-by-temperature-and-distinct-from-water-communities/
https://jgi.doe.gov/publication/selection-for-unequal-densities-of-sigma70-promoter-like-signals-in-different-regions-of-large-bacterial-genomes/
https://jgi.doe.gov/publication/selection-to-sequence-opportunities-in-fungal-genomics/
https://jgi.doe.gov/publication/self-buffering-system-for-cost-effective-production-of-lactic-acid-from-glucose-and-xylose-using-acid-tolerant-issatchenkia-orientalis/
https://jgi.doe.gov/publication/selinene-volatiles-are-essential-precursors-for-maize-defense-promoting-fungal-pathogen-resistance/
https://jgi.doe.gov/publication/sensitivity-analysis-of-genome-scale-metabolic-flux-prediction/
https://jgi.doe.gov/publication/sequence-and-genetic-map-of-meloidogyne-hapla-a-compact-nematode-genome-for-plant-parasitism/
https://jgi.doe.gov/publication/sequence-based-bioprospecting-of-myo-inositol-oxygenase-miox-reveals-new-homologues-that-increase-glucaric-acid-production-in-saccharomyces-cerevisiae-2/
https://jgi.doe.gov/publication/sequence-based-bioprospecting-of-myo-inositol-oxygenase-miox-reveals-new-homologues-that-increase-glucaric-acid-production-in-saccharomyces-cerevisiae/
https://jgi.doe.gov/publication/sequence-based-introgression-mapping-identifies-candidate-white-mold-tolerance-genes-in-common-bean/
https://jgi.doe.gov/publication/sequence-variants-in-the-hlx-gene-at-chromosome-1q41-1q42-in-patients-with-diaphragmatic-hernia/
https://jgi.doe.gov/publication/sequencing-and-analysis-of-the-entire-genome-of-the-mycoparasitic-bioeffector-fungus-trichoderma-asperelloides-strain-t-203-hypocreales-2/
https://jgi.doe.gov/publication/sequencing-and-comparing-whole-mitochondrial-genomes-of-animals/
https://jgi.doe.gov/publication/sequencing-and-functional-validation-of-the-jgi-brachypodium-distachyon-t-dna-collection-2/
https://jgi.doe.gov/publication/sequencing-and-functional-validation-of-the-jgi-brachypodium-distachyon-t-dna-collection/
https://jgi.doe.gov/publication/sequencing-genomes-from-single-cells-by-polymerase-cloning/
https://jgi.doe.gov/publication/sequencing-of-15622-gene-bearing-bacs-clarifies-the-gene-dense-regions-of-the-barley-genome-11/
https://jgi.doe.gov/publication/sequencing-of-diverse-mandarin-pummelo-and-orange-genomes-reveals-complex-history-of-admixture-during-citrus-domestication/
https://jgi.doe.gov/publication/sequencing-of-genomes-from-environmental-single-cells/
https://jgi.doe.gov/publication/sequencing-of-multiple-clostridial-genomes-related-to-biomass-conversion-and-biofuel-production/
https://jgi.doe.gov/publication/sequencing-the-fungal-tree-of-life/
https://jgi.doe.gov/publication/sequencing-the-genomes-of-the-first-terrestrial-fungal-lineages-what-have-we-learned/
https://jgi.doe.gov/publication/sequencing-wild-and-cultivated-cassava-and-related-species-reveals-extensive-interspecific-hybridization-and-genetic-diversity/
https://jgi.doe.gov/publication/serendipita-fungi-modulate-the-switchgrass-root-transcriptome-to-circumvent-host-defenses-and-establish-a-symbiotic-relationship/
https://jgi.doe.gov/publication/serpentinization-influenced-groundwater-harbors-extremely-low-diversity-microbial-communities-adapted-to-high-ph/
https://jgi.doe.gov/publication/seven-genome-sequences-of-airborne-bacterial-isolates-from-antarctica-2/
https://jgi.doe.gov/publication/seven-genome-sequences-of-airborne-bacterial-isolates-from-antarctica-3/
https://jgi.doe.gov/publication/seven-genome-sequences-of-airborne-bacterial-isolates-from-antarctica/
https://jgi.doe.gov/publication/seven-genome-sequences-of-bacterial-environmental-isolates-from-pony-lake-antarctica/
https://jgi.doe.gov/publication/shared-genomic-regions-between-derivatives-of-a-large-segregating-population-of-maize-identified-using-bulked-segregant-analysis-sequencing-and-traditional-linkage-analysis-11/
https://jgi.doe.gov/publication/sharing-structure-and-function-in-biological-design-with-sbol-2-0/
https://jgi.doe.gov/publication/shed-light-in-the-dark-lineages-of-the-fungal-tree-of-life-stres/
https://jgi.doe.gov/publication/shedding-light-on-spatial-structure-and-dynamics-in-phototrophic-biofilms-2/
https://jgi.doe.gov/publication/shedding-light-on-spatial-structure-and-dynamics-in-phototrophic-biofilms-3/
https://jgi.doe.gov/publication/shedding-light-on-spatial-structure-and-dynamics-in-phototrophic-biofilms/
https://jgi.doe.gov/publication/short-sequence-motifs-overrepresented-in-mammalian-conserved-non-coding-sequences/
https://jgi.doe.gov/publication/short-term-nitrogen-fertilization-affects-microbial-community-composition-and-nitrogen-mineralization-functions-in-an-agricultural-soil/
https://jgi.doe.gov/publication/shotgun-metagenome-data-of-a-defined-mock-community-using-oxford-nanopore-pacbio-and-illumina-technologies/
https://jgi.doe.gov/publication/shotgun-metagenomic-analysis-of-microbial-communities-from-the-loxahatchee-nature-preserve-in-the-florida-everglades/
https://jgi.doe.gov/publication/shotgunfunctionalizer-an-r-package-for-functional-comparison-of-metagenomes/
https://jgi.doe.gov/publication/sigma54-dependent-regulome-in-desulfovibrio-vulgaris-hildenborough/
https://jgi.doe.gov/publication/signatures-of-transposon-mediated-genome-inflation-host-specialization-and-photoentrainment-in-entomophthora-muscae-and-allied-entomophthoralean-fungi-2/
https://jgi.doe.gov/publication/signatures-of-transposon-mediated-genome-inflation-host-specialization-and-photoentrainment-in-entomophthora-muscae-and-allied-entomophthoralean-fungi/
https://jgi.doe.gov/publication/significant-alteration-of-gene-expression-in-wood-decay-fungi-postia-placenta-and-phanerochaete-chrysosporium-by-plant-species/
https://jgi.doe.gov/publication/silencing-of-dicer%e2%80%90like-protein-2a-restores-the-resistance-phenotype-in-the-rice-mutant-sxi4-suppressor-of-xa21%e2%80%90mediated-immunity-4-2/
https://jgi.doe.gov/publication/silicon-rich-soil-amendments-impact-microbial-community-composition-and-the-composition-of-arsm-bearing-microbes/
https://jgi.doe.gov/publication/similar-microbial-communities-found-on-two-distant-seafloor-basalts/
https://jgi.doe.gov/publication/simile-enables-alignment-of-tandem-mass-spectra-with-statistical-significance-2/
https://jgi.doe.gov/publication/simple-and-rapid-site-specific-integration-of-multiple-heterologous-dnas-into-the-escherichia-coli-chromosome/
https://jgi.doe.gov/publication/simulation-of-deepwater-horizon-oil-plume-reveals-substrate-specialization-within-a-complex-community-of-hydrocarbon-degraders-2/
https://jgi.doe.gov/publication/simulation-of-deepwater-horizon-oil-plume-reveals-substrate-specialization-within-a-complex-community-of-hydrocarbon-degraders/
https://jgi.doe.gov/publication/single-cell-and-metagenomic-analyses-indicate-a-fermentative-and-saccharolytic-lifestyle-for-members-of-the-op9-lineage/
https://jgi.doe.gov/publication/single-cell-enabled-comparative-genomics-of-a-deep-ocean-sar11-bathytype/
https://jgi.doe.gov/publication/single-cell-genomic-and-transcriptomic-evidence-for-the-use-of-alternative-nitrogen-substrates-by-anammox-bacteria-2/
https://jgi.doe.gov/publication/single-cell-genomic-and-transcriptomic-evidence-for-the-use-of-alternative-nitrogen-substrates-by-anammox-bacteria/
https://jgi.doe.gov/publication/single-cell-genomics-based-analysis-of-virus-host-interactions-in-marine-surface-bacterioplankton-11/
https://jgi.doe.gov/publication/single-cell-genomics-for-the-masses/
https://jgi.doe.gov/publication/single-cell-genomics-of-co-sorted-nanoarchaeota-suggests-novel-putative-host-associations-and-diversification-of-proteins-involved-in-symbiosis/
https://jgi.doe.gov/publication/single-cell-genomics-reveal-low-recombination-frequencies-in-freshwater-bacteria-of-the-sar11-clade/
https://jgi.doe.gov/publication/single-cell-genomics-reveals-complex-carbohydrate-degradation-patterns-in-poribacterial-symbionts-of-marine-sponges-2/
https://jgi.doe.gov/publication/single-cell-genomics-reveals-features-of-a-colwellia-species-that-was-dominant-during-the-deepwater-horizon-oil-spill/
https://jgi.doe.gov/publication/single-cell-genomics-reveals-hundreds-of-coexisting-subpopulations-in-wild-prochlorococcus/
https://jgi.doe.gov/publication/single-cell-isotope-tracing-reveals-functional-guilds-of-bacteria-associated-with-the-diatom-phaeodactylum-tricornutum/
https://jgi.doe.gov/publication/single-cell-profiling-of-arabidopsis-leaves-to-pseudomonas-syringae-infection/
https://jgi.doe.gov/publication/single-cell-rna-sequencing-reveals-intrinsic-and-extrinsic-regulatory-heterogeneity-in-yeast-responding-to-stress/
https://jgi.doe.gov/publication/single-cell-sequencing-of-thiomargarita-reveals-genomic-flexibility-for-adaptation-to-dynamic-redox-conditions/
https://jgi.doe.gov/publication/single-parent-expression-drives-dynamic-gene-expression-complementation-in-maize-hybrids/
https://jgi.doe.gov/publication/site-directed-disruption-of-the-fima-and-fimf-fimbrial-genes-of-xylella-fastidiosa/
https://jgi.doe.gov/publication/site-selective-c-h-halogenation-using-flavin-dependent-halogenases-identified-via-family-wide-activity-profiling/
https://jgi.doe.gov/publication/small-cells-with-big-secrets/
https://jgi.doe.gov/publication/small-partners-big-impacts-2/
https://jgi.doe.gov/publication/snp-assay-development-for-linkage-map-construction-anchoring-whole-genome-sequence-and-other-genetic-and-genomic-applications-in-common-bean-11/
https://jgi.doe.gov/publication/socotra-island-the-forgotten-fragment-of-gondwana-unmasking-chameleon-lizard-history-with-complete-mitochondrial-genomic-data/
https://jgi.doe.gov/publication/sodalis-ligni-strain-159r-isolated-from-an-anaerobic-lignin-degrading-consortium-2/
https://jgi.doe.gov/publication/soil-bacterial-populations-are-shaped-by-recombination-and-gene-specific-selection-across-a-grassland-meadow/
https://jgi.doe.gov/publication/soil-compartments-bulk-soil-litter-root-and-rhizosphere-as-main-drivers-of-soil-protistan-communities-distribution-in-forests-with-different-nitrogen-deposition-2/
https://jgi.doe.gov/publication/soil-exchange-rates-of-cos-and-co18o-differ-with-the-diversity-of-microbial-communities-and-their-carbonic-anhydrase-enzymes/
https://jgi.doe.gov/publication/soil-metabolome-response-to-whole-ecosystem-warming-at-the-spruce-and-peatland-responses-under-changing-environments-experiment/
https://jgi.doe.gov/publication/soil-metabolomics-deciphering-underground-metabolic-webs-in-terrestrial-ecosystems-2/
https://jgi.doe.gov/publication/soil-metabolomics-deciphering-underground-metabolic-webs-in-terrestrial-ecosystems/
https://jgi.doe.gov/publication/soil-microbiome-feedbacks-during-disturbance-driven-forest-ecosystem-conversion/
https://jgi.doe.gov/publication/soil-ph-influences-the-structure-of-virus-communities-at-local-and-global-scales-2/
https://jgi.doe.gov/publication/soil-viruses-are-underexplored-players-in-ecosystem-carbon-processing/
https://jgi.doe.gov/publication/soils-and-sediments-host-thermoplasmata-archaea-encoding-novel-copper-membrane-monooxygenases-cummos-2/
https://jgi.doe.gov/publication/solvent-producing-clostridia-revisited/
https://jgi.doe.gov/publication/sorting-for-secreted-molecule-production-using-a-biosensor-in-microdroplet-approach/
https://jgi.doe.gov/publication/soycsn-soybean-context-specific-network-analysis-and-prediction-based-on-tissue-specific-transcriptome-data/
https://jgi.doe.gov/publication/soydb-a-knowledge-database-of-soybean-transcription-factors/
https://jgi.doe.gov/publication/spacer2pam-a-computational-framework-to-guide-experimental-determination-of-functional-crispr-cas-system-pam-sequences-2/
https://jgi.doe.gov/publication/sparc-scalable-sequence-clustering-using-apache-spark/
https://jgi.doe.gov/publication/sparse-panicle1-is-required-for-inflorescence-development-in-setaria-viridis-and-maize-2/
https://jgi.doe.gov/publication/sparse-panicle1-is-required-for-inflorescence-development-in-setaria-viridis-and-maize/
https://jgi.doe.gov/publication/spatial-co-transcriptomics-reveals-discrete-stages-of-the-arbuscular-mycorrhizal-symbiosis-2/
https://jgi.doe.gov/publication/spatial-co-transcriptomics-reveals-discrete-stages-of-the-arbuscular-mycorrhizal-symbiosis/
https://jgi.doe.gov/publication/spatial-homogeneity-of-bacterial-communities-associated-with-the-surface-mucus-layer-of-the-reef-building-coral-acropora-palmata/
https://jgi.doe.gov/publication/spatial-temporal-and-phylogenetic-scales-of-microbial-ecology/
https://jgi.doe.gov/publication/spatiotemporal-distribution-of-bacterioplankton-functional-groups-along-a-freshwater-estuary-to-pelagic-gradient-in-lake-michigan/
https://jgi.doe.gov/publication/specialized-plant-biochemistry-drives-gene-clustering-in-fungi/
https://jgi.doe.gov/publication/specialized-plant-growth-chamber-designs-to-study-complex-rhizosphere-interactions/
https://jgi.doe.gov/publication/specialized-proteomic-responses-and-an-ancient-photoprotection-mechanism-sustain-marine-green-algal-growth-during-phosphate-limitation/
https://jgi.doe.gov/publication/speciation-underpinned-by-unexpected-molecular-diversity-in-the-mycorrhizal-fungal-genus-pisolithus/
https://jgi.doe.gov/publication/species-specific-duplication-event-associated-with-elevated-levels-of-nonstructural-carbohydrates-in-sorghum-bicolor/
https://jgi.doe.gov/publication/sphagnum-physiology-in-the-context-of-changing-climate-emergent-influences-of-genomics-modeling-and-host-microbiome-interactions-on-understanding-ecosystem-function/
https://jgi.doe.gov/publication/sphingomonas-palmae-sp-nov-and-sphingomonas-gellani-sp-nov-endophytically-associated-phyllosphere-bacteria-isolated-from-economically-important-crop-plants/
https://jgi.doe.gov/publication/spirochaeta-cellobiosiphila-sp-nov-a-facultatively-anaerobic-marine-spirochaete/
https://jgi.doe.gov/publication/spray%e2%80%90induced-gene-silencing-to-identify-powdery-mildew-gene-targets-and-processes-for-powdery-mildew-control/
https://jgi.doe.gov/publication/spreading-of-aqueous-solutions-of-trisiloxanes-and-conventional-surfactants-over-ptfe-af-coated-silicone-wafers/
https://jgi.doe.gov/publication/standardized-naming-of-microbiome-samples-in-genomes-online-database/
https://jgi.doe.gov/publication/staphylococcus-aureus-subsp-anaerobius-strain-st1464-genome-sequence/
https://jgi.doe.gov/publication/statistical-3d-morphology-characterization-of-vaterite-microspheres-produced-by-engineered-escherichia-coli-2/
https://jgi.doe.gov/publication/statistical-3d-morphology-characterization-of-vaterite-microspheres-produced-by-engineered-escherichia-coli-3/
https://jgi.doe.gov/publication/statistical-3d-morphology-characterization-of-vaterite-microspheres-produced-by-engineered-escherichia-coli/
https://jgi.doe.gov/publication/statistical-analysis-of-feature-based-molecular-networking-results-from-non-targeted-metabolomics-data-2/
https://jgi.doe.gov/publication/statistical-analysis-of-feature-based-molecular-networking-results-from-non-targeted-metabolomics-data-3/
https://jgi.doe.gov/publication/statistical-analysis-of-feature-based-molecular-networking-results-from-non-targeted-metabolomics-data/
https://jgi.doe.gov/publication/stem-cell-antigen-1-is-necessary-for-cell-cycle-withdrawal-and-myoblast-differentiation-in-c2c12-cells/
https://jgi.doe.gov/publication/stepping-on-the-gas-to-a-circular-economy-accelerating-development-of-carbon-negative-chemical-production-from-gas-fermentation/
https://jgi.doe.gov/publication/stepwise-recombination-suppression-around-the-mating-type-locus-in-an-ascomycete-fungus-with-self-fertile-spores/
https://jgi.doe.gov/publication/sterol-methyltransferases-in-uncultured-bacteria-complicate-eukaryotic-biomarker-interpretations/
https://jgi.doe.gov/publication/stimulation-of-dissimilatory-sulfate-reduction-in-response-to-sulfate-in-microcosm-incubations-from-two-contrasting-temperate-peatlands-near-ithaca-ny-usa-2/
https://jgi.doe.gov/publication/stop-codon-reassignments-in-the-wild/
https://jgi.doe.gov/publication/strain-resolved-community-proteomics-reveals-recombining-genomes-of-acidophilic-bacteria/
https://jgi.doe.gov/publication/strand-specific-rna-seq-analyses-of-fruiting-body-development-in-coprinopsis-cinerea/
https://jgi.doe.gov/publication/strategic-integration-of-multiple-bioinformatics-resources-for-system-level-analysis-of-biological-networks/
https://jgi.doe.gov/publication/strategies-and-tools-for-whole-genome-alignments/
https://jgi.doe.gov/publication/strategies-for-enhancing-the-effectiveness-of-metagenomic-based-enzyme-discovery-in-lignocellulolytic-microbial-communities/
https://jgi.doe.gov/publication/streamlining-the-design-to-build-transition-with-build-optimization-software-tools/
https://jgi.doe.gov/publication/stress-responses-in-an-arctic-microalga-pelagophyceae-following-sudden-salinity-change-revealed-by-gene-expression-analysis-2/
https://jgi.doe.gov/publication/stress-responses-in-an-arctic-microalga-pelagophyceae-following-sudden-salinity-change-revealed-by-gene-expression-analysis-3/
https://jgi.doe.gov/publication/stress-responses-in-an-arctic-microalga-pelagophyceae-following-sudden-salinity-change-revealed-by-gene-expression-analysis/
https://jgi.doe.gov/publication/strong-selection-against-hybrids-at-a-hybrid-zone-in-the-ensatina-ring-species-complex-and-its-evolutionary-implications/
https://jgi.doe.gov/publication/structural-and-functional-modularity-of-the-orange-carotenoid-protein-distinct-roles-for-the-n-and-c-terminal-domains-in-cyanobacterial-photoprotection/
https://jgi.doe.gov/publication/structural-characterization-of-a-soil-viral-auxiliary-metabolic-gene-product-a-functional-chitosanase-2/
https://jgi.doe.gov/publication/structural-determinants-underlying-photoprotection-in-the-photoactive-orange-carotenoid-protein-of-cyanobacteria/
https://jgi.doe.gov/publication/structural-dynamics-and-transcriptomic-analysis-of-dehalococcoides-mccartyi-within-a-tce-dechlorinating-community-in-a-completely-mixed-flow-reactor/
https://jgi.doe.gov/publication/structural-insights-into-bifunctional-thaumarchaeal-crotonyl-coa-hydratase-and-3-hydroxypropionyl-coa-dehydratase-from-nitrosopumilus-maritimus-2/
https://jgi.doe.gov/publication/structural-mechanistic-and-genomic-insights-into-ocp-mediated-photoprotection/
https://jgi.doe.gov/publication/structure-and-dynamics-of-the-microbial-communities-underlying-the-carboxylate-platform-for-biofuel-production/
https://jgi.doe.gov/publication/structure-and-function-of-the-%ce%b2%e2%80%91asp-arg-polymerase-cyanophycin-synthetase-2-2/
https://jgi.doe.gov/publication/structure-determination-of-the-hgcab-complex-using-metagenome-sequence-data-insights-into-microbial-mercury-methylation/
https://jgi.doe.gov/publication/structure-function-and-diversity-of-the-healthy-human-microbiome/
https://jgi.doe.gov/publication/structure-of-the-rubisco-chaperone-rbcx-from-synechocystis-sp-pcc6803/
https://jgi.doe.gov/publication/structures-and-function-of-the-amino-acid-polymerase-cyanophycin-synthetase/
https://jgi.doe.gov/publication/sub-genome-anchored-physical-frameworks-of-the-allotetraploid-upland-cotton-gossypium-hirsutum-l-genome-and-an-approach-toward-reference-grade-assemblies-of-polyploids/
https://jgi.doe.gov/publication/subnanogram-proteomics-impact-of-lc-column-selection-ms-instrumentation-and-data-analysis-strategy-on-proteome-coverage-for-trace-samples/
https://jgi.doe.gov/publication/substrate-availability-and-not-thermal-acclimation-controls-microbial-temperature-sensitivity-response-to-long%e2%80%90term-warming-2/
https://jgi.doe.gov/publication/substrate-perturbation-alters-the-glycoside-hydrolase-activities-and-community-composition-of-switchgrass-adapted-bacterial-consortia/
https://jgi.doe.gov/publication/substrate-promiscuity-of-xenobiotic-transforming-hydrolases-from-stream-biofilms-impacted-by-treated-wastewater-2/
https://jgi.doe.gov/publication/substrate-promiscuity-of-xenobiotic-transforming-hydrolases-from-stream-biofilms-impacted-by-treated-wastewater/
https://jgi.doe.gov/publication/substrate-restricted-methanogenesis-and-limited-volatile-organic-compound-degradation-in-highly-diverse-and-heterogeneous-municipal-landfill-microbial-communities-2/
https://jgi.doe.gov/publication/substrate-specific-differential-gene-expression-and-rna-editing-in-the-brown-rot-fungus-fomitopsis-pinicola/
https://jgi.doe.gov/publication/subsurface-hydrocarbon-degradation-strategies-in-low-and-high-sulfate-coal-seam-communities-identified-with-activity-based-metagenomics-2/
https://jgi.doe.gov/publication/succession-in-the-petroleum-reservoir-microbiome-through-an-oil-field-production-lifecycle-2/
https://jgi.doe.gov/publication/succession-in-the-petroleum-reservoir-microbiome-through-an-oil-field-production-lifecycle/
https://jgi.doe.gov/publication/succession-of-physiological-stages-hallmarks-the-transcriptomic-response-of-the-fungus-aspergillus-niger-to-lignocellulose/
https://jgi.doe.gov/publication/successional-adaptive-strategies-revealed-by-correlating-arbuscular-mycorrhizal-fungal-abundance-with-host-plant-gene-expression-2/
https://jgi.doe.gov/publication/suillus-an-emerging-model-for-the-study-of-ectomycorrhizal-ecology-and-evolution-2/
https://jgi.doe.gov/publication/suillus-an-emerging-model-for-the-study-of-ectomycorrhizal-ecology-and-evolution/
https://jgi.doe.gov/publication/sulfate-reducing-bacteria-that-produce-exopolymers-thrive-in-the-calcifying-zone-of-a-hypersaline-cyanobacterial-mat/
https://jgi.doe.gov/publication/sulfide-generation-by-dominant-halanaerobium-microorganisms-in-hydraulically-fractured-shales/
https://jgi.doe.gov/publication/sulfur-metabolites-that-facilitate-oceanic-phytoplankton-bacteria-carbon-flux/
https://jgi.doe.gov/publication/supercharging-carbohydrate-binding-module-alone-enhances-endocellulase-thermostability-binding-and-activity-on-cellulosic-biomass/
https://jgi.doe.gov/publication/supporting-community-annotation-and-user-collaboration-in-the-integrated-microbial-genomes-img-system/
https://jgi.doe.gov/publication/symbiodinium-transcriptomes-genome-insights-into-the-dinoflagellate-symbionts-of-reef-building-corals/
https://jgi.doe.gov/publication/symbiosis-insights-through-metagenomic-analysis-of-a-microbial-consortium/
https://jgi.doe.gov/publication/symbiotic-burkholderia-species-show-diverse-arrangements-of-niffix-and-nod-genes-and-lack-typical-high-affinity-cytochrome-cbb3-oxidase-genes/
https://jgi.doe.gov/publication/symbiotic-nitrogen-fixation-in-the-reproductive-structures-of-a-basidiomycete-fungus/
https://jgi.doe.gov/publication/symmetric-and-asymmetric-dna-n6-adenine-methylation-regulates-different-biological-responses-in-mucorales-2/
https://jgi.doe.gov/publication/symmetric-and-asymmetric-dna-n6-adenine-methylation-regulates-different-biological-responses-in-mucorales-3/
https://jgi.doe.gov/publication/symmetric-and-asymmetric-dna-n6-adenine-methylation-regulates-different-biological-responses-in-mucorales/
https://jgi.doe.gov/publication/synergistic-interactions-between-anammox-and-dissimilatory-nitrate-reducing-bacteria-sustains-reactor-performance-across-variable-nitrogen-loading-ratios/
https://jgi.doe.gov/publication/synthase-selected-sorting-approach-identifies-a-beta-lactone-synthase-in-a-nudibranch-symbiotic-bacterium/
https://jgi.doe.gov/publication/synthase-selective-exploration-of-a-tunicate-microbiome-by-activity-guided-single-cell-genomics/
https://jgi.doe.gov/publication/synthetic-biology-open-language-sbol-version-2-2-0/
https://jgi.doe.gov/publication/synthetic-biology-open-language-sbol-version-2-3/
https://jgi.doe.gov/publication/synthetic-biology-open-language-sbol-version-3-0-0/
https://jgi.doe.gov/publication/synthetic-hybrids-of-six-yeast-species/
https://jgi.doe.gov/publication/systematic-identification-of-gene-families-for-use-as-markers-for-phylogenetic-and-phylogeny-driven-ecological-studies-of-bacteria-and-archaea-and-their-major-subgroups/
https://jgi.doe.gov/publication/systematic-screening-of-synthetic-gene-encoded-enzymes-for-synthesis-of-modified-glycosides/
https://jgi.doe.gov/publication/systematics-and-plastid-genome-evolution-of-the-cryptically-photosynthetic-parasitic-plant-genus-cuscuta-convolvulaceae/
https://jgi.doe.gov/publication/systems-metabolic-engineering-of-escherichia-coli-improves-coconversion-of-lignocellulose-derived-sugars/
https://jgi.doe.gov/publication/systems-wide-analysis-revealed-shared-and-unique-responses-to-moderate-and-acute-high-temperatures-in-the-green-alga-chlamydomonas-reinhardtii-2/
https://jgi.doe.gov/publication/t-toxin-virulence-genes-unconnected-dots-in-a-sea-of-repeats/
https://jgi.doe.gov/publication/tackling-soil-diversity-with-the-assembly-of-large-complex-metagenomes/
https://jgi.doe.gov/publication/talaromyces-borbonicus-sp-nov-a-novel-fungus-from-biodegraded-arundo-donax-with-potential-abilities-in-lignocellulose-conversion/
https://jgi.doe.gov/publication/tandem-termination-signal-in-plant-mrnas/
https://jgi.doe.gov/publication/targeted-and-shotgun-metagenomic-approaches-provide-different-descriptions-of-dryland-soil-microbial-communities-in-a-manipulated-field-study/
https://jgi.doe.gov/publication/targeted-deletion-of-the-9p21-non-coding-coronary-artery-disease-risk-interval-in-mice/
https://jgi.doe.gov/publication/targeted-discovery-of-glycoside-hydrolases-from-a-switchgrass-adapted-compost-community-2/
https://jgi.doe.gov/publication/targeted-diversity-generation-by-intraterrestrial-archaea-and-archaeal-viruses/
https://jgi.doe.gov/publication/targeted-hypermutation-of-putative-antigen-sensors-in-multicellular-bacteria/
https://jgi.doe.gov/publication/targeted-in-situ-metatranscriptomics-for-selected-taxa-from-mesophilic-and-thermophilic-biogas-plants/
https://jgi.doe.gov/publication/targeted-switchgrass-bac-library-screening-and-sequence-analysis-identifies-predicted-biomass-and-stress-response-related-genes/
https://jgi.doe.gov/publication/taxonomic-and-functional-diversity-of-a-quercus-pyrenaica-willd-rhizospheric-microbiome-in-the-mediterranean-mountains/
https://jgi.doe.gov/publication/taxonomic-and-functional-restoration-of-tallgrass-prairie-soil-microbial-communities-in-comparison-to-remnant-and-agricultural-soils-2/
https://jgi.doe.gov/publication/taxonomic-and-functional-restoration-of-tallgrass-prairie-soil-microbial-communities-in-comparison-to-remnant-and-agricultural-soils-3/
https://jgi.doe.gov/publication/taxonomic-and-functional-restoration-of-tallgrass-prairie-soil-microbial-communities-in-comparison-to-remnant-and-agricultural-soils/
https://jgi.doe.gov/publication/taxonomic-and-metabolic-incongruence-in-the-ancient-genus-streptomyces/
https://jgi.doe.gov/publication/taxonomic-assignment-of-uncultivated-prokaryotic-virus-genomes-is-enabled-by-gene-sharing-networks/
https://jgi.doe.gov/publication/taxonomic-distribution-of-metabolic-functions-in-bacteria-associated-with-trichodesmium-consortia-2/
https://jgi.doe.gov/publication/taxonomic-distribution-of-metabolic-functions-in-bacteria-associated-with-trichodesmium-consortia-3/
https://jgi.doe.gov/publication/taxonomic-distribution-of-metabolic-functions-in-bacteria-associated-with-trichodesmium-consortia/
https://jgi.doe.gov/publication/tbasco-trait-based-comparative-omics-identifies-ecosystem-level-and-niche-differentiating-adaptations-of-an-engineered-microbiome-2/
https://jgi.doe.gov/publication/telomere-organization-in-the-ligninolytic-basidiomycete-pleurotus-ostreatus/
https://jgi.doe.gov/publication/temperature-and-nutrient-levels-correspond-with-lineage-specific-microdiversification-in-the-ubiquitous-and-abundant-freshwater-genus-limnohabitans/
https://jgi.doe.gov/publication/ten-years-of-maintaining-and-expanding-a-microbial-genome-and-metagenome-analysis-system-11/
https://jgi.doe.gov/publication/ten-years-of-maintaining-and-expanding-a-microbial-genome-and-metagenome-analysis-system/
https://jgi.doe.gov/publication/terabase-scale-coassembly-of-a-tropical-soil-microbiome/
https://jgi.doe.gov/publication/terabase-scale-metagenome-coassembly-with-metahipmer/
https://jgi.doe.gov/publication/terpene-synthases-as-metabolic-gatekeepers-in-the-evolution-of-plant-terpenoid-chemical-diversity/
https://jgi.doe.gov/publication/the-airborne-metagenome-in-an-indoor-urban-environment/
https://jgi.doe.gov/publication/the-amphioxus-genome-and-the-evolution-of-the-chordate-karyotype/
https://jgi.doe.gov/publication/the-amphioxus-genome-illuminates-vertebrate-origins-and-cephalochordate-biology/
https://jgi.doe.gov/publication/the-amylolytic-regulator-amyr-of-aspergillus-niger-is-involved-in-sucrose-and-inulin-utilization-in-a-culture-condition-dependent-manner/
https://jgi.doe.gov/publication/the-ancient-salicoid-genome-duplication-event-a-platform-for-reconstruction-of-de-novo-gene-evolution-in-populus-trichocarpa/
https://jgi.doe.gov/publication/the-aquilegia-genome-provides-insight-into-adaptive-radiation-and-reveals-an-extraordinarily-polymorphic-chromosome-with-a-unique-history/
https://jgi.doe.gov/publication/the-arabidopsis-lyrata-genome-sequence-and-the-basis-of-rapid-genome-size-change/
https://jgi.doe.gov/publication/the-architecture-of-metabolism-maximizes-biosynthetic-diversity-in-the-largest-class-of-fungi-2/
https://jgi.doe.gov/publication/the-architecture-of-metabolism-maximizes-biosynthetic-diversity-in-the-largest-class-of-fungi/
https://jgi.doe.gov/publication/the-biogeographic-differentiation-of-algal-microbiomes-in-the-upper-ocean-from-pole-to-pole/
https://jgi.doe.gov/publication/the-biomart-community-portal-an-innovative-alternative-to-large-centralized-data-repositories-11/
https://jgi.doe.gov/publication/the-biota-project-a-case-study-of-a-multimedia-grassroots-approach-to-scientific-communication-for-engaging-diverse-audiences/
https://jgi.doe.gov/publication/the-birth-of-new-exons-mechanisms-and-evolutionary-consequences/
https://jgi.doe.gov/publication/the-cacti-microbiome-interplay-between-habitat-filtering-and-host-specificity/
https://jgi.doe.gov/publication/the-calyptogena-magnifica-chemoautotrophic-symbiont-genome/
https://jgi.doe.gov/publication/the-candidate-phylum-poribacteria-by-single-cell-genomics-new-insights-into-phylogeny-cell-compartmentation-eukaryote-like-repeat-proteins-and-other-genomic-features-2/
https://jgi.doe.gov/publication/the-capsella-rubella-genome-and-the-genomic-consequences-of-rapid-mating-system-evolution/
https://jgi.doe.gov/publication/the-cassava-genome-current-progress-future-directions/
https://jgi.doe.gov/publication/the-cc-nb-lrr-protein-bsr1-from-brachypodium-confers-resistance-to-barley-stripe-mosaic-virus-in-gramineous-plants-by-recognising-tgb1-movement-protein-2/
https://jgi.doe.gov/publication/the-central-role-of-selenium-in-the-biochemistry-and-ecology-of-the-harmful-pelagophyte-aureococcus-anophagefferens/
https://jgi.doe.gov/publication/the-chlamydomonas-genome-project-a-decade-on/
https://jgi.doe.gov/publication/the-chlamydomonas-genome-project-version-6-reference-assemblies-for-mating-type-plus-and-minus-strains-reveal-extensive-structural-mutation-in-the-laboratory-2/
https://jgi.doe.gov/publication/the-chlamydomonas-genome-reveals-the-evolution-of-key-animal-and-plant-functions/
https://jgi.doe.gov/publication/the-chlorella-variabilis-nc64a-genome-reveals-adaptation-to-photosymbiosis-coevolution-with-viruses-and-cryptic-sex/
https://jgi.doe.gov/publication/the-complete-genome-sequence-of-bacillus-thuringiensis-al-hakam/
https://jgi.doe.gov/publication/the-complete-genome-sequence-of-clostridium-indolis-dsm-755t/
https://jgi.doe.gov/publication/the-complete-genome-sequence-of-cupriavidus-metallidurans-strain-ch34-a-master-survivalist-in-harsh-and-anthropogenic-environments/
https://jgi.doe.gov/publication/the-complete-genome-sequence-of-fibrobacter-succinogenes-s85-reveals-a-cellulolytic-and-metabolic-specialist/
https://jgi.doe.gov/publication/the-complete-genome-sequence-of-moorella-thermoacetica-f-clostridium-thermoaceticum-2/
https://jgi.doe.gov/publication/the-complete-genome-sequence-of-moorella-thermoacetica-f-clostridium-thermoaceticum/
https://jgi.doe.gov/publication/the-complete-genome-sequence-of-staphylothermus-marinus-reveals-differences-in-sulfur-metabolism-among-heterotrophic-crenarchaeota/
https://jgi.doe.gov/publication/the-complete-genome-sequence-of-the-algal-symbiont-dinoroseobacter-shibae-a-hitchhikers-guide-to-life-in-the-sea/
https://jgi.doe.gov/publication/the-complete-genome-sequence-of-thermoproteus-tenax-a-physiologically-versatile-member-of-the-crenarchaeota-2/
https://jgi.doe.gov/publication/the-complete-genome-sequence-of-thermoproteus-tenax-a-physiologically-versatile-member-of-the-crenarchaeota/
https://jgi.doe.gov/publication/the-complete-iodine-and-nitrogen-nuclear-electric-quadrupole-coupling-tensors-for-fluoroiodoacetonitrile-determined-by-chirped-pulse-fourier-transform-microwave-spectroscopy/
https://jgi.doe.gov/publication/the-complete-mitochondrial-genome-of-a-gecko-and-the-phylogenetic-position-of-the-middle-eastern-teratoscincus-keyserlingii/
https://jgi.doe.gov/publication/the-complete-mitochondrial-genome-of-the-conifer-needle-endophyte-phialocephala-scopiformis-daomc-229536-confirms-evolutionary-division-within-the-fungal-phialocephala-fortinii-s-l-acephala-appala/
https://jgi.doe.gov/publication/the-complete-mitochondrial-genome-sequence-of-the-spider-habronattus-oregonensis-reveals-rearranged-and-extremely-truncated-trnas/
https://jgi.doe.gov/publication/the-complete-multipartite-genome-sequence-of-cupriavidus-necator-jmp134-a-versatile-pollutant-degrader/
https://jgi.doe.gov/publication/the-complete-plastid-genome-sequence-of-welwitschia-mirabilis-an-unusually-compact-plastome-with-accelerated-divergence-rates/
https://jgi.doe.gov/publication/the-complex-polyploid-genome-architecture-of-sugarcane/
https://jgi.doe.gov/publication/the-contributions-from-the-progenitor-genomes-of-the-mesopolyploid-brassiceae-are-evolutionarily-distinct-but-functionally-compatible/
https://jgi.doe.gov/publication/the-core-metabolome-and-root-exudation-dynamics-of-three-phylogenetically-distinct-plant-species/
https://jgi.doe.gov/publication/the-crystal-structures-of-the-tri-functional-chloroflexus-aurantiacus-and-bi-functional-rhodobacter-sphaeroides-malyl-coa-lyases-and-comparison-with-cite-like-superfamily-enzymes-and-malate-synthases/
https://jgi.doe.gov/publication/the-deuterostome-context-of-chordate-origins-11/
https://jgi.doe.gov/publication/the-diatom-fragilariopsis-cylindrus-a-model-alga-to-understand-cold%e2%80%90adapted-life/
https://jgi.doe.gov/publication/the-distinctive-signatures-of-promoter-regions-and-operon-junctions-across-prokaryotes/
https://jgi.doe.gov/publication/the-distribution-diversity-and-function-of-predominant-thermoproteales-in-high-temperature-environments-of-yellowstone-national-park/
https://jgi.doe.gov/publication/the-dna-sequence-and-biology-of-human-chromosome-19-2/
https://jgi.doe.gov/publication/the-dna-sequence-and-biology-of-human-chromosome-19/
https://jgi.doe.gov/publication/the-dna-sequence-and-comparative-analysis-of-human-chromosome-5/
https://jgi.doe.gov/publication/the-doe-jgi-standard-operating-procedure-for-the-annotations-of-microbial-genomes-2/
https://jgi.doe.gov/publication/the-doe-jgi-standard-operating-procedure-for-the-annotations-of-microbial-genomes/
https://jgi.doe.gov/publication/the-draft-genome-sequence-of-the-ascomycete-fungus-penicillium-subrubescens-reveals-a-highly-enriched-content-of-plant-biomass-related-cazymes-compared-to-related-fungi/
https://jgi.doe.gov/publication/the-dynamic-genome-of-hydra/
https://jgi.doe.gov/publication/the-dynamic-influence-of-subsurface-geological-processes-on-the-assembly-and-diversification-of-thermophilic-microbial-communities-in-continental-hydrothermal-systems-2/
https://jgi.doe.gov/publication/the-dynamic-influence-of-subsurface-geological-processes-on-the-assembly-and-diversification-of-thermophilic-microbial-communities-in-continental-hydrothermal-systems-3/
https://jgi.doe.gov/publication/the-dynamic-influence-of-subsurface-geological-processes-on-the-assembly-and-diversification-of-thermophilic-microbial-communities-in-continental-hydrothermal-systems/
https://jgi.doe.gov/publication/the-earth-biogenome-project-2020-starting-the-clock-2/
https://jgi.doe.gov/publication/the-ecoresponsive-genome-of-daphnia-pulex/
https://jgi.doe.gov/publication/the-ectomycorrhizal-fungus-paxillus-involutus-converts-organic-matter-in-plant-litter-using-a-trimmed-brown-rot-mechanism-involving-fenton-chemistry/
https://jgi.doe.gov/publication/the-ectomycorrhizal-fungus-pisolithus-microcarpus-encodes-a-microrna-involved-in-cross-kingdom-gene-silencing-during-symbiosis-2/
https://jgi.doe.gov/publication/the-emergence-of-microbiome-centres/
https://jgi.doe.gov/publication/the-endosymbiotic-box-of-protective-tricks-2/
https://jgi.doe.gov/publication/the-environment-drives-microbial-trait-variability-in-aquatic-habitats/
https://jgi.doe.gov/publication/the-epigenomic-landscape-of-prokaryotes/
https://jgi.doe.gov/publication/the-epsomitic-phototrophic-microbial-mat-of-hot-lake-washington-community-structural-responses-to-seasonal-cycling-2/
https://jgi.doe.gov/publication/the-epsomitic-phototrophic-microbial-mat-of-hot-lake-washington-community-structural-responses-to-seasonal-cycling/
https://jgi.doe.gov/publication/the-escherichia-coli-mfs-type-transporter-genes-yhje-ydim-and-yfcj-are-required-to-produce-an-active-bo3-quinol-oxidase-2/
https://jgi.doe.gov/publication/the-escherichia-coli-mfs-type-transporter-genes-yhje-ydim-and-yfcj-are-required-to-produce-an-active-bo3-quinol-oxidase-3/
https://jgi.doe.gov/publication/the-escherichia-coli-mfs-type-transporter-genes-yhje-ydim-and-yfcj-are-required-to-produce-an-active-bo3-quinol-oxidase/
https://jgi.doe.gov/publication/the-essential-role-of-the-n-terminal-domain-of-the-orange-carotenoid-protein-in-cyanobacterial-photoprotection-importance-of-a-positive-charge-for-phycobilisome-binding/
https://jgi.doe.gov/publication/the-evolution-of-an-invasive-plant-sorghum-halepense-l-johnsongrass/
https://jgi.doe.gov/publication/the-evolution-of-host-specialization-in-the-vertebrate-gut-symbiont-lactobacillus-reuteri/
https://jgi.doe.gov/publication/the-evolution-of-sperm-and-non-sperm-producing-organs-in-male-drosophila/
https://jgi.doe.gov/publication/the-evolutionary-origin-of-hedgehog-proteins/
https://jgi.doe.gov/publication/the-exceptional-form-and-function-of-the-giant-bacterium-ca-epulopiscium-viviparus-revolves-around-its-sodium-motive-force/
https://jgi.doe.gov/publication/the-exometabolome-of-xylella-fastidiosa-in-contact-with-paraburkholderia-phytofirmans-supernatant-reveals-changes-in-nicotinamide-amino-acids-biotin-and-plant-hormones/
https://jgi.doe.gov/publication/the-expanded-diversity-of-methylophilaceae-from-lake-washington-through-cultivation-and-genomic-sequencing-of-novel-ecotypes/
https://jgi.doe.gov/publication/the-experiment-data-depot-a-web-based-software-tool-for-biological-experimental-data-storage-sharing-and-visualization/
https://jgi.doe.gov/publication/the-f-box-gene-family-is-expanded-in-herbaceous-annual-plants-relative-to-woody-perennial-plants/
https://jgi.doe.gov/publication/the-f-box-protein-gene-exo-1-is-a-target-for-reverse-engineering-enzyme-hypersecretion-in-filamentous-fungi-2/
https://jgi.doe.gov/publication/the-fast-changing-landscape-of-sequencing-technologies-and-their-impact-on-microbial-genome-assemblies-and-annotation/
https://jgi.doe.gov/publication/the-fate-of-35s-rrna-genes-in-the-allotetraploid-grass-brachypodium-hybridum/
https://jgi.doe.gov/publication/the-first-10-years-of-the-international-coordination-network-for-standards-in-systems-and-synthetic-biology-combine/
https://jgi.doe.gov/publication/the-first-complete-chloroplast-genome-sequence-of-a-lycophyte-huperzia-lucidula-lycopodiaceae/
https://jgi.doe.gov/publication/the-first-complete-human-genome-2/
https://jgi.doe.gov/publication/the-first-two-chromosome%e2%80%90scale-genome-assemblies-of-american-hazelnut-enable-comparative-genomic-analysis-of-the-genus-corylus-2/
https://jgi.doe.gov/publication/the-first-two-chromosome%e2%80%90scale-genome-assemblies-of-american-hazelnut-enable-comparative-genomic-analysis-of-the-genus-corylus-3/
https://jgi.doe.gov/publication/the-first-two-chromosome%e2%80%90scale-genome-assemblies-of-american-hazelnut-enable-comparative-genomic-analysis-of-the-genus-corylus/
https://jgi.doe.gov/publication/the-foxtail-millet-setaria-italica-terpene-synthase-gene-family/
https://jgi.doe.gov/publication/the-fungal-tree-of-life-from-molecular-systematics-to-genome-scale-phylogenies/
https://jgi.doe.gov/publication/the-fungus-that-came-in-from-the-cold-dry-rots-pre-adapted-ability-to-invade-buildings/
https://jgi.doe.gov/publication/the-gc-rich-mitochondrial-and-plastid-genomes-of-the-green-alga-coccomyxa-give-insight-into-the-evolution-of-organelle-dna-nucleotide-landscape/
https://jgi.doe.gov/publication/the-genetic-architecture-of-shoot-and-root-trait-divergence-between-mesic-and-xeric-ecotypes-of-a-perennial-grass/
https://jgi.doe.gov/publication/the-genetically-remote-pathogenic-strain-nvh391-98-of-the-bacillus-cereus-group-is-representative-of-a-cluster-of-thermophilic-strains/
https://jgi.doe.gov/publication/the-genetics-of-divergence-and-reproductive-isolation-between-ecotypes-of-panicum-hallii/
https://jgi.doe.gov/publication/the-genome-and-variation-of-bacillus-anthracis-2/
https://jgi.doe.gov/publication/the-genome-and-variation-of-bacillus-anthracis/
https://jgi.doe.gov/publication/the-genome-of-a-motile-marine-synechococcus/
https://jgi.doe.gov/publication/the-genome-of-akkermansia-muciniphila-a-dedicated-intestinal-mucin-degrader-and-its-use-in-exploring-intestinal-metagenomes/
https://jgi.doe.gov/publication/the-genome-of-black-cottonwood-populus-trichocarpa-torr-gray/
https://jgi.doe.gov/publication/the-genome-of-cowpea-vigna-unguiculata-l-walp/
https://jgi.doe.gov/publication/the-genome-of-deep-sea-vent-chemolithoautotroph-thiomicrospira-crunogena-xcl-2/
https://jgi.doe.gov/publication/the-genome-of-eucalyptus-grandis/
https://jgi.doe.gov/publication/the-genome-of-geobacter-bemidjiensis-exemplar-for-the-subsurface-clade-of-geobacter-species-that-predominate-in-feiii-reducing-subsurface-environments/
https://jgi.doe.gov/publication/the-genome-of-laccaria-bicolor-provides-insights-into-mycorrhizal-symbiosis/
https://jgi.doe.gov/publication/the-genome-of-naegleria-gruberi-illuminates-early-eukaryotic-versatility/
https://jgi.doe.gov/publication/the-genome-of-nectria-haematococca-contribution-of-supernumerary-chromosomes-to-gene-expansion/
https://jgi.doe.gov/publication/the-genome-of-pelobacter-carbinolicus-reveals-surprising-metabolic-capabilities-and-physiological-features-2/
https://jgi.doe.gov/publication/the-genome-of-polaromonas-naphthalenivorans-strain-cj2-isolated-from-coal-tar-contaminated-sediment-reveals-physiological-and-metabolic-versatility-and-evolution-through-extensive-horizontal-gene-tr/
https://jgi.doe.gov/publication/the-genome-of-polaromonas-sp-strain-js666-insights-into-the-evolution-of-a-hydrocarbon-and-xenobiotic-degrading-bacterium-and-features-of-relevance-to-biotechnology/
https://jgi.doe.gov/publication/the-genome-of-syntrophomonas-wolfei-new-insights-into-syntrophic-metabolism-and-biohydrogen-production/
https://jgi.doe.gov/publication/the-genome-of-syntrophorhabdus-aromaticivorans-strain-ui-provides-new-insights-for-syntrophic-aromatic-compound-metabolism-and-electron-flow/
https://jgi.doe.gov/publication/the-genome-of-tetranychus-urticae-reveals-herbivorous-pest-adaptations-2/
https://jgi.doe.gov/publication/the-genome-of-tetranychus-urticae-reveals-herbivorous-pest-adaptations/
https://jgi.doe.gov/publication/the-genome-of-the-acid-soil-adapted-strain-rhizobium-favelukesii-or191-encodes-determinants-for-effective-symbiotic-interaction-with-both-an-inverted-repeat-lacking-clade-and-a-phaseoloid-legume-hos-2/
https://jgi.doe.gov/publication/the-genome-of-the-choanoflagellate-monosiga-brevicollis-and-the-origin-of-metazoans/
https://jgi.doe.gov/publication/the-genome-of-the-diatom-thalassiosira-pseudonana-ecology-evolution-and-metabolism/
https://jgi.doe.gov/publication/the-genome-of-the-gram-positive-metal-and-sulfate-reducing-bacterium-desulfotomaculum-reducens-strain-mi-1/
https://jgi.doe.gov/publication/the-genome-of-the-intracellular-bacterium-of-the-coastal-bivalve-solemya-velum-a-blueprint-for-thriving-in-and-out-of-symbiosis/
https://jgi.doe.gov/publication/the-genome-of-the-obligately-intracellular-bacterium-ehrlichia-canis-reveals-themes-of-complex-membrane-structure-and-immune-evasion-strategies/
https://jgi.doe.gov/publication/the-genome-of-the-polar-eukaryotic-microalga-coccomyxa-subellipsoidea-reveals-traits-of-cold-adaptation/
https://jgi.doe.gov/publication/the-genome-of-the-seagrass-zostera-marina-reveals-angiosperm-adaptation-to-the-sea/
https://jgi.doe.gov/publication/the-genome-of-the-soybean-cyst-nematode-heterodera-glycines-reveals-complex-patterns-of-duplications-involved-in-the-evolution-of-parasitism-genes/
https://jgi.doe.gov/publication/the-genome-of-the-western-clawed-frog-xenopus-tropicalis/
https://jgi.doe.gov/publication/the-genome-of-the-xerotolerant-mold-wallemia-sebi-reveals-adaptations-to-osmotic-stress-and-suggests-cryptic-sexual-reproduction/
https://jgi.doe.gov/publication/the-genome-of-wine-yeast-dekkera-bruxellensis-provides-a-tool-to-explore-its-food-related-properties/
https://jgi.doe.gov/publication/the-genome-of-xylona-heveae-provides-a-window-into-fungal-endophytism/
https://jgi.doe.gov/publication/the-genome-portal-of-the-department-of-energy-joint-genome-institute-2014-updates/
https://jgi.doe.gov/publication/the-genome-portal-of-the-department-of-energy-joint-genome-institute/
https://jgi.doe.gov/publication/the-genome-sequence-of-bifidobacterium-longum-subsp-infantis-reveals-adaptations-for-milk-utilization-within-the-infant-microbiome-2/
https://jgi.doe.gov/publication/the-genome-sequence-of-bifidobacterium-longum-subsp-infantis-reveals-adaptations-for-milk-utilization-within-the-infant-microbiome/
https://jgi.doe.gov/publication/the-genome-sequence-of-geobacter-metallireducens-features-of-metabolism-physiology-and-regulation-common-and-dissimilar-to-geobacter-sulfurreducens/
https://jgi.doe.gov/publication/the-genome-sequence-of-methanohalophilus-mahii-slpt-reveals-differences-in-the-energy-metabolism-among-members-of-the-methanosarcinaceae-inhabiting-freshwater-and-saline-environments/
https://jgi.doe.gov/publication/the-genome-sequence-of-psychrobacter-arcticus-273-4-a-psychroactive-siberian-permafrost-bacterium-reveals-mechanisms-for-adaptation-to-low-temperature-growth/
https://jgi.doe.gov/publication/the-genome-sequence-of-segmental-allotetraploid-peanut-arachis-hypogaea/
https://jgi.doe.gov/publication/the-genome-sequence-of-the-obligately-chemolithoautotrophic-facultatively-anaerobic-bacterium-thiobacillus-denitrificans/
https://jgi.doe.gov/publication/the-genome-sequence-of-the-psychrophilic-archaeon-methanococcoides-burtonii-the-role-of-genome-evolution-in-cold-adaptation/
https://jgi.doe.gov/publication/the-genomes-of-the-fungal-plant-pathogens-cladosporium-fulvum-and-dothistroma-septosporum-reveal-adaptation-to-different-hosts-and-lifestyles-but-also-signatures-of-common-ancestry/
https://jgi.doe.gov/publication/the-genomes-on-line-database-gold-in-2007-status-of-genomic-and-metagenomic-projects-and-their-associated-metadata/
https://jgi.doe.gov/publication/the-genomes-on-line-database-gold-in-2009-status-of-genomic-and-metagenomic-projects-and-their-associated-metadata-2/
https://jgi.doe.gov/publication/the-genomes-on-line-database-gold-in-2009-status-of-genomic-and-metagenomic-projects-and-their-associated-metadata/
https://jgi.doe.gov/publication/the-genomes-on-line-database-gold-v-2-a-monitor-of-genome-projects-worldwide/
https://jgi.doe.gov/publication/the-genomes-online-database-gold-v-4-status-of-genomic-and-metagenomic-projects-and-their-associated-metadata-2/
https://jgi.doe.gov/publication/the-genomes-online-database-gold-v-4-status-of-genomic-and-metagenomic-projects-and-their-associated-metadata/
https://jgi.doe.gov/publication/the-genomes-online-database-gold-v-5-a-metadata-management-system-based-on-a-four-level-metagenome-project-classification-3/
https://jgi.doe.gov/publication/the-genomic-basis-of-trophic-strategy-in-marine-bacteria/
https://jgi.doe.gov/publication/the-genomic-landscape-of-molecular-responses-to-natural-drought-stress-in-panicum-hallii/
https://jgi.doe.gov/publication/the-genomic-standards-consortium-bringing-standards-to-life-for-microbial-ecology/
https://jgi.doe.gov/publication/the-genomic-standards-consortium/
https://jgi.doe.gov/publication/the-gold-standard-genome-of-aspergillus-niger-nrrl-3-enables-a-detailed-view-of-the-diversity-of-sugar-catabolism-in-fungi/
https://jgi.doe.gov/publication/the-greencut2-resource-a-phylogenomically-derived-inventory-of-proteins-specific-to-the-plant-lineage/
https://jgi.doe.gov/publication/the-high-quality-draft-genome-of-peach-prunus-persica-identifies-unique-patterns-of-genetic-diversity-domestication-and-genome-evolution/
https://jgi.doe.gov/publication/the-homothallic-mating-type-locus-of-the-conifer-needle-endophyte-phialocephala-scopiformis-daomc-229536-order-helotiales-2/
https://jgi.doe.gov/publication/the-homothallic-mating-type-locus-of-the-conifer-needle-endophyte-phialocephala-scopiformis-daomc-229536-order-helotiales/
https://jgi.doe.gov/publication/the-img-m-data-management-and-analysis-system-v-6-0-new-tools-and-advanced-capabilities/
https://jgi.doe.gov/publication/the-img-m-data-management-and-analysis-system-v-7-content-updates-and-new-features-2/
https://jgi.doe.gov/publication/the-impact-of-genome-analyses-on-our-understanding-of-ammonia-oxidizing-bacteria/
https://jgi.doe.gov/publication/the-initial-soil-microbiota-impacts-the-potential-for-lignocellulose-degradation-during-soil-solarization/
https://jgi.doe.gov/publication/the-insig2-rs7566605-genetic-variant-does-not-play-a-major-role-in-obesity-in-a-sample-of-24722-individuals-from-four-cohorts/
https://jgi.doe.gov/publication/the-integrated-microbial-genome-resource-of-analysis/
https://jgi.doe.gov/publication/the-integrated-microbial-genomes-img-system-in-2007-data-content-and-analysis-tool-extensions/
https://jgi.doe.gov/publication/the-integrated-microbial-genomes-img-system/
https://jgi.doe.gov/publication/the-integrated-microbial-genomes-system-an-expanding-comparative-analysis-resource-2/
https://jgi.doe.gov/publication/the-integrated-microbial-genomes-system-an-expanding-comparative-analysis-resource/
https://jgi.doe.gov/publication/the-international-virus-bioinformatics-meeting-2020/
https://jgi.doe.gov/publication/the-joint-genome-institute-offers-resources-beyond-a-core-facility-11/
https://jgi.doe.gov/publication/the-joint-genome-institutes-synthetic-biology-internal-review-process-11/
https://jgi.doe.gov/publication/the-kalanchoe-genome-provides-insights-into-convergent-evolution-and-building-blocks-of-crassulacean-acid-metabolism/
https://jgi.doe.gov/publication/the-landscape-of-chlamydomonas-histone-h3-lysine-4-methylation-reveals-both-constant-features-and-dynamic-changes-during-the-diurnal-cycle-2/
https://jgi.doe.gov/publication/the-leucine-rich-repeats-in-allelic-barley-mla-immune-receptors-define-specificity-towards-sequence-unrelated-powdery-mildew-avirulence-effectors-with-a-predicted-common-rnase-like-fold/
https://jgi.doe.gov/publication/the-lichen-symbiosis-re-viewed-through-the-genomes-of-cladonia-grayi-and-its-algal-partner-asterochloris-glomerata/
https://jgi.doe.gov/publication/the-melampsora-americana-population-on-salix-purpurea-in-the-great-lakes-region-is-highly-diverse-with-a-contributory-influence-of-clonality/
https://jgi.doe.gov/publication/the-metadata-coverage-index-mci-a-standardized-metric-for-quantifying-database-metadata-richness/
https://jgi.doe.gov/publication/the-metagenome-of-an-anaerobic-microbial-community-decomposing-poplar-wood-chips/
https://jgi.doe.gov/publication/the-metagenome-of-the-marine-anammox-bacterium-candidatus-scalindua-profunda-illustrates-the-versatility-of-this-globally-important-nitrogen-cycle-bacterium-2/
https://jgi.doe.gov/publication/the-metagenomic-basis-of-anammox-metabolism-in-candidatus-brocadia-fulgida-2/
https://jgi.doe.gov/publication/the-metagenomic-basis-of-anammox-metabolism-in-candidatus-brocadia-fulgida/
https://jgi.doe.gov/publication/the-methanosarcina-barkeri-genome-comparative-analysis-with-methanosarcina-acetivorans-and-methanosarcina-mazei-reveals-extensive-rearrangement-within-methanosarcinal-genomes-2/
https://jgi.doe.gov/publication/the-methanosarcina-barkeri-genome-comparative-analysis-with-methanosarcina-acetivorans-and-methanosarcina-mazei-reveals-extensive-rearrangement-within-methanosarcinal-genomes/
https://jgi.doe.gov/publication/the-microbial-ecology-of-permafrost/
https://jgi.doe.gov/publication/the-microbiome-of-a-bacterivorous-marine-choanoflagellate-contains-a-resource-demanding-obligate-bacterial-associate-2/
https://jgi.doe.gov/publication/the-minimum-information-about-a-genome-sequence-migs-specification/
https://jgi.doe.gov/publication/the-mitochondrial-genome-of-paraspadella-gotoi-is-highly-reduced-and-reveals-that-chaetognaths-are-a-sister-group-to-protostomes/
https://jgi.doe.gov/publication/the-mitochondrial-genome-of-phoronis-architecta-comparisons-demonstrate-that-phoronids-are-lophotrochozoan-protostomes/
https://jgi.doe.gov/publication/the-mitochondrial-genome-of-the-entomophagous-endoparasite-xenos-vesparum-insecta-strepsiptera/
https://jgi.doe.gov/publication/the-mitochondrial-genome-of-the-ethanol-metabolizing-wine-cellar-mold-zasmidium-cellare-is-the-smallest-for-a-filamentous-ascomycete/
https://jgi.doe.gov/publication/the-mitochondrial-genomes-of-campodea-fragilis-and-campodea-lubbocki-hexapoda-diplura-high-genetic-divergence-in-a-morphologically-uniform-taxon/
https://jgi.doe.gov/publication/the-molecular-dimension-of-microbial-species-3-comparative-genomics-of-synechococcus-strains-with-different-light-responses-and-in-situ-diel-transcription-patterns-of-associated-putative-ecotypes-i-11/
https://jgi.doe.gov/publication/the-most-wanted-taxa-from-the-human-microbiome-for-whole-genome-sequencing/
https://jgi.doe.gov/publication/the-multicatalytic-compartment-of-propionyl-coa-synthase-sequesters-a-toxic-metabolite/
https://jgi.doe.gov/publication/the-mutualist-laccaria-bicolor-expresses-a-core-gene-regulon-during-the-colonization-of-diverse-host-plants-and-a-variable-regulon-to-counteract-host-specific-defenses-3/
https://jgi.doe.gov/publication/the-mutualist-laccaria-bicolor-expresses-a-core-gene-regulon-during-the-colonization-of-diverse-host-plants-and-a-variable-regulon-to-counteract-host-specific-defenses-4/
https://jgi.doe.gov/publication/the-mycorrhizal-symbiosis-research-frontiers-in-genomics-ecology-and-agricultural-application-2/
https://jgi.doe.gov/publication/the-mycorrhizal-symbiosis-research-frontiers-in-genomics-ecology-and-agricultural-application/
https://jgi.doe.gov/publication/the-nk-homeobox-gene-cluster-predates-the-origin-of-hox-genes/
https://jgi.doe.gov/publication/the-obligate-alkalophilic-soda-lake-fungus-sodiomyces-alkalinus-has-shifted-to-a-protein-diet/
https://jgi.doe.gov/publication/the-octopus-genome-and-the-evolution-of-cephalopod-neural-and-morphological-novelties-11/
https://jgi.doe.gov/publication/the-orange-carotenoid-protein-a-blue-green-light-photoactive-protein/
https://jgi.doe.gov/publication/the-p-patens-chromosome-scale-assembly-reveals-moss-genome-structure-and-evolution/
https://jgi.doe.gov/publication/the-paleozoic-origin-of-enzymatic-lignin-decomposition-reconstructed-from-31-fungal-genomes/
https://jgi.doe.gov/publication/the-parallelism-motifs-of-genomic-data-analysis/
https://jgi.doe.gov/publication/the-peach-v2-0-release-high-resolution-linkage-mapping-and-deep-resequencing-improve-chromosome-scale-assembly-and-contiguity/
https://jgi.doe.gov/publication/the-phaeodactylum-genome-reveals-the-evolutionary-history-of-diatom-genomes/
https://jgi.doe.gov/publication/the-phylogenomic-diversity-of-herbivore-associated-fibrobacter-spp-is-correlated-to-lignocellulose-degrading-potential/
https://jgi.doe.gov/publication/the-physcomitrella-genome-reveals-evolutionary-insights-into-the-conquest-of-land-by-plants/
https://jgi.doe.gov/publication/the-physcomitrella-patens-chromosome-scale-assembly-reveals-moss-genome-structure-and-evolution/
https://jgi.doe.gov/publication/the-physcomitrella-patens-gene-atlas-project-large-scale-rna-seq-based-expression-data/
https://jgi.doe.gov/publication/the-phytoalexin-camalexin-induces-fundamental-changes-in-the-proteome-of-alternaria-brassicicola-different-from-those-caused-by-brassinin/
https://jgi.doe.gov/publication/the-plant-cell-wall-decomposing-machinery-underlies-the-functional-diversity-of-forest-fungi/
https://jgi.doe.gov/publication/the-porcelain-crab-transcriptome-and-pcad-the-porcelain-crab-microarray-and-sequence-database/
https://jgi.doe.gov/publication/the-positive-role-of-the-ecological-community-in-the-genomic-revolution/
https://jgi.doe.gov/publication/the-protist-aurantiochytrium-has-universal-subtelomeric-rdnas-and-is-a-host-for-mirusviruses-2/
https://jgi.doe.gov/publication/the-protist-aurantiochytrium-has-universal-subtelomeric-rdnas-and-is-a-host-for-mirusviruses-3/
https://jgi.doe.gov/publication/the-protist-aurantiochytrium-has-universal-subtelomeric-rdnas-and-is-a-host-for-mirusviruses/
https://jgi.doe.gov/publication/the-quantitative-genetics-of-gene-expression-in-mimulus-guttatus-2/
https://jgi.doe.gov/publication/the-quantitative-genetics-of-gene-expression-in-mimulus-guttatus/
https://jgi.doe.gov/publication/the-recent-evolutionary-rescue-of-a-staple-crop-depended-on-over-half-a-century-of-global-germplasm-exchange-2/
https://jgi.doe.gov/publication/the-reference-genome-and-abiotic-stress-responses-of-the-model-perennial-grass-brachypodium-sylvaticum-2/
https://jgi.doe.gov/publication/the-reference-genome-and-abiotic-stress-responses-of-the-model-perennial-grass-brachypodium-sylvaticum-3/
https://jgi.doe.gov/publication/the-reference-genome-and-abiotic-stress-responses-of-the-model-perennial-grass-brachypodium-sylvaticum/
https://jgi.doe.gov/publication/the-reference-genome-of-the-halophytic-plant-eutrema-salsugineum/
https://jgi.doe.gov/publication/the-regulatory-and-transcriptional-landscape-associated-with-carbon-utilization-in-a-filamentous-fungus/
https://jgi.doe.gov/publication/the-rhizosphere-microbiome-of-burned-holm-oak-potential-role-of-the-genus-arthrobacter-in-the-recovery-of-burned-soils/
https://jgi.doe.gov/publication/the-rhizosphere-responds-rich-fen-peat-and-root-microbial-ecology-after-long-term-water-table-manipulation/
https://jgi.doe.gov/publication/the-role-of-zinc-in-the-adaptive-evolution-of-polar-phytoplankton-2/
https://jgi.doe.gov/publication/the-roseibium-album-labrenzia-alba-genome-possesses-multiple-symbiosis-factors-possibly-underpinning-host-microbe-relationships-in-the-marine-benthos/
https://jgi.doe.gov/publication/the-santorini-volcanic-complex-as-a-valuable-source-of-enzymes-for-bioenergy/
https://jgi.doe.gov/publication/the-selaginella-genome-identifies-genetic-changes-associated-with-the-evolution-of-vascular-plants/
https://jgi.doe.gov/publication/the-sequence-and-analysis-of-duplication-rich-human-chromosome-16/
https://jgi.doe.gov/publication/the-sequences-of-1504-mutants-in-the-model-rice-variety-kitaake-facilitate-rapid-functional-genomic-studies-2/
https://jgi.doe.gov/publication/the-sequences-of-1504-mutants-in-the-model-rice-variety-kitaake-facilitate-rapid-functional-genomic-studies/
https://jgi.doe.gov/publication/the-slzrt1-gene-encodes-a-plasma-membrane-located-zip-zrt-irt-like-protein-transporter-in-the-ectomycorrhizal-fungus-suillus-luteus/
https://jgi.doe.gov/publication/the-sorghum-bicolor-genome-and-the-diversification-of-grasses/
https://jgi.doe.gov/publication/the-sorghum-bicolor-reference-genome-improved-assembly-gene-annotations-a-transcriptome-atlas-and-signatures-of-genome-organization-2/
https://jgi.doe.gov/publication/the-sorghum-bicolor-reference-genome-improved-assembly-gene-annotations-a-transcriptome-atlas-and-signatures-of-genome-organization/
https://jgi.doe.gov/publication/the-source-and-evolutionary-history-of-a-microbial-contaminant-identified-through-soil-metagenomic-analysis/
https://jgi.doe.gov/publication/the-sphagnome-project-enabling-ecological-and-evolutionary-insights-through-a-genus-level-sequencing-project/
https://jgi.doe.gov/publication/the-sphagnum-genome-project-a-new-model-for-ecological-and-evolutionary-genomics/
https://jgi.doe.gov/publication/the-spirodela-polyrhiza-genome-reveals-insights-into-its-neotenous-reduction-fast-growth-and-aquatic-lifestyle/
https://jgi.doe.gov/publication/the-standard-operating-procedure-of-the-doe-jgi-metagenome-annotation-pipeline-map-v-4/
https://jgi.doe.gov/publication/the-standard-operating-procedure-of-the-doe-jgi-microbial-genome-annotation-pipeline-mgap-v-4/
https://jgi.doe.gov/publication/the-story-told-by-100-shotgun-sequenced-microbial-genomes-why-the-clonability-for-genomes-are-different/
https://jgi.doe.gov/publication/the-structure-of-ccmp-a-tandem-bacterial-microcompartment-domain-protein-from-the-beta-carboxysome-forms-a-subcompartment-within-a-microcompartment/
https://jgi.doe.gov/publication/the-sugar-metabolic-model-of-aspergillus-niger-can-only-be-reliably-transferred-to-fungi-of-its-phylum-2/
https://jgi.doe.gov/publication/the-survivor-strain-isolation-and-characterization-of-phormidium-yuhuli-ab48-a-filamentous-phototactic-cyanobacterium-with-biotechnological-potential-2/
https://jgi.doe.gov/publication/the-survivor-strain-isolation-and-characterization-of-phormidium-yuhuli-ab48-a-filamentous-phototactic-cyanobacterium-with-biotechnological-potential/
https://jgi.doe.gov/publication/the-switchgrass-genome-tools-and-strategies/
https://jgi.doe.gov/publication/the-tale-of-a-neglected-energy-source-elevated-hydrogen-exposure-affects-both-microbial-diversity-and-function-in-soil/
https://jgi.doe.gov/publication/the-tiny-eukaryote-ostreococcus-provides-genomic-insights-into-the-paradox-of-plankton-speciation/
https://jgi.doe.gov/publication/the-trajectory-of-microbial-single-cell-sequencing-2/
https://jgi.doe.gov/publication/the-trajectory-of-microbial-single-cell-sequencing/
https://jgi.doe.gov/publication/the-transcription-factor-ace3-controls-cellulase-activities-and-lactose-metabolism-via-two-additional-regulators-in-the-fungus-trichoderma-reesei/
https://jgi.doe.gov/publication/the-transcription-factor-pdr-1-is-a-multi-functional-regulator-and-key-component-of-pectin-deconstruction-and-catabolism-in-neurospora-crassa-2/
https://jgi.doe.gov/publication/the-transcription-factor-pdr-1-is-a-multi-functional-regulator-and-key-component-of-pectin-deconstruction-and-catabolism-in-neurospora-crassa/
https://jgi.doe.gov/publication/the-transcription-factor-roc1-is-a-key-regulator-of-cellulose-degradation-in-the-wood-decaying-mushroom-schizophyllum-commune-2/
https://jgi.doe.gov/publication/the-transcriptional-activator-clrb-is-crucial-for-the-degradation-of-soybean-hulls-and-guar-gum-in-aspergillus-niger/
https://jgi.doe.gov/publication/the-transcriptionmigration-interface-in-heart-precursors-of-ciona-intestinalis/
https://jgi.doe.gov/publication/the-transcriptome-of-the-arbuscular-mycorrhizal-fungus-glomus-intraradices-daom-197198-reveals-functional-tradeoffs-in-an-obligate-symbiont-2/
https://jgi.doe.gov/publication/the-trichoplax-genome-and-the-nature-of-placozoans/
https://jgi.doe.gov/publication/the-unique-metabolism-of-sar11-aquatic-bacteria/
https://jgi.doe.gov/publication/the-united-states-culture-collection-network-usccn-enhancing-microbial-genomics-research-through-living-microbe-culture-collections-11/
https://jgi.doe.gov/publication/the-united-states-of-america-and-scientific-research/
https://jgi.doe.gov/publication/the-western-redcedar-genome-reveals-low-genetic-diversity-in-a-self-compatible-conifer-2/
https://jgi.doe.gov/publication/the-western-redcedar-genome-reveals-low-genetic-diversity-in-a-self-compatible-conifer/
https://jgi.doe.gov/publication/the-white-rot-basidiomycete-dichomitus-squalens-shows-highly-specific-transcriptional-response-to-lignocellulose-related-aromatic-compounds/
https://jgi.doe.gov/publication/the-widespread-is200-605-transposon-family-encodes-diverse-programmable-rna-guided-endonucleases-2/
https://jgi.doe.gov/publication/the-wolbachia-genome-of-brugia-malayi-endosymbiont-evolution-within-a-human-pathogenic-nematode/
https://jgi.doe.gov/publication/the-ynp-metagenome-project-environmental-parameters-responsible-for-microbial-distribution-in-the-yellowstone-geothermal-ecosystem/
https://jgi.doe.gov/publication/thermal-adaptation-of-soil-microbial-growth-traits-in-response-to-chronic-warming-2/
https://jgi.doe.gov/publication/thermal-adaptation-of-soil-microbial-growth-traits-in-response-to-chronic-warming-3/
https://jgi.doe.gov/publication/thermal-adaptation-of-soil-microbial-growth-traits-in-response-to-chronic-warming/
https://jgi.doe.gov/publication/thermal-stress-has-minimal-effects-on-bacterial-communities-of-thermotolerant-symbiodinium-cultures-2/
https://jgi.doe.gov/publication/thermoacidophilic-proteins-for-biofuel-production/
https://jgi.doe.gov/publication/thermochemical-wastewater-valorization-via-enhanced-microbial-toxicity-tolerance/
https://jgi.doe.gov/publication/thermophilic-dehalococcoidia-with-unusual-traits-shed-light-on-an-unexpected-past/
https://jgi.doe.gov/publication/thermus-sediminis-sp-nov-a-thiosulfate-oxidizing-and-arsenate-reducing-organism-isolated-from-little-hot-creek-in-the-long-valley-caldera-california-2/
https://jgi.doe.gov/publication/thermus-sediminis-sp-nov-a-thiosulfate-oxidizing-and-arsenate-reducing-organism-isolated-from-little-hot-creek-in-the-long-valley-caldera-california/
https://jgi.doe.gov/publication/thousands-of-small-novel-genes-predicted-in-global-phage-genomes-2/
https://jgi.doe.gov/publication/three-distinct-clades-of-cultured-heterocystous-cyanobacteria-constitute-the-dominant-n-2-fixing-members-of-biological-soil-crusts-of-the-colorado-plateau-usa/
https://jgi.doe.gov/publication/three-founding-ancestral-genomes-involved-in-the-origin-of-sugarcane/
https://jgi.doe.gov/publication/three-genomes-from-the-phylum-acidobacteria-provide-insight-into-the-lifestyles-of-these-microorganisms-in-soils-2/
https://jgi.doe.gov/publication/three-genomes-from-the-phylum-acidobacteria-provide-insight-into-the-lifestyles-of-these-microorganisms-in-soils/
https://jgi.doe.gov/publication/three-mutations-repurpose-a-plant-karrikin-receptor-to-a-strigolactone-receptor/
https://jgi.doe.gov/publication/time-series-metagenomics-reveals-changing-protistan-ecology-of-a-temperate-dimictic-lake-2/
https://jgi.doe.gov/publication/time-series-metagenomics-reveals-changing-protistan-ecology-of-a-temperate-dimictic-lake-3/
https://jgi.doe.gov/publication/time-series-metagenomics-reveals-changing-protistan-ecology-of-a-temperate-dimictic-lake/
https://jgi.doe.gov/publication/time-series-metatranscriptomes-reveal-conserved-patterns-between-phototrophic-and-heterotrophic-microbes-in-diverse-freshwater-systems/
https://jgi.doe.gov/publication/tiny-earth-a-big-idea-for-stem-education-and-antibiotic-discovery/
https://jgi.doe.gov/publication/tissue-cultivation-preparation-and-extraction-of-high-molecular-weight-dna-for-single-molecule-genome-sequencing-of-plant-associated-fungi-2/
https://jgi.doe.gov/publication/tn-seq-of-caulobacter-crescentus-under-uranium-stress-reveals-genes-essential-for-detoxification-and-stress-tolerance-11/
https://jgi.doe.gov/publication/toward-a-data-infrastructure-for-the-plant-cell-atlas-2/
https://jgi.doe.gov/publication/toward-a-standard-in-structural-genome-annotation-for-prokaryotes-11/
https://jgi.doe.gov/publication/toward-a-standards-compliant-genomic-and-metagenomic-publication-record/
https://jgi.doe.gov/publication/toward-an-online-repository-of-standard-operating-procedures-sops-for-metagenomic-annotation/
https://jgi.doe.gov/publication/toward-sustainable-cell-free-biomanufacturing/
https://jgi.doe.gov/publication/toward-understanding-phagehost-interactions-in-the-rumen-complete-genome-sequences-of-lytic-phages-infecting-rumen-bacteria/
https://jgi.doe.gov/publication/towards-a-balanced-view-of-the-bacterial-tree-of-life/
https://jgi.doe.gov/publication/towards-a-genome-based-virus-taxonomy/
https://jgi.doe.gov/publication/towards-optimized-viral-metagenomes-for-double-stranded-and-single-stranded-dna-viruses-from-challenging-soils/
https://jgi.doe.gov/publication/trace-metal-contents-of-autotrophic-flagellates-from-contrasting-open%e2%80%90ocean-ecosystems-2/
https://jgi.doe.gov/publication/tracking-heavy-water-d2o-incorporation-for-identifying-and-sorting-active-microbial-cells-11/
https://jgi.doe.gov/publication/tracking-of-enzymatic-biomass-deconstruction-by-fungal-secretomes-highlights-markers-of-lignocellulose-recalcitrance/
https://jgi.doe.gov/publication/tracking-the-ancestry-of-known-and-ghost-homeologous-subgenomes-in-model-grass-brachypodium-polyploids-2/
https://jgi.doe.gov/publication/tracking-the-roots-of-cellulase-hyperproduction-by-the-fungus-trichoderma-reesei-using-massively-parallel-dna-sequencing/
https://jgi.doe.gov/publication/transcription-factor-amr1-induces-melanin-biosynthesis-and-suppresses-virulence-in-alternaria-brassicicola/
https://jgi.doe.gov/publication/transcription-factor-family-based-reconstruction-of-singleton-regulons-and-study-of-the-crpfnr-arsr-and-gntr-families-in-desulfovibrionales-genomes/
https://jgi.doe.gov/publication/transcriptional-acclimation-and-spatial-differentiation-characterize-drought-response-by-the-ectomycorrhizal-fungus-suillus-pungens-2/
https://jgi.doe.gov/publication/transcriptional-control-of-clostridium-autoethanogenum-using-crispri/
https://jgi.doe.gov/publication/transcriptional-response-of-bathypelagic-marine-bacterioplankton-to-the-deepwater-horizon-oil-spill/
https://jgi.doe.gov/publication/transcriptional-response-of-the-white-rot-fungus-dichomitus-squalens-to-polysaccharides-reveals-a-co-expression-network-of-plant-biomass-conversion-related-genes/
https://jgi.doe.gov/publication/transcriptional-responses-of-the-bdtf1-deletion-mutant-to-the-phytoalexin-brassinin-in-the-necrotrophic-fungus-alternaria-brassicicola/
https://jgi.doe.gov/publication/transcriptional-responses-of-the-marine-green-alga-micromonas-pusilla-and-an-infecting-prasinovirus-under-different-phosphate-conditions/
https://jgi.doe.gov/publication/transcriptome-analysis-of-aspergillus-niger-xlnr-and-xkia-mutants-grown-on-corn-stover-and-soybean-hulls-reveals-a-highly-complex-regulatory-network/
https://jgi.doe.gov/publication/transcriptome-analysis-of-brachypodium-during-fungal-pathogen-infection-reveals-both-shared-and-distinct-defense-responses-with-wheat/
https://jgi.doe.gov/publication/transcriptome-and-dna-methylome-divergence-of-inflorescence-development-between-2-ecotypes-in-panicum-hallii/
https://jgi.doe.gov/publication/transcriptomic-analysis-of-field-droughted-sorghum-from-seedling-to-maturity-reveals-biotic-and-metabolic-responses/
https://jgi.doe.gov/publication/transcriptomic-and-genomic-effects-of-gamma-radiation-exposure-on-strains-of-the-black-yeast-exophiala-dermatitidis-evolved-to-display-increased-ionizing-radiation-resistance/
https://jgi.doe.gov/publication/transcriptomic-atlas-of-mushroom-development-reveals-conserved-genes-behind-complex-multicellularity-in-fungi/
https://jgi.doe.gov/publication/transcriptomic-data-sets-for-zymomonas-mobilis-2032-during-fermentation-of-ammonia-fiber-expansion-afex-pretreated-corn-stover-and-switchgrass-hydrolysates-2/
https://jgi.doe.gov/publication/transcriptomic-response-of-the-mycoparasitic-fungus-trichoderma-atroviride-to-the-presence-of-a-fungal-prey-2/
https://jgi.doe.gov/publication/transcriptomic-response-of-the-mycoparasitic-fungus-trichoderma-atroviride-to-the-presence-of-a-fungal-prey/
https://jgi.doe.gov/publication/transcriptomics-of-temporal-versus-substrate-specific-wood-decay-in-the-brown-rot-fungus-fibroporia-radiculosa-2/
https://jgi.doe.gov/publication/transcriptomics-of-temporal-versus-substrate-specific-wood-decay-in-the-brown-rot-fungus-fibroporia-radiculosa-3/
https://jgi.doe.gov/publication/transcriptomics-of-temporal-versus-substrate-specific-wood-decay-in-the-brown-rot-fungus-fibroporia-radiculosa/
https://jgi.doe.gov/publication/transcriptomics-reveal-a-mechanism-of-niche-defense-two-beneficial-root-endophytes-deploy-an-antimicrobial-gh18%e2%80%90cbm5-chitinase-to-protect-their-hosts-2/
https://jgi.doe.gov/publication/transcriptomics-reveal-a-mechanism-of-niche-defense-two-beneficial-root-endophytes-deploy-an-antimicrobial-gh18%e2%80%90cbm5-chitinase-to-protect-their-hosts-3/
https://jgi.doe.gov/publication/transcriptomics-reveal-a-mechanism-of-niche-defense-two-beneficial-root-endophytes-deploy-an-antimicrobial-gh18%e2%80%90cbm5-chitinase-to-protect-their-hosts/
https://jgi.doe.gov/publication/transductomics-sequencing-based-detection-and-analysis-of-transduced-dna-in-pure-cultures-and-microbial-communities/
https://jgi.doe.gov/publication/transfer-rnas-with-novel-cloverleaf-structures/
https://jgi.doe.gov/publication/transgenic-expression-of-the-dicotyledonous-pattern-recognition-receptor-efr-in-rice-leads-to-ligand-dependent-activation-of-defense-responses/
https://jgi.doe.gov/publication/transitions-of-foliar-mycobiota-community-and-transcriptome-in-response-to-pathogenic-conifer-needle-interactions-2/
https://jgi.doe.gov/publication/transposable-element-dynamics-among-asymbiotic-and-ectomycorrhizal-amanita-fungi/
https://jgi.doe.gov/publication/transposable-elements-versus-the-fungal-genome-impact-on-whole-genome-architecture-and-transcriptional-profiles/
https://jgi.doe.gov/publication/transposition-of-hoppla-in-sirna-deficient-plants-suggests-a-limited-effect-of-the-environment-on-retrotransposon-mobility-in-brachypodium-distachyon/
https://jgi.doe.gov/publication/transposon-signatures-of-allopolyploid-genome-evolution/
https://jgi.doe.gov/publication/treeq-vista-an-interactive-tree-visualization-tool-with-functional-annotation-query-capabilities/
https://jgi.doe.gov/publication/trends-in-prokaryotic-evolution-revealed-by-comparison-of-closely-related-bacterial-and-archaeal-genomes/
https://jgi.doe.gov/publication/trichoderma-harzianum-transcriptome-in-response-to-cadmium-exposure/
https://jgi.doe.gov/publication/trichoderma-harzianum-transcriptome-in-response-to-the-nematode-pratylenchus-brachyurus/
https://jgi.doe.gov/publication/trichoderma-the-genomics-of-opportunistic-success/
https://jgi.doe.gov/publication/trimer-transcription-regulation-integrated-with-metabolic-regulation-2/
https://jgi.doe.gov/publication/triphenyltin-degradation-and-proteomic-response-by-an-engineered-escherichia-coli-expressing-cytochrome-p450-enzyme/
https://jgi.doe.gov/publication/triplicate-pcr-reactions-for-16s-rrna-gene-amplicon-sequencing-are-unnecessary/
https://jgi.doe.gov/publication/tuning-fresh-radiation-through-rewiring-of-central-metabolism-in-streamlined-bacteria/
https://jgi.doe.gov/publication/tuning-of-gene-expression-in-clostridium-phytofermentans-using-synthetic-promoters-and-crispri-2/
https://jgi.doe.gov/publication/twenty-five-years-of-genomes-online-database-gold-data-updates-and-new-features-in-v-9-2/
https://jgi.doe.gov/publication/two-major-chromosome-evolution-events-with-unrivaled-conserved-gene-content-in-pomegranate/
https://jgi.doe.gov/publication/two-new-high-resolution-crystal-structures-of-carboxysome-pentamer-proteins-reveal-high-structural-conservation-of-ccml-orthologs-among-distantly-related-cyanobacterial-species/
https://jgi.doe.gov/publication/two-related-families-of-metal-transferases-zng1-and-zng2-are-involved-in-acclimation-to-poor-zn-nutrition-in-arabidopsis-2/
https://jgi.doe.gov/publication/two-related-families-of-metal-transferases-zng1-and-zng2-are-involved-in-acclimation-to-poor-zn-nutrition-in-arabidopsis-3/
https://jgi.doe.gov/publication/two-related-families-of-metal-transferases-zng1-and-zng2-are-involved-in-acclimation-to-poor-zn-nutrition-in-arabidopsis/
https://jgi.doe.gov/publication/two-rounds-of-whole-genome-duplication-in-the-ancestral-vertebrate/
https://jgi.doe.gov/publication/uga-is-an-additional-glycine-codon-in-uncultured-sr1-bacteria-from-the-human-microbiota/
https://jgi.doe.gov/publication/ultraconservation-identifies-a-small-subset-of-extremely-constrained-developmental-enhancers/
https://jgi.doe.gov/publication/uncovering-earths-virome/
https://jgi.doe.gov/publication/uncovering-secondary-metabolite-evolution-and-biosynthesis-using-gene-cluster-networks-and-genetic-dereplication/
https://jgi.doe.gov/publication/uncovering-the-diversity-and-activity-of-methylotrophic-methanogens-in-freshwater-wetland-soils/
https://jgi.doe.gov/publication/uncovering-the-dominant-role-of-root-metabolism-in-shaping-rhizosphere-metabolome-under-drought-in-tropical-rainforest-plants/
https://jgi.doe.gov/publication/uncultivated-thermophiles-current-status-and-spotlight-on-aigarchaeota-11/
https://jgi.doe.gov/publication/uncultivated-viral-populations-dominate-estuarine-viromes-on-the-spatiotemporal-scale/
https://jgi.doe.gov/publication/unexpected-host-dependency-of-antarctic-nanohaloarchaeota/
https://jgi.doe.gov/publication/unique-genomic-traits-for-cold-adaptation-in-naganishia-vishniacii-a-polyextremophile-yeast-isolated-from-antarctica/
https://jgi.doe.gov/publication/unlocking-saponin-biosynthesis-in-soapwort-2/
https://jgi.doe.gov/publication/unlocking-saponin-biosynthesis-in-soapwort-3/
https://jgi.doe.gov/publication/unlocking-saponin-biosynthesis-in-soapwort/
https://jgi.doe.gov/publication/unlocking-the-potential-of-metagenomics-through-replicated-experimental-design/
https://jgi.doe.gov/publication/unraveling-the-functional-dark-matter-through-global-metagenomics-2/
https://jgi.doe.gov/publication/unraveling-the-functional-dark-matter-through-global-metagenomics-3/
https://jgi.doe.gov/publication/unraveling-the-functional-dark-matter-through-global-metagenomics/
https://jgi.doe.gov/publication/unraveling-the-regulation-of-sugar-beet-pulp-utilization-in-the-industrially-relevant-fungus-aspergillus-niger-2/
https://jgi.doe.gov/publication/untargeted-tandem-mass-spectrometry-metaproteome-of-columbia-river-sediments-2/
https://jgi.doe.gov/publication/untargeted-tandem-mass-spectrometry-metaproteome-of-columbia-river-sediments-3/
https://jgi.doe.gov/publication/untargeted-tandem-mass-spectrometry-metaproteome-of-columbia-river-sediments/
https://jgi.doe.gov/publication/unusual-biology-across-a-group-comprising-more-than-15-of-domain-bacteria-11/
https://jgi.doe.gov/publication/unusual-metabolism-and-hypervariation-in-the-genome-of-a-gracilibacterium-bd1-5-from-an-oil-degrading-community/
https://jgi.doe.gov/publication/unveiling-plasmid-diversity-in-nature-2/
https://jgi.doe.gov/publication/unveiling-plasmid-diversity-in-nature-3/
https://jgi.doe.gov/publication/unveiling-plasmid-diversity-in-nature/
https://jgi.doe.gov/publication/updated-virophage-taxonomy-and-distinction-from-polinton-like-viruses/
https://jgi.doe.gov/publication/updating-algal-evolutionary-relationships-through-plastid-genome-sequencing-did-alveolate-plastids-emerge-through-endosymbiosis-of-an-ochrophyte-11/
https://jgi.doe.gov/publication/use-of-agrobacterium-rhizogenes-strain-18r12v-and-paromomycin-selection-for-transformation-of-brachypodium-distachyon-and-brachypodium-sylvaticum/
https://jgi.doe.gov/publication/use-of-simulated-data-sets-to-evaluate-the-fidelity-of-metagenomic-processing-methods/
https://jgi.doe.gov/publication/use-of-stable-isotope-probing-full-cycle-rrna-analysis-and-fluorescence-in-situ-hybridization-microautoradiography-to-study-a-methanol-fed-denitrifying-microbial-community/
https://jgi.doe.gov/publication/using-blast-to-teach-e-value-tionary-concepts/
https://jgi.doe.gov/publication/validating-genome-wide-crispr-cas9-function-improves-screening-in-the-oleaginous-yeast-yarrowia-lipolytica/
https://jgi.doe.gov/publication/validation-of-a-metabolite-gwas-network-for-populus-trichocarpa-family-1-udp-glycosyltransferases/
https://jgi.doe.gov/publication/validation-of-two-ribosomal-rna-removal-methods-for-microbial-metatranscriptomics/
https://jgi.doe.gov/publication/variant-profiling-of-evolving-prokaryotic-populations/
https://jgi.doe.gov/publication/variation-and-inheritance-of-small-rnas-in-maize-inbreds-and-f1-hybrids/
https://jgi.doe.gov/publication/variation-in-adult-plant-phenotypes-and-partitioning-among-seed-and-stem-borne-roots-across-brachypodium-distachyon-accessions-to-exploit-in-breeding-cereals-for-well-watered-and-drought-environmen-11/
https://jgi.doe.gov/publication/variation-in-root-exudate-composition-influences-soil-microbiome-membership-and-function-2/
https://jgi.doe.gov/publication/veillonella-firmicutes-microbes-disguised-as-gram-negatives/
https://jgi.doe.gov/publication/verrucomicrobia-are-prevalent-in-north-temperate-freshwater-lakes-and-display-class-level-preferences-between-lake-habitats/
https://jgi.doe.gov/publication/verrucomicrobiota-are-specialist-consumers-of-sulfated-methyl-pentoses-during-diatom-blooms/
https://jgi.doe.gov/publication/vertical-and-horizontal-gene-transfer-shaped-plant-colonization-and-biomass-degradation-in-the-fungal-genus-armillaria/
https://jgi.doe.gov/publication/viral-and-metabolic-controls-on-high-rates-of-microbial-sulfur-and-carbon-cycling-in-wetland-ecosystems/
https://jgi.doe.gov/publication/viral-community-analysis-in-a-marine-oxygen-minimum-zone-indicates-increased-potential-for-viral-manipulation-of-microbial-physiological-state-2/
https://jgi.doe.gov/publication/viral-dark-matter-and-virus-host-interactions-resolved-from-publicly-available-microbial-genomes-11/
https://jgi.doe.gov/publication/viral-potential-to-modulate-microbial-methane-metabolism-varies-by-habitat/
https://jgi.doe.gov/publication/virsorter2-a-multi-classifier-expert-guided-approach-to-detect-diverse-dna-and-rna-viruses/
https://jgi.doe.gov/publication/virulence-of-banana-wilt-causing-fungal-pathogen-fusarium-oxysporum-tropical-race-4-is-mediated-by-nitric-oxide-biosynthesis-and-accessory-genes-2/
https://jgi.doe.gov/publication/virulence-of-banana-wilt-causing-fungal-pathogen-fusarium-oxysporum-tropical-race-4-is-mediated-by-nitric-oxide-biosynthesis-and-accessory-genes-3/
https://jgi.doe.gov/publication/virulence-of-banana-wilt-causing-fungal-pathogen-fusarium-oxysporum-tropical-race-4-is-mediated-by-nitric-oxide-biosynthesis-and-accessory-genes/
https://jgi.doe.gov/publication/virus-associated-organosulfur-metabolism-in-human-and-environmental-systems/
https://jgi.doe.gov/publication/virus-bioinformatics-2/
https://jgi.doe.gov/publication/virus-diversity-and-activity-is-driven-by-snowmelt-and-host-dynamics-in-a-high-altitude-watershed-soil-ecosystem-2/
https://jgi.doe.gov/publication/virus-diversity-and-activity-is-driven-by-snowmelt-and-host-dynamics-in-a-high-altitude-watershed-soil-ecosystem-3/
https://jgi.doe.gov/publication/virus-diversity-and-activity-is-driven-by-snowmelt-and-host-dynamics-in-a-high-altitude-watershed-soil-ecosystem/
https://jgi.doe.gov/publication/virus-ecology-and-7%e2%80%90year-temporal-dynamics-across-a-permafrost-thaw-gradient-2/
https://jgi.doe.gov/publication/virus-ecology-and-7%e2%80%90year-temporal-dynamics-across-a-permafrost-thaw-gradient-3/
https://jgi.doe.gov/publication/virus-ecology-and-7%e2%80%90year-temporal-dynamics-across-a-permafrost-thaw-gradient/
https://jgi.doe.gov/publication/virus-host-interactions-and-genetic-diversity-of-antarctic-sea-ice-bacteriophages-2/
https://jgi.doe.gov/publication/viruses-control-dominant-bacteria-colonizing-the-terrestrial-deep-biosphere-after-hydraulic-fracturing/
https://jgi.doe.gov/publication/viruses-infecting-a-warm-water-picoeukaryote-shed-light-on-spatial-co-occurrence-dynamics-of-marine-viruses-and-their-hosts/
https://jgi.doe.gov/publication/viruses-interact-with-hosts-that-span-distantly-related-microbial-domains-in-dense-hydrothermal-mats/
https://jgi.doe.gov/publication/vision-challenges-and-opportunities-for-a-plant-cell-atlas/
https://jgi.doe.gov/publication/vista-computational-tools-for-comparative-genomics/
https://jgi.doe.gov/publication/vista-region-viewer-rviewer-a-computational-system-for-prioritizing-genomic-intervals-for-biomedical-studies/
https://jgi.doe.gov/publication/visual-comparative-omics-of-fungi-for-plant-biomass-deconstruction/
https://jgi.doe.gov/publication/visualizing-metagenomic-and-metatranscriptomic-data-a-comprehensive-review-2/
https://jgi.doe.gov/publication/visualizing-metagenomic-and-metatranscriptomic-data-a-comprehensive-review/
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https://jgi.doe.gov/recipe-amplifying-genomes-cell-by-cell/sakinaw_ubc/
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https://jgi.doe.gov/reducing-methane-emission-from-peatlands/
https://jgi.doe.gov/reducing-methane-with-rumen-microbiome-studies/
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https://jgi.doe.gov/reference-catalog-for-rumen-microbiome/hover-in-the-sky/
https://jgi.doe.gov/reference-catalog-for-rumen-microbiome/hungate-ella-maru-web/
https://jgi.doe.gov/reference-catalog-for-rumen-microbiome/whungate-by-ella-maru/
https://jgi.doe.gov/refining-origins-of-wood-rotting-mechanisms-fungi/
https://jgi.doe.gov/refining-origins-of-wood-rotting-mechanisms-fungi/lr2-abejorro34-calocera-viscosa-cc-by-nc-2/
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https://jgi.doe.gov/refining-process-of-identifying-algae-biotechnology-candidates/algae-bioreactor-image002_dennis-schroeder-nrel/
https://jgi.doe.gov/refining-process-of-identifying-algae-biotechnology-candidates/wscenedesmus-sample46b-d3-1_dahlin/
https://jgi.doe.gov/register-for-next-mgm-workshop/
https://jgi.doe.gov/release-nmpfcatalog/
https://jgi.doe.gov/release-nmpfcatalog/iceberg_1-12x/
https://jgi.doe.gov/release-nmpfcatalog/jgi-nmpf-nature-microscope_16-92x_samantha-trieu-berkeley-lab/
https://jgi.doe.gov/reproducibility-matters-maize-rhizosphere/
https://jgi.doe.gov/reproducibility-matters-maize-rhizosphere/cagriculture-corn-cornfield-1112080-pexels-cc0/
https://jgi.doe.gov/researching-and-solving-real-world-problems-with-the-2023-jgi-uc-merced-interns/
https://jgi.doe.gov/researching-and-solving-real-world-problems-with-the-2023-jgi-uc-merced-interns/20230602_134532-1/
https://jgi.doe.gov/retracing-early-cultivation-steps-lessons-comparing-citrus-genomes/
https://jgi.doe.gov/retracing-early-cultivation-steps-lessons-comparing-citrus-genomes/citrus_varieties_fredgmitter/
https://jgi.doe.gov/retracing-early-cultivation-steps-lessons-comparing-citrus-genomes/cr_citrus-1_rk/
https://jgi.doe.gov/retracing-roots-fungal-symbioses/
https://jgi.doe.gov/retracing-roots-fungal-symbioses/amanita-muscaria-72-fmartininra/
https://jgi.doe.gov/retracing-roots-fungal-symbioses/laccaria-amethystina-amethyst-deceiver-570-fmartininra/
https://jgi.doe.gov/revealing-aspergillus-diversity-industrial-applications/
https://jgi.doe.gov/revealing-aspergillus-diversity-industrial-applications/w-genome-aspergilli-20160301-selection-jgi/
https://jgi.doe.gov/revisiting-the-importance-of-studying-the-microbes-in-termite-guts/
https://jgi.doe.gov/rfi-2023-berac-unified-data-framework/
https://jgi.doe.gov/rfi-2023-berac-unified-data-framework/rfi-berac-header-graphic/
https://jgi.doe.gov/rh-seq-mapping-heat-resistance-in-yeasts/
https://jgi.doe.gov/rh-seq-mapping-heat-resistance-in-yeasts/1005b-microscopy-weiss/
https://jgi.doe.gov/rh-seq-mapping-heat-resistance-in-yeasts/570-bremtnseq/
https://jgi.doe.gov/rhizobial-project-on-the-west-australian/
https://jgi.doe.gov/rivit-seq-streamlining-regulon-identification-in-bacteria/
https://jgi.doe.gov/rivit-seq-streamlining-regulon-identification-in-bacteria/rivitseq_image/
https://jgi.doe.gov/roberts-wesleyan-college-in-doe-jgi-undergraduate-research-program-in-microbial-genome-annotation/
https://jgi.doe.gov/roberts-wesleyan-college-part-of-doe-jgi-undergraduate-research-program-in-microbial-genome-annotation/
https://jgi.doe.gov/rod-wing-arizona-genomics-institute/
https://jgi.doe.gov/rod-wing-arizona-genomics-institute/lr-rod-wing-um09/
https://jgi.doe.gov/rod-wing-arizona-genomics-institute/lr-rodwing-kw/
https://jgi.doe.gov/role-priming-effects-blue-carbon-conversion-coastal-zone/
https://jgi.doe.gov/roles-of-dna-methylation-in-prokaryotes/
https://jgi.doe.gov/roles-of-dna-methylation-in-prokaryotes/prok-journal-pgen-1005854-g001/
https://jgi.doe.gov/salt-needed-tolerance-lessons-from-a-dead-sea-fungus/
https://jgi.doe.gov/salt-needed-tolerance-lessons-from-a-dead-sea-fungus/deadsea72_itamargrinberg_flickrisraeltourism/
https://jgi.doe.gov/salt-needed-tolerance-lessons-from-a-dead-sea-fungus/e-rubrum-plate_tkispapo/
https://jgi.doe.gov/salt-needed-tolerance-lessons-from-a-dead-sea-fungus/erubrum_head_tkispapo/
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https://jgi.doe.gov/salt-tolerant-trees-and-their-symbionts/laplaze_casuarina_glauca_tonyroddflickrcc/
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https://jgi.doe.gov/sandiajgi-grasslands-project-on-newswise/
https://jgi.doe.gov/scalable-process-charting-biogeochemical-cycles/
https://jgi.doe.gov/scaling-microbial-genomics-discoveries-ecosystem-modeling/
https://jgi.doe.gov/scaling-microbial-genomics-discoveries-ecosystem-modeling/wrhonzhong-ye-jennifer-morris-ghg-fluxes-img_2016-by-whartman/
https://jgi.doe.gov/scgsr-2018-forefront-terrestrial-virus-research/
https://jgi.doe.gov/scgsr-behind-the-paper-hot-springs-metagenomics/
https://jgi.doe.gov/scgsr-behind-the-paper-hot-springs-metagenomics/nick-reichart-scgsr/
https://jgi.doe.gov/scgsr-virus-microbe-interactions-of-mud-island-mangroves/
https://jgi.doe.gov/scgsr-virus-microbe-interactions-of-mud-island-mangroves/ian-rambo-2019-scgsr-program/
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https://jgi.doe.gov/schizophyllum-commune-project-on-7th-space/
https://jgi.doe.gov/schizophyllum-commune-project-on-eurekalert/
https://jgi.doe.gov/schizophyllum-commune-project-on-labspaces/
https://jgi.doe.gov/schizophyllum-commune-project-on-physorg/
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https://jgi.doe.gov/science-space-nasa-talks-berkeley-lab-052017/
https://jgi.doe.gov/science-space-nasa-talks-berkeley-lab-052017/cf-katerubins/
https://jgi.doe.gov/science-space-nasa-talks-berkeley-lab-052017/cf-liz-warren-pic-casis/
https://jgi.doe.gov/science-space-nasa-talks-berkeley-lab-052017/kate_rubins_berkeley_lab/
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https://jgi.doe.gov/scihi-eelgrass-proves-to-be-much-younger-that-we-thought/20170912_eelgrass_falckenstein_uli_kunz_sarfish/
https://jgi.doe.gov/scihi-eelgrass-proves-to-be-much-younger-that-we-thought/natureplants_aug2023/
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https://jgi.doe.gov/scihi-genomad/virus-scene-flat-final-shade2/
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https://jgi.doe.gov/see-sort-developing-novel-techniques-visualize-uncultured-microbial-cell-activity/
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https://jgi.doe.gov/sequencing-aquatic-fungi/
https://jgi.doe.gov/sequencing-c3-cam-yucca-species/
https://jgi.doe.gov/sequencing-sphagnum-leads-to-discovery-of-sex-chromosomes/
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https://jgi.doe.gov/serpula-fungus-dry-rot-made-itself-at-home/w-serpula-lacrymans-inger-skrede/
https://jgi.doe.gov/serpula-fungus-dry-rot-made-itself-at-home/ws-lacrymans-var-lacrymans-in-the-wild_havardkauserud/
https://jgi.doe.gov/serpula-fungus-dry-rot-made-itself-at-home/ws-lacrymans-var-shastensis-decomposing-a-large-shasta-red-fir_havardkauserud/
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https://jgi.doe.gov/targeted-sorting-microbial-cells/wagner_etop-whole/
https://jgi.doe.gov/targeted-sorting-microbial-cells/wagner_etop/
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https://jgi.doe.gov/user-programs/pmo-overview/project-materials-submission-overview/importance-of-sample-qc/
https://jgi.doe.gov/user-programs/pmo-overview/project-materials-submission-overview/itag-sample-amplification-qc-v1-0/
https://jgi.doe.gov/user-programs/pmo-overview/project-materials-submission-overview/itag-sample-amplification-qc-v1-1/
https://jgi.doe.gov/user-programs/pmo-overview/project-materials-submission-overview/jgi-rna-stable-procedure-2016/
https://jgi.doe.gov/user-programs/pmo-overview/project-materials-submission-overview/metagenome-dna-preparation-fy14-2/
https://jgi.doe.gov/user-programs/pmo-overview/project-materials-submission-overview/metagenome-dna-preparation-fy14/
https://jgi.doe.gov/user-programs/pmo-overview/project-materials-submission-overview/metagenome-dna-preparation-fy141/
https://jgi.doe.gov/user-programs/pmo-overview/project-materials-submission-overview/metagenome-dna-preparation-fy15/
https://jgi.doe.gov/user-programs/pmo-overview/project-materials-submission-overview/metagenome-rna-preparation-fy14-2/
https://jgi.doe.gov/user-programs/pmo-overview/project-materials-submission-overview/metagenome-rna-preparation-fy14/
https://jgi.doe.gov/user-programs/pmo-overview/project-materials-submission-overview/microbial-dna-preparation-fy14-2/
https://jgi.doe.gov/user-programs/pmo-overview/project-materials-submission-overview/microbial-dna-preparation-fy14/
https://jgi.doe.gov/user-programs/pmo-overview/project-materials-submission-overview/microbial-rna-preparation-fy14-2/
https://jgi.doe.gov/user-programs/pmo-overview/project-materials-submission-overview/microbial-rna-preparation-fy14/
https://jgi.doe.gov/user-programs/pmo-overview/project-materials-submission-overview/plant-dna-preparation-fy14-2/
https://jgi.doe.gov/user-programs/pmo-overview/project-materials-submission-overview/plant-dna-preparation-fy14/
https://jgi.doe.gov/user-programs/pmo-overview/project-materials-submission-overview/plant-rna-preparation-fy14-2/
https://jgi.doe.gov/user-programs/pmo-overview/project-materials-submission-overview/plant-rna-preparation-fy14/
https://jgi.doe.gov/user-programs/pmo-overview/project-materials-submission-overview/plate-based-sample-requirements-fy14-2/
https://jgi.doe.gov/user-programs/pmo-overview/project-materials-submission-overview/plate-based-sample-requirements-fy14/
https://jgi.doe.gov/user-programs/pmo-overview/project-materials-submission-overview/plate-submission-guidelines/
https://jgi.doe.gov/user-programs/pmo-overview/project-materials-submission-overview/plate-submission-guidelines/plate_image/
https://jgi.doe.gov/user-programs/pmo-overview/project-materials-submission-overview/rna-gentegra-procedure-for-collaborators_nov-2022-doc-google-docs/
https://jgi.doe.gov/user-programs/pmo-overview/project-materials-submission-overview/rna-submission-guidelines/
https://jgi.doe.gov/user-programs/pmo-overview/project-materials-submission-overview/rna-submission-guidelines/rna/
https://jgi.doe.gov/user-programs/pmo-overview/project-materials-submission-overview/sample-quality-and-contamination/
https://jgi.doe.gov/user-programs/pmo-overview/project-materials-submission-overview/taxonomy-quick-guide/
https://jgi.doe.gov/user-programs/pmo-overview/protocols-sample-preparation-information/
https://jgi.doe.gov/user-programs/pmo-overview/protocols-sample-preparation-information/20130204_rnaisolationfromlcmsamples/
https://jgi.doe.gov/user-programs/pmo-overview/protocols-sample-preparation-information/dna_extraction_from_activated_sludge/
https://jgi.doe.gov/user-programs/pmo-overview/protocols-sample-preparation-information/dna_isolation_of_genomic_dna_of_phytophthora/
https://jgi.doe.gov/user-programs/pmo-overview/protocols-sample-preparation-information/dna_isolation_of_melampsora_nuclear_dna/
https://jgi.doe.gov/user-programs/pmo-overview/protocols-sample-preparation-information/dna_isolation_of_nuclear_dna_of_arabidopsis_lyrata/
https://jgi.doe.gov/user-programs/pmo-overview/protocols-sample-preparation-information/dnase-treatment-of-total-rna-2012/
https://jgi.doe.gov/user-programs/pmo-overview/protocols-sample-preparation-information/edna-_purification/
https://jgi.doe.gov/user-programs/pmo-overview/protocols-sample-preparation-information/eznasoilrnaminikit/
https://jgi.doe.gov/user-programs/pmo-overview/protocols-sample-preparation-information/fastrnaprosoilindirect/
https://jgi.doe.gov/user-programs/pmo-overview/protocols-sample-preparation-information/genomic-dna-qc-2012/
https://jgi.doe.gov/user-programs/pmo-overview/protocols-sample-preparation-information/genomic-dna-sample-qc-2016/
https://jgi.doe.gov/user-programs/pmo-overview/protocols-sample-preparation-information/hmw_dna_from_soil/
https://jgi.doe.gov/user-programs/pmo-overview/protocols-sample-preparation-information/hmw_edna/
https://jgi.doe.gov/user-programs/pmo-overview/protocols-sample-preparation-information/jgi-bacterial-dna-isolation-ctab-protocol-2012/
https://jgi.doe.gov/user-programs/pmo-overview/protocols-sample-preparation-information/jgi-rnaseq-data-lane-to-lane-variation-related-to-differential-expression-dec-2013/
https://jgi.doe.gov/user-programs/pmo-overview/protocols-sample-preparation-information/licl-rna-cleanup-2012/
https://jgi.doe.gov/user-programs/pmo-overview/protocols-sample-preparation-information/populusnucleardnapurificationwithqiagengenomic-tip100/
https://jgi.doe.gov/user-programs/pmo-overview/protocols-sample-preparation-information/qiagen_mirneasy_mini_handbook/
https://jgi.doe.gov/user-programs/pmo-overview/protocols-sample-preparation-information/qiagen_rnaprotect_bacteria_reagent_handbook/
https://jgi.doe.gov/user-programs/pmo-overview/protocols-sample-preparation-information/qiagen_rneasy_minelute_cleanup_handbook/
https://jgi.doe.gov/user-programs/pmo-overview/protocols-sample-preparation-information/qiagen_rneasy_mini_kit_rneasy_plant_mini_kit_handbook/
https://jgi.doe.gov/user-programs/pmo-overview/protocols-sample-preparation-information/rna-qc-protocol-2013/
https://jgi.doe.gov/user-programs/pmo-overview/protocols-sample-preparation-information/rna_extraction_chlamy_large_v1/
https://jgi.doe.gov/user-programs/pmo-overview/protocols-sample-preparation-information/rnase_i_dna_prep_clean_up_protocol/
https://jgi.doe.gov/user-programs/pmo-overview/sequence-submission-requirements-for-dna-synthesis-program/
https://jgi.doe.gov/user-programs/pmo-overview/sequence-submission-requirements-for-dna-synthesis-program/generaterscutable/
https://jgi.doe.gov/user-programs/pmo-overview/sequence-submission-requirements-for-dna-synthesis-program/reversetranslation/
https://jgi.doe.gov/user-programs/pmo-overview/sequence-submission-requirements-for-dna-synthesis-program/vectoreditorgenbank/
https://jgi.doe.gov/user-programs/product-offerings/
https://jgi.doe.gov/user-programs/program-info/
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https://jgi.doe.gov/user-programs/program-info/closed-calls/csp-2/
https://jgi.doe.gov/user-programs/program-info/closed-calls/csp-fy15/
https://jgi.doe.gov/user-programs/program-info/closed-calls/csp-fy16/
https://jgi.doe.gov/user-programs/program-info/closed-calls/csp-fy18/
https://jgi.doe.gov/user-programs/program-info/closed-calls/csp-fy19/
https://jgi.doe.gov/user-programs/program-info/closed-calls/csp-fy20/
https://jgi.doe.gov/user-programs/program-info/closed-calls/csp-fy21/
https://jgi.doe.gov/user-programs/program-info/closed-calls/csp-fy22/
https://jgi.doe.gov/user-programs/program-info/closed-calls/csp-fy23/
https://jgi.doe.gov/user-programs/program-info/closed-calls/csp-fy24/
https://jgi.doe.gov/user-programs/program-info/closed-calls/csp-fy25/
https://jgi.doe.gov/user-programs/program-info/closed-calls/ficus-jgi-emsl-fy19/
https://jgi.doe.gov/user-programs/program-info/closed-calls/ficus-jgi-emsl-fy20/
https://jgi.doe.gov/user-programs/program-info/closed-calls/ficus-jgi-emsl-fy21/
https://jgi.doe.gov/user-programs/program-info/closed-calls/ficus-jgi-emsl-fy22/
https://jgi.doe.gov/user-programs/program-info/closed-calls/ficus-jgi-emsl-fy23/
https://jgi.doe.gov/user-programs/program-info/closed-calls/ficus-jgi-emsl-fy24/
https://jgi.doe.gov/user-programs/program-info/closed-calls/ficus-jgi-emsl-fy25/
https://jgi.doe.gov/user-programs/program-info/closed-calls/ficus-jgi-nersc-kbase-fy19/
https://jgi.doe.gov/user-programs/program-info/closed-calls/jgi-emsl-fy15/
https://jgi.doe.gov/user-programs/program-info/closed-calls/jgi-emsl-fy16/
https://jgi.doe.gov/user-programs/program-info/closed-calls/jgi-emsl-fy17/
https://jgi.doe.gov/user-programs/program-info/closed-calls/jgi-emsl-fy18/
https://jgi.doe.gov/user-programs/program-info/closed-calls/jgi-nersc-fy17/
https://jgi.doe.gov/user-programs/program-info/closed-calls/small-scale-microbial-metagenome-program/
https://jgi.doe.gov/user-programs/program-info/closed-calls/synthetic-biology/
https://jgi.doe.gov/user-programs/program-info/csp-frequently-asked-questions/
https://jgi.doe.gov/user-programs/program-info/csp-frequently-asked-questions/example-csp19-loi-504140/
https://jgi.doe.gov/user-programs/program-info/csp-frequently-asked-questions/example-csp19-loi-504399/
https://jgi.doe.gov/user-programs/program-info/csp-frequently-asked-questions/example-csp19-loi-504420/
https://jgi.doe.gov/user-programs/program-info/csp-frequently-asked-questions/example-ni-proposal-503942/
https://jgi.doe.gov/user-programs/program-info/csp-overview/
https://jgi.doe.gov/user-programs/program-info/csp-overview/csp-annual-call/
https://jgi.doe.gov/user-programs/program-info/csp-overview/csp-annual-call/helix-sculpture-at-the-igb/
https://jgi.doe.gov/user-programs/program-info/csp-overview/csp-functional-genomics/
https://jgi.doe.gov/user-programs/program-info/csp-overview/csp-new-investigator/
https://jgi.doe.gov/user-programs/program-info/csp-review-process-and-contract-documents/
https://jgi.doe.gov/user-programs/program-info/csp2011_flow_chart_052510-2/
https://jgi.doe.gov/user-programs/program-info/csp2011_flow_chart_052510-3/
https://jgi.doe.gov/user-programs/program-info/csp2011_flow_chart_052510/
https://jgi.doe.gov/user-programs/program-info/csp_emsl_timeline2014-2/
https://jgi.doe.gov/user-programs/program-info/csp_timeline2014-2/
https://jgi.doe.gov/user-programs/program-info/doe-mission-relevance/
https://jgi.doe.gov/user-programs/program-info/ficus-overview/
https://jgi.doe.gov/user-programs/program-info/ficus-overview/emsl/
https://jgi.doe.gov/user-programs/program-info/ficus-overview/ficus-jgi-nersc/
https://jgi.doe.gov/user-programs/program-info/how-to-propose-a-csp-project/
https://jgi.doe.gov/user-programs/program-info/how-to-propose-a-csp-project/062614_sbircinvestigatorguidelines/
https://jgi.doe.gov/user-programs/program-info/how-to-propose-a-csp-project/csp2014proposaltemplate-2/
https://jgi.doe.gov/user-programs/program-info/how-to-propose-a-csp-project/csp2015proposaltemplatefinal/
https://jgi.doe.gov/user-programs/web-2017-jgi-opportunities-brochure/
https://jgi.doe.gov/uw-mjgi-ant-collaboration-on-cleantech-com/
https://jgi.doe.gov/views-from-our-user-community-jeff-dangl-university-of-north-carolina/
https://jgi.doe.gov/views-from-our-user-community-jeff-dangl-university-of-north-carolina/jeff_dangl/
https://jgi.doe.gov/views-from-our-user-community-mary-ann-moran-university-of-georgia/
https://jgi.doe.gov/views-from-our-user-community-mary-ann-moran-university-of-georgia/mary_ann_moran/
https://jgi.doe.gov/views-from-our-user-community-trina-mcmahon-university-of-wisconsin-madison/
https://jgi.doe.gov/views-from-our-user-community-trina-mcmahon-university-of-wisconsin-madison/cr_um12_trina_mcmahon/
https://jgi.doe.gov/views-from-our-user-community-trina-mcmahon-university-of-wisconsin-madison/trina_mcmahon_summerpalace/
https://jgi.doe.gov/virus-discoveries-that-keep-getting-bigger/
https://jgi.doe.gov/virus-discoveries-that-keep-getting-bigger/2022-11-15-naturereviewsmicrobiology-giantvirusdiversity/
https://jgi.doe.gov/virus-discoveries-that-keep-getting-bigger/giantviruses-naturereviewsmicrobiology/
https://jgi.doe.gov/viruses-reprogram-cells-into-different-virocells/
https://jgi.doe.gov/viruses-reprogram-cells-into-different-virocells/virocell-200124_conceptual_figure_for_doe_chv/
https://jgi.doe.gov/volvox-algae-and-sex-evolution-on-newswise/
https://jgi.doe.gov/volvox-algae-and-sex-evolution-on-redorbit/
https://jgi.doe.gov/volvox-algae-and-sex-evolution-on-sciencedaily/
https://jgi.doe.gov/volvox-carteri-project-in-algae-industry-magazine/
https://jgi.doe.gov/volvox-carteri-project-on-aced/
https://jgi.doe.gov/volvox-carteri-project-on-astrobiology-magazine/
https://jgi.doe.gov/volvox-carteri-project-on-biology-news-net/
https://jgi.doe.gov/volvox-carteri-project-on-cordis-wire/
https://jgi.doe.gov/volvox-carteri-project-on-eurekalert/
https://jgi.doe.gov/volvox-carteri-project-on-genetics-times/
https://jgi.doe.gov/volvox-carteri-project-on-genomeweb/
https://jgi.doe.gov/volvox-carteri-project-on-medical-news-today/
https://jgi.doe.gov/volvox-carteri-project-on-nctimes-com-blog/
https://jgi.doe.gov/volvox-carteri-project-on-nctimes/
https://jgi.doe.gov/volvox-carteri-project-on-redorbit/
https://jgi.doe.gov/volvox-carteri-project-on-scicasts/
https://jgi.doe.gov/volvox-carteri-project-on-web-newswire/
https://jgi.doe.gov/waiting-to-respire-bacterial-lineages/
https://jgi.doe.gov/waiting-to-respire-bacterial-lineages/nature-communications-cyanobacteria/
https://jgi.doe.gov/walnut-creeks-former-city-manager-on-the-doe-jgi-in-the-walnutcreekpatch/
https://jgi.doe.gov/waves-of-berkeley-lab-responders-deploy-omics-to-track-deepwater-horizon-oil-spill-cleanup-microbes/
https://jgi.doe.gov/webinar-applying-for-ficus-jgi-emsl-capabilities/
https://jgi.doe.gov/webinar-applying-for-ficus-jgi-emsl-capabilities/ficus-engagement-webinar-graphic-001/
https://jgi.doe.gov/webinar-csp-functional-genomics-call/
https://jgi.doe.gov/webinar-csp-functional-genomics-call/0708b20-rex_jgi_overview/
https://jgi.doe.gov/webinar-csp-functional-genomics-call/hal-alper-ut-austin-1/
https://jgi.doe.gov/webinar-csp-functional-genomics-call/hal-alper-ut-austin/
https://jgi.doe.gov/webinar-csp-functional-genomics-call/igb-dec-2019-shot/
https://jgi.doe.gov/webinar-csp-functional-genomics-call/photo-by-fred-greaves/
https://jgi.doe.gov/webinar-harnessing-jgi-metabolomics-capabilities/
https://jgi.doe.gov/webinar-harnessing-jgi-metabolomics-capabilities/570-metabolomics-webinar-001/
https://jgi.doe.gov/webinar-metagenome-quantitative-sip-at-jgi/
https://jgi.doe.gov/webinar-metagenome-quantitative-sip-at-jgi/qsip-video-kellom-00_07_43_07-still002/
https://jgi.doe.gov/webinar-mycocosm-tutorial/
https://jgi.doe.gov/webinar-mycocosm-tutorial/mycocosm-screen-shot-2021-03-22-at-11-48-25-am-copy/
https://jgi.doe.gov/webinar-mycocosm-tutorial/phycocosm-screen-shot-2021-03-22-at-11-48-42-am-copy/
https://jgi.doe.gov/webinar-phycocosm-tutorial/
https://jgi.doe.gov/webinar-sip-stable-isotopes-technologies-emsl-jgi/
https://jgi.doe.gov/webinar-sip-stable-isotopes-technologies-emsl-jgi/sip-webinar-overview-cover/
https://jgi.doe.gov/webinar-successfully-apply-for-csp-proposal/
https://jgi.doe.gov/webinar-successfully-apply-for-csp-proposal/090120-webinar-blog-screencap/
https://jgi.doe.gov/webinar-utilizing-long-read-sequencing-metagenomics-dna-modification-detection/
https://jgi.doe.gov/webinar-utilizing-long-read-sequencing-metagenomics-dna-modification-detection/screencap-pacbio-webinar_-metagenome-program/
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https://jgi.doe.gov/what-happens-underground-influences-global-nutrient-cycles-ficus/w-gerlach-ficus-fy20_soap_lake_credit-john-glassco/
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https://jgi.doe.gov/when-the-blob-made-it-hotter-under-the-water/podaac_blob_colordata_sst2015/
https://jgi.doe.gov/white-rot-fungal-genomics-analysis-on-ecoseed/
https://jgi.doe.gov/white-rot-fungal-genomics-for-biopulping-in-biomass-magazine/
https://jgi.doe.gov/why-conduct-the-comparative-analysis-of-shipworm-microbiome/
https://jgi.doe.gov/why-continue-the-geba-project/
https://jgi.doe.gov/why-generate-reference-genomes-for-marine-ecosystem-research/
https://jgi.doe.gov/why-improve-the-pipeline-for-comparative-transcriptomics/
https://jgi.doe.gov/why-resequence-actinobacillus-succinogenes/
https://jgi.doe.gov/why-sequence-a-benzene-degrading-methanogenic-consortium/
https://jgi.doe.gov/why-sequence-a-biogas-producing-microbial-community/
https://jgi.doe.gov/why-sequence-a-butterfly/
https://jgi.doe.gov/why-sequence-a-butterfly/butterflywings/
https://jgi.doe.gov/why-sequence-a-cereal-grain-pathogen/
https://jgi.doe.gov/why-sequence-a-comparison-of-novel-methanogens-from-peatlands-and-bioreactors/
https://jgi.doe.gov/why-sequence-a-dechlorinating-community/
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https://jgi.doe.gov/why-sequence-a-family-of-fungal-pathogens-and-extremophiles/
https://jgi.doe.gov/why-sequence-a-frankia-species-that-is-an-obligate-symbiont/
https://jgi.doe.gov/why-sequence-a-frankia-species-that-is-an-obligate-symbiont/frankiaceae/
https://jgi.doe.gov/why-sequence-a-frog-killing-fungus/
https://jgi.doe.gov/why-sequence-a-group-4-verrucomicrobium/
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https://jgi.doe.gov/why-sequence-a-highly-efficient-highly-stable-reductive-dechlorinating-bioreactor/bioreactor/
https://jgi.doe.gov/why-sequence-a-korarchaeota-community/
https://jgi.doe.gov/why-sequence-a-korarchaeota-community/korarchaeota/
https://jgi.doe.gov/why-sequence-a-liverwort/
https://jgi.doe.gov/why-sequence-a-metagenomic-survey-of-hydrothermal-vents/
https://jgi.doe.gov/why-sequence-a-methane-oxidizing-archaeon/
https://jgi.doe.gov/why-sequence-a-near-shore-anoxic-basin/
https://jgi.doe.gov/why-sequence-a-porcelain-crab/
https://jgi.doe.gov/why-sequence-a-porcelain-crab/porcelaincrab/
https://jgi.doe.gov/why-sequence-a-rhodocyclus-like-pao/
https://jgi.doe.gov/why-sequence-a-suite-of-fungal-decayers/
https://jgi.doe.gov/why-sequence-a-terephthalate-degrading-microbial-community/
https://jgi.doe.gov/why-sequence-a-thauera-species/
https://jgi.doe.gov/why-sequence-a-thauera-species/thauera/
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https://jgi.doe.gov/why-sequence-acetobacter-aceti-atcc-23746/
https://jgi.doe.gov/why-sequence-acetobacter-aceti-atcc-23746/acetobacter/
https://jgi.doe.gov/why-sequence-acidobacterium-species-from-arctic-tundra-soils/
https://jgi.doe.gov/why-sequence-actinobacteria/
https://jgi.doe.gov/why-sequence-actinobacteria/actinobacteria/
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https://jgi.doe.gov/why-sequence-actinotalea-fermentans/actinotalea/
https://jgi.doe.gov/why-sequence-agaricus-bisporus/
https://jgi.doe.gov/why-sequence-agaricus-bisporus/abisporus/
https://jgi.doe.gov/why-sequence-algae-from-acidic-waters/
https://jgi.doe.gov/why-sequence-alicycliphilus-denitrificans-strain-bc/
https://jgi.doe.gov/why-sequence-alicycliphilus-denitrificans-strain-bc/alicycliphilus/
https://jgi.doe.gov/why-sequence-alkaliphilic-sulfur-oxidizing-bacteria-for-sulfur-pollution-remediation/
https://jgi.doe.gov/why-sequence-allochromatium-vinosum/
https://jgi.doe.gov/why-sequence-ammonia-oxidizing-archaeal-enrichment-culture/
https://jgi.doe.gov/why-sequence-ammonia-oxidizing-archaeal-enrichment-culture/ammoniaoxidizing/
https://jgi.doe.gov/why-sequence-amphipod-crustaceans/
https://jgi.doe.gov/why-sequence-an-alaskan-soil/
https://jgi.doe.gov/why-sequence-an-atypical-frankia-isolate-and-non-frankia-actinobacteria-from-actinorhizal-plants/
https://jgi.doe.gov/why-sequence-anammox-bacteria/
https://jgi.doe.gov/why-sequence-anammox-bacteria/anammox/
https://jgi.doe.gov/why-sequence-antarctic-marine-bacterioplankton/
https://jgi.doe.gov/why-sequence-aquilegia-formosa/
https://jgi.doe.gov/why-sequence-aquilegia-formosa/aquilegia/
https://jgi.doe.gov/why-sequence-arabidopsis-lyrata-and-capsella-rubella/
https://jgi.doe.gov/why-sequence-arabidopsis-lyrata-and-capsella-rubella/capsella_thaliana/
https://jgi.doe.gov/why-sequence-arabidopsis-lyrata-and-capsella-rubella/lyrata/
https://jgi.doe.gov/why-sequence-archaea-in-a-terrestrial-subsurface-aquifer/
https://jgi.doe.gov/why-sequence-archaeal-transcriptomes/
https://jgi.doe.gov/why-sequence-archaeal-transcriptomes/archaeal/
https://jgi.doe.gov/why-sequence-arctic-algae-for-alternative-energy/
https://jgi.doe.gov/why-sequence-bacillus-cereus-strains/
https://jgi.doe.gov/why-sequence-bacillus-coagulans/
https://jgi.doe.gov/why-sequence-bacteria-from-lake-washington-sediments/
https://jgi.doe.gov/why-sequence-bacteria-from-lake-washington/
https://jgi.doe.gov/why-sequence-bacteria-from-stromatolites/
https://jgi.doe.gov/why-sequence-bacteria-in-deep-sea-hydrothermal-vents/
https://jgi.doe.gov/why-sequence-bacteria-that-reduce-sulfur-compounds/
https://jgi.doe.gov/why-sequence-bacteroidetes/
https://jgi.doe.gov/why-sequence-bacteroidetes/bacteroidete/
https://jgi.doe.gov/why-sequence-barley/
https://jgi.doe.gov/why-sequence-beggiatoa-alba/
https://jgi.doe.gov/why-sequence-beijerinckiaceae/
https://jgi.doe.gov/why-sequence-biogeochemically-important-bacteria/
https://jgi.doe.gov/why-sequence-biogeochemically-important-bacteria/biogeo/
https://jgi.doe.gov/why-sequence-boechera-holboellii/
https://jgi.doe.gov/why-sequence-boechera-holboellii/boechera/
https://jgi.doe.gov/why-sequence-botryococcus-braunii-2/
https://jgi.doe.gov/why-sequence-botryococcus-braunii/
https://jgi.doe.gov/why-sequence-botryococcus-braunii/botryococcus/
https://jgi.doe.gov/why-sequence-brachypodium-distachyon/
https://jgi.doe.gov/why-sequence-brachypodium-distachyon/brachypodium/
https://jgi.doe.gov/why-sequence-brachypodium/
https://jgi.doe.gov/why-sequence-brachypodium/brachypodium-2/
https://jgi.doe.gov/why-sequence-burkholderia/
https://jgi.doe.gov/why-sequence-burkholderia/burkholderia-biofilms/
https://jgi.doe.gov/why-sequence-campanulales-chloroplasts/
https://jgi.doe.gov/why-sequence-capitella-capitata/
https://jgi.doe.gov/why-sequence-carbon-monoxide-oxidizing-thermophiles/
https://jgi.doe.gov/why-sequence-cassava/
https://jgi.doe.gov/why-sequence-cassava/cassava/
https://jgi.doe.gov/why-sequence-catfish/
https://jgi.doe.gov/why-sequence-cellulose-degrading-bacteria/
https://jgi.doe.gov/why-sequence-cellulose-degrading-fungus-amanita-thiersii/
https://jgi.doe.gov/why-sequence-cellulose-degrading-fungus-amanita-thiersii/athiersii/
https://jgi.doe.gov/why-sequence-census-of-fungal-biology/
https://jgi.doe.gov/why-sequence-ceratodon-purpureus-moss/
https://jgi.doe.gov/why-sequence-ceratodon-purpureus-moss/ceratodon/
https://jgi.doe.gov/why-sequence-ceriporiopsis-subvermispora/
https://jgi.doe.gov/why-sequence-ceriporiopsis-subvermispora/csubvermispora_blue/
https://jgi.doe.gov/why-sequence-chestnut-blight-fungus/
https://jgi.doe.gov/why-sequence-chlamydomonas-and-chlorella/
https://jgi.doe.gov/why-sequence-chlamydomonas-and-chlorella/chlamy-chlorella/
https://jgi.doe.gov/why-sequence-chlamydomonas-and-volvox-transcriptomes/
https://jgi.doe.gov/why-sequence-chlamydomonas-and-volvox-transcriptomes/chlamy_bg/
https://jgi.doe.gov/why-sequence-chlamydomonas-and-volvox-transcriptomes/volvox-2/
https://jgi.doe.gov/why-sequence-chlamydomonas-by-new-methods/
https://jgi.doe.gov/why-sequence-cichlid-fish/
https://jgi.doe.gov/why-sequence-cichlid-fish/twocichlids/
https://jgi.doe.gov/why-sequence-comparative-analysis-of-aspergilli-species/
https://jgi.doe.gov/why-sequence-conifers/
https://jgi.doe.gov/why-sequence-contaminated-groundwater/
https://jgi.doe.gov/why-sequence-cotton/
https://jgi.doe.gov/why-sequence-cotton/cotton/
https://jgi.doe.gov/why-sequence-crenarchaeota/
https://jgi.doe.gov/why-sequence-crenothrix-polyspora/
https://jgi.doe.gov/why-sequence-crenothrix-polyspora/crenothrix/
https://jgi.doe.gov/why-sequence-cronartium-quercuum-f-sp-fusiforme/
https://jgi.doe.gov/why-sequence-cronartium-quercuum-f-sp-fusiforme/cronartium/
https://jgi.doe.gov/why-sequence-curvularia-protuberata/
https://jgi.doe.gov/why-sequence-curvularia-protuberata/curvularia/
https://jgi.doe.gov/why-sequence-cyanobacteria-synechocystis-transcriptome/
https://jgi.doe.gov/why-sequence-cyanobacteria-synechocystis-transcriptome/dgrandis-2/
https://jgi.doe.gov/why-sequence-cyanobacteria-synechocystis-transcriptome/synechocystis/
https://jgi.doe.gov/why-sequence-cyanothece-strains/
https://jgi.doe.gov/why-sequence-cyanothece-strains/cyanothece/
https://jgi.doe.gov/why-sequence-cycloclasticus-pugetii-a-pah-degrading-bacterium/
https://jgi.doe.gov/why-sequence-cycloclasticus-pugetii-a-pah-degrading-bacterium/cpugetii/
https://jgi.doe.gov/why-sequence-dehalobacter-containing-dechlorinating-community/
https://jgi.doe.gov/why-sequence-dehalobacter-containing-dechlorinating-community/dehalobacter/
https://jgi.doe.gov/why-sequence-dehalogenimonas-lykanthrorepellens/
https://jgi.doe.gov/why-sequence-dehalogenimonas-lykanthrorepellens/dlykanthrorepellens/
https://jgi.doe.gov/why-sequence-dekkera-brettanomyces-bruxellensis/
https://jgi.doe.gov/why-sequence-dekkera-brettanomyces-bruxellensis/dekkera/
https://jgi.doe.gov/why-sequence-dendroctonus-frontalis/
https://jgi.doe.gov/why-sequence-dendroctonus-frontalis/dfrontalis/
https://jgi.doe.gov/why-sequence-denitrifying-bacterial-isolates/
https://jgi.doe.gov/why-sequence-denitrifying-bacterial-isolates/denitrifying/
https://jgi.doe.gov/why-sequence-desert-locust-schistocerca-gregaria/
https://jgi.doe.gov/why-sequence-desert-locust-schistocerca-gregaria/desert-locust-schistocerca-gregaria-2/
https://jgi.doe.gov/why-sequence-desulfotomaculum-species/
https://jgi.doe.gov/why-sequence-desulfotomaculum-species/wastewater/
https://jgi.doe.gov/why-sequence-desulfurococcus-species/
https://jgi.doe.gov/why-sequence-desulfurococcus-species/desulfurococcus/
https://jgi.doe.gov/why-sequence-diatom-transcriptome-and-genome/
https://jgi.doe.gov/why-sequence-diatom-transcriptome-and-genome/thalassiosira-pseudonanana/
https://jgi.doe.gov/why-sequence-dipterans/
https://jgi.doe.gov/why-sequence-dothideomycetes-plant-pathogens/
https://jgi.doe.gov/why-sequence-dothideomycetes-plant-pathogens/dothideomycetes/
https://jgi.doe.gov/why-sequence-escherichia-coli-mg1655/
https://jgi.doe.gov/why-sequence-escherichia-coli-mg1655/echolimg1655/
https://jgi.doe.gov/why-sequence-ethene-and-vinyl-chloride-oxidizing-mycobacterium-strains/
https://jgi.doe.gov/why-sequence-ethene-and-vinyl-chloride-oxidizing-mycobacterium-strains/mycobacterium/
https://jgi.doe.gov/why-sequence-eukaryotic-microbial-metatranscriptome-of-blue-grama-grass-rhizosphere-soils/
https://jgi.doe.gov/why-sequence-eukaryotic-microbial-metatranscriptome-of-blue-grama-grass-rhizosphere-soils/csp2010-powell/
https://jgi.doe.gov/why-sequence-euryarchaeota-in-acid-mine-drainage/
https://jgi.doe.gov/why-sequence-extreme-microbial-habitats-from-yellowstone-national-park/
https://jgi.doe.gov/why-sequence-five-frankia-strains/
https://jgi.doe.gov/why-sequence-five-verrucomicrobia/
https://jgi.doe.gov/why-sequence-for-reverse-metabolic-engineering-of-escherichia-coli/
https://jgi.doe.gov/why-sequence-for-reverse-metabolic-engineering-of-escherichia-coli/ecoli/
https://jgi.doe.gov/why-sequence-four-labyrinthulomycete-species/
https://jgi.doe.gov/why-sequence-four-labyrinthulomycete-species/labyrinthulomycete/
https://jgi.doe.gov/why-sequence-foxtail-millet/
https://jgi.doe.gov/why-sequence-foxtail-millet/foxtailmillet/
https://jgi.doe.gov/why-sequence-fragilariopsis-cylindrus/
https://jgi.doe.gov/why-sequence-fragilariopsis-cylindrus/fragilariopsis/
https://jgi.doe.gov/why-sequence-free-living-and-endosymbiotic-polynucleobacter-species/
https://jgi.doe.gov/why-sequence-free-living-and-endosymbiotic-polynucleobacter-species/polynucleobacter-endosymbio/
https://jgi.doe.gov/why-sequence-freshwater-actinobacteria-belonging-to-the-aci-lineage/
https://jgi.doe.gov/why-sequence-freshwater-actinobacteria-belonging-to-the-aci-lineage/aci_actinobacteria/
https://jgi.doe.gov/why-sequence-freshwater-iron-oxidizing-bacteria/
https://jgi.doe.gov/why-sequence-freshwater-manganese-depositing-%ce%b2-proteobacterium-siderocapsaceae/
https://jgi.doe.gov/why-sequence-functional-metagenomics-of-methane-and-nitrogen-cycles-in-freshwater-lakes/
https://jgi.doe.gov/why-sequence-fungal-pathogen-cochliobolus-sativus/
https://jgi.doe.gov/why-sequence-fungal-pathogen-cochliobolus-sativus/csativus/
https://jgi.doe.gov/why-sequence-genome-closure-of-lignocellulosic-degrader-verrucomicrobium-sp-strain-tav2/
https://jgi.doe.gov/why-sequence-genomic-survey-of-haloarchaeal-genomes/
https://jgi.doe.gov/why-sequence-genomic-survey-of-haloarchaeal-genomes/haloarchaeal/
https://jgi.doe.gov/why-sequence-great-boiling-spring-sediment-and-water-microbial-communities/
https://jgi.doe.gov/why-sequence-great-salt-lake/
https://jgi.doe.gov/why-sequence-great-salt-lake/saltlake/
https://jgi.doe.gov/why-sequence-guillardia-theta-and-bigelowiella-natans/
https://jgi.doe.gov/why-sequence-guillardia-theta-and-bigelowiella-natans/guillardia/
https://jgi.doe.gov/why-sequence-haloalkaliphilic-chemolithoautotrophic-thioalkalivibrio-bacteria/
https://jgi.doe.gov/why-sequence-haloalkaliphilic-chemolithoautotrophic-thioalkalivibrio-bacteria/basic-rgb/
https://jgi.doe.gov/why-sequence-halorespiring-firmicutes/
https://jgi.doe.gov/why-sequence-halorespiring-firmicutes/a/
https://jgi.doe.gov/why-sequence-halothiobacillus-neapolitanus-and-thiomonas-intermedia/
https://jgi.doe.gov/why-sequence-hansenula-polymorpha/
https://jgi.doe.gov/why-sequence-heterobasidion-annosum/
https://jgi.doe.gov/why-sequence-hoatzin-crop-microbiome/
https://jgi.doe.gov/why-sequence-hoatzin-crop-microbiome/hoatzin/
https://jgi.doe.gov/why-sequence-hypersaline-microbial-mats/
https://jgi.doe.gov/why-sequence-hyperthermophilic-archaea/
https://jgi.doe.gov/why-sequence-inbred-brachypodium-lines/
https://jgi.doe.gov/why-sequence-karenia-brevis/
https://jgi.doe.gov/why-sequence-lactobacillus-reuteri/
https://jgi.doe.gov/why-sequence-lake-vostok-accretion-ice/
https://jgi.doe.gov/why-sequence-lake-vostok-accretion-ice/lakevostok/
https://jgi.doe.gov/why-sequence-lignocellulolytic-microbes-from-cow-rumen/
https://jgi.doe.gov/why-sequence-lignocellulolytic-microbes-from-cow-rumen/lignocellulolytic-enzyme/
https://jgi.doe.gov/why-sequence-loblolly-pine-bacs/
https://jgi.doe.gov/why-sequence-loblolly-pine-bacs/pine/
https://jgi.doe.gov/why-sequence-marine-bacteria-dinoflagellate-interactions/
https://jgi.doe.gov/why-sequence-marine-bacterial-genus-marinomonas/
https://jgi.doe.gov/why-sequence-marine-bacterial-genus-marinomonas/marinomonas/
https://jgi.doe.gov/why-sequence-marine-roseobacter-rca-cluster-bacterial-strain-le17/
https://jgi.doe.gov/why-sequence-marine-roseobacter-rca-cluster-bacterial-strain-le17/roseobacter/
https://jgi.doe.gov/why-sequence-marine-sediments-from-high-latitude-regions/
https://jgi.doe.gov/why-sequence-marinobacter-aquaeolei/
https://jgi.doe.gov/why-sequence-mesorhizobium-ciceri-by-bisserulae/
https://jgi.doe.gov/why-sequence-mesorhizobium-ciceri-by-bisserulae/biserrulae/
https://jgi.doe.gov/why-sequence-metagenome-function-of-the-earthworm-egg-capsule-bacterial-community/
https://jgi.doe.gov/why-sequence-metagenome-function-of-the-earthworm-egg-capsule-bacterial-community/earthworm/
https://jgi.doe.gov/why-sequence-metagenomic-approach-to-managed-wetland-carbon-farming/
https://jgi.doe.gov/why-sequence-metagenomics-in-freshwater-lakes/
https://jgi.doe.gov/why-sequence-metagenomics-of-uncultured-marine-eukaryotes/
https://jgi.doe.gov/why-sequence-metatranscriptomic-analysis-of-bacterial-algal-interactions/
https://jgi.doe.gov/why-sequence-metatranscriptomic-analysis-of-bacterial-algal-interactions/csp2010-n-ward/
https://jgi.doe.gov/why-sequence-methanomicrococcus-blatticola/
https://jgi.doe.gov/why-sequence-methanomicrococcus-blatticola/methanomicro/
https://jgi.doe.gov/why-sequence-methylotenera-species/
https://jgi.doe.gov/why-sequence-methylotenera-species/methylotenera/
https://jgi.doe.gov/why-sequence-microbes-in-a-termites-gut/
https://jgi.doe.gov/why-sequence-microbes-in-delaware-coastal-waters/
https://jgi.doe.gov/why-sequence-microbes-integral-to-the-cycling-of-sulfur-and-iron/
https://jgi.doe.gov/why-sequence-microbial-communities-from-a-uranium-contaminated-site/
https://jgi.doe.gov/why-sequence-microbial-communities-from-a-uranium-contaminated-site/uranium/
https://jgi.doe.gov/why-sequence-microbial-communities-in-expanding-dead-zones/
https://jgi.doe.gov/why-sequence-microbial-diversity-of-etoliko-lagoon/
https://jgi.doe.gov/why-sequence-microbial-symbionts-of-new-zealands-endemic-wood-degrading-insects/
https://jgi.doe.gov/why-sequence-microbial-symbionts-of-new-zealands-endemic-wood-degrading-insects/nz-wood-degraders/
https://jgi.doe.gov/why-sequence-modern-freshwater-microbialites/
https://jgi.doe.gov/why-sequence-modern-freshwater-microbialites/photograph-by-mya-breitbart/
https://jgi.doe.gov/why-sequence-mycosphaerella-fijiensis/
https://jgi.doe.gov/why-sequence-mycosphaerella/
https://jgi.doe.gov/why-sequence-natrialba-magadii/
https://jgi.doe.gov/why-sequence-neurospora/
https://jgi.doe.gov/why-sequence-nitrosomas-cryotolerans-and-nitrosospira-birensis-for-comparative-phylogenomics-of-ammonia-oxidizing-bacteria/
https://jgi.doe.gov/why-sequence-nitrosomonas/
https://jgi.doe.gov/why-sequence-nostoc-linckia-from-evolution-canyon/
https://jgi.doe.gov/why-sequence-nostoc-linckia-from-evolution-canyon/nostoc/
https://jgi.doe.gov/why-sequence-novel-acetogenic-bacterial-isolates-from-dechlorinating-microbial-mixed-cultures-2/
https://jgi.doe.gov/why-sequence-novel-acetogenic-bacterial-isolates-from-dechlorinating-microbial-mixed-cultures-2/acetogenic/
https://jgi.doe.gov/why-sequence-novel-acetogenic-bacterial-isolates-from-dechlorinating-microbial-mixed-cultures/
https://jgi.doe.gov/why-sequence-novel-acetogenic-bacterial-isolates-from-dechlorinating-microbial-mixed-cultures/ornl-frc/
https://jgi.doe.gov/why-sequence-novel-haloarchaea-from-deep-lake/
https://jgi.doe.gov/why-sequence-novel-haloarchaea-from-deep-lake/haloarchaea/
https://jgi.doe.gov/why-sequence-novel-subsurface-microbial-phylotypes/
https://jgi.doe.gov/why-sequence-novel-subsurface-microbial-phylotypes/phylotypes/
https://jgi.doe.gov/why-sequence-obligate-syntrophic-bacteria-capable-of-phthalate-isomer-compound-degradation-in-methanogenic-conditions/
https://jgi.doe.gov/why-sequence-olavius-algarvensis-symbionts/
https://jgi.doe.gov/why-sequence-orfrc-rahnella-sp-y9602/
https://jgi.doe.gov/why-sequence-organisms-in-the-foregut-of-the-tammar-wallaby/
https://jgi.doe.gov/why-sequence-ostreococcus-tauri/
https://jgi.doe.gov/why-sequence-ostreococcus-tauri/ostreococcus/
https://jgi.doe.gov/why-sequence-pah-degrading-burkholderia/
https://jgi.doe.gov/why-sequence-paralvinella-sulfincola-ests/
https://jgi.doe.gov/why-sequence-paxillus-involutus/
https://jgi.doe.gov/why-sequence-pce-dechlorinating-mixed-communities/
https://jgi.doe.gov/why-sequence-pce-dechlorinating-mixed-communities/dehalococcoides/
https://jgi.doe.gov/why-sequence-pedomicrobium-manganicum/
https://jgi.doe.gov/why-sequence-permafrost-soil-microbiota/
https://jgi.doe.gov/why-sequence-permafrost-soil-microbiota/permafrost/
https://jgi.doe.gov/why-sequence-peronosporomycetes/
https://jgi.doe.gov/why-sequence-phaeocystis-antarctica/
https://jgi.doe.gov/why-sequence-phaeocystis-antarctica/pantarctica/
https://jgi.doe.gov/why-sequence-phaeocystis-globosa/
https://jgi.doe.gov/why-sequence-phlebiopsis-gigantea/
https://jgi.doe.gov/why-sequence-phlebiopsis-gigantea/phlebiopsis/
https://jgi.doe.gov/why-sequence-phycomyces-blakesleeanus/
https://jgi.doe.gov/why-sequence-phycomyces-blakesleeanus/phycomyces1sm/
https://jgi.doe.gov/why-sequence-physcomitrella-patens/
https://jgi.doe.gov/why-sequence-physcomitrella-patens/physcomitrella/
https://jgi.doe.gov/why-sequence-phytophthora-capsici/
https://jgi.doe.gov/why-sequence-phytophthora-cinnamomi/
https://jgi.doe.gov/why-sequence-phytophthora-cinnamomi/phytophthora-cinnamomi/
https://jgi.doe.gov/why-sequence-piromyces/
https://jgi.doe.gov/why-sequence-pisolithus-tinctorius-and-pisolithus-microcarpus/
https://jgi.doe.gov/why-sequence-pisolithus-tinctorius-and-pisolithus-microcarpus/pisolithus/
https://jgi.doe.gov/why-sequence-plant-root-associated-fungi/
https://jgi.doe.gov/why-sequence-poplar-leaf-rust/
https://jgi.doe.gov/why-sequence-porphyra-umbilicalis/
https://jgi.doe.gov/why-sequence-porphyra-umbilicalis/ppurpurea/
https://jgi.doe.gov/why-sequence-postia-placenta/
https://jgi.doe.gov/why-sequence-postia-placenta/postia-3/
https://jgi.doe.gov/why-sequence-predatory-nanoflagellates/
https://jgi.doe.gov/why-sequence-predatory-nanoflagellates/wordenpredator/
https://jgi.doe.gov/why-sequence-prochlorococcus/
https://jgi.doe.gov/why-sequence-pseudonocardia-dioxanivorans/
https://jgi.doe.gov/why-sequence-psychrotolerant-acidithiobacillus-species/
https://jgi.doe.gov/why-sequence-psychrotolerant-acidithiobacillus-species/olympus-digital-camera-4/
https://jgi.doe.gov/why-sequence-purple-sulfur-bacteria/
https://jgi.doe.gov/why-sequence-purple-sulfur-bacteria/purple-sulfur-bacteria/
https://jgi.doe.gov/why-sequence-radiation-resistant-bacterium-deinococcus-grandis/
https://jgi.doe.gov/why-sequence-radiation-resistant-bacterium-deinococcus-grandis/dgrandis/
https://jgi.doe.gov/why-sequence-reef-building-corals-and-dinoflagellate-symbionts/
https://jgi.doe.gov/why-sequence-reef-building-corals-and-dinoflagellate-symbionts/coralalgal/
https://jgi.doe.gov/why-sequence-reniera/
https://jgi.doe.gov/why-sequence-reniera/reniera/
https://jgi.doe.gov/why-sequence-rhizobia-of-clover-peabean-and-lupin-microsymbionts/
https://jgi.doe.gov/why-sequence-rhizobium-leguminosarum/
https://jgi.doe.gov/why-sequence-rhizopogon-salebrosus/
https://jgi.doe.gov/why-sequence-rhizopogon-salebrosus/rsalebrosus/
https://jgi.doe.gov/why-sequence-rhodobacter-sphaeroides/
https://jgi.doe.gov/why-sequence-rhodopseudomonas-palustris-strain-dx-1/
https://jgi.doe.gov/why-sequence-root-colonizing-crenarchaeotes-and-their-community/
https://jgi.doe.gov/why-sequence-salinispora-species/
https://jgi.doe.gov/why-sequence-sar11-genome-evolution/
https://jgi.doe.gov/why-sequence-sar11-genome-evolution/sar11/
https://jgi.doe.gov/why-sequence-sea-squirt-cdna/
https://jgi.doe.gov/why-sequence-seed-plant-mitochondria/
https://jgi.doe.gov/why-sequence-selaginella-moellendorffii/
https://jgi.doe.gov/why-sequence-selaginella-moellendorffii/selaginella/
https://jgi.doe.gov/why-sequence-selenospirillum-indicus/
https://jgi.doe.gov/why-sequence-selenospirillum-indicus/sindicus/
https://jgi.doe.gov/why-sequence-seven-thermotogales/
https://jgi.doe.gov/why-sequence-shewanella-strains-role-of-population-microdiversity-in-adaptation-to-environmental-redox-gradients/
https://jgi.doe.gov/why-sequence-shewanella-strains-role-of-population-microdiversity-in-adaptation-to-environmental-redox-gradients/chiemsee/
https://jgi.doe.gov/why-sequence-sinorhizobium-medicae/
https://jgi.doe.gov/why-sequence-sinorhizobium-meliloti-strains-ak83-and-bl225c/
https://jgi.doe.gov/why-sequence-sinorhizobium-meliloti-strains-ak83-and-bl225c/smeliloti/
https://jgi.doe.gov/why-sequence-six-archaea/
https://jgi.doe.gov/why-sequence-soda-lake-and-soil-metagenomics/
https://jgi.doe.gov/why-sequence-soil-bacterial-communities/
https://jgi.doe.gov/why-sequence-sorghum-2/
https://jgi.doe.gov/why-sequence-sorghum/
https://jgi.doe.gov/why-sequence-sorghum/sorghum/
https://jgi.doe.gov/why-sequence-sphaerochaeta-pleomorpha-and-sphaerochaeta-globus/
https://jgi.doe.gov/why-sequence-sphaerochaeta-pleomorpha-and-sphaerochaeta-globus/sphaerochaeta/
https://jgi.doe.gov/why-sequence-sphingobium-chlorophenolicum/
https://jgi.doe.gov/why-sequence-sphingobium-chlorophenolicum/schlorophenolicum/
https://jgi.doe.gov/why-sequence-spironucleus-vortens-and-naegleria-gruberi/
https://jgi.doe.gov/why-sequence-spironucleus-vortens-and-naegleria-gruberi/svortens/
https://jgi.doe.gov/why-sequence-sporobolomyces-roseus/
https://jgi.doe.gov/why-sequence-stalked-bacteria/
https://jgi.doe.gov/why-sequence-staphylococcus-aureus-visa-strains/
https://jgi.doe.gov/why-sequence-staphylococcus-aureus-visa-strains/staphvisa/
https://jgi.doe.gov/why-sequence-starkeya-novella/
https://jgi.doe.gov/why-sequence-starkeya-novella/snovella/
https://jgi.doe.gov/why-sequence-streptomyces-viridosporus-atcc-39115-and-streptomyces-setonii-atcc-39116/
https://jgi.doe.gov/why-sequence-streptomyces-viridosporus-atcc-39115-and-streptomyces-setonii-atcc-39116/viridosporus-setonii/
https://jgi.doe.gov/why-sequence-subarctic-pacific-ocean/
https://jgi.doe.gov/why-sequence-subarctic-pacific-ocean/subarctic/
https://jgi.doe.gov/why-sequence-sulfur-cycling-in-the-frasassi-aquifer/
https://jgi.doe.gov/why-sequence-sulfur-oxidizing-bacteria/
https://jgi.doe.gov/why-sequence-sulfur-oxidizing-bacteria/sulfurox/
https://jgi.doe.gov/why-sequence-switchgrass/
https://jgi.doe.gov/why-sequence-switchgrass/switchgrass/
https://jgi.doe.gov/why-sequence-synechococcus-cyanobacterial-isolates/
https://jgi.doe.gov/why-sequence-synechococcus-cyanobacterial-isolates/csp2010-ward/
https://jgi.doe.gov/why-sequence-targeted-gene-study-in-closely-related-fungi/
https://jgi.doe.gov/why-sequence-tetrahymena-thermophila/
https://jgi.doe.gov/why-sequence-tetrahymena-thermophila/tthermophila/
https://jgi.doe.gov/why-sequence-thalassiosira-rotula/
https://jgi.doe.gov/why-sequence-thalassiosira-rotula/trotula/
https://jgi.doe.gov/why-sequence-the-california-mussel/
https://jgi.doe.gov/why-sequence-the-california-mussel/calmussel/
https://jgi.doe.gov/why-sequence-the-deep-sea-tubeworm-riftia-pachyptila/
https://jgi.doe.gov/why-sequence-the-deep-sea-tubeworm-riftia-pachyptila/tubeworm/
https://jgi.doe.gov/why-sequence-the-eucalyptus-tree/
https://jgi.doe.gov/why-sequence-the-eucalyptus-tree/eucalyptus/
https://jgi.doe.gov/why-sequence-the-greater-duckweed/
https://jgi.doe.gov/why-sequence-the-greater-duckweed/duckweed/
https://jgi.doe.gov/why-sequence-the-hydractinia-allorecognition-gene-complex/
https://jgi.doe.gov/why-sequence-the-leech/
https://jgi.doe.gov/why-sequence-the-leech/leech/
https://jgi.doe.gov/why-sequence-the-limpet/
https://jgi.doe.gov/why-sequence-the-low-light-strain-of-ostreococcus/
https://jgi.doe.gov/why-sequence-the-mating-loci-of-chlamydomonas-reinhardtii-and-volvox-carteri/
https://jgi.doe.gov/why-sequence-the-microbial-community-from-a-wastewater-treatment-plant/
https://jgi.doe.gov/why-sequence-the-microbial-community-from-a-wastewater-treatment-plant/watertreatment/
https://jgi.doe.gov/why-sequence-the-monkey-flower/
https://jgi.doe.gov/why-sequence-the-monkey-flower/lowres_mimulus1-2/
https://jgi.doe.gov/why-sequence-the-oyster-mushroom/
https://jgi.doe.gov/why-sequence-the-oyster-mushroom/pleurotus/
https://jgi.doe.gov/why-sequence-the-pompeii-worm/
https://jgi.doe.gov/why-sequence-the-pompeii-worm/apompejana/
https://jgi.doe.gov/why-sequence-the-shipworm-microbes/
https://jgi.doe.gov/why-sequence-the-simplest-cotton-genome/
https://jgi.doe.gov/why-sequence-the-soybean-cyst-nematode/
https://jgi.doe.gov/why-sequence-the-soybean-cyst-nematode/hglycines/
https://jgi.doe.gov/why-sequence-the-symbiont-of-a-symbiont/
https://jgi.doe.gov/why-sequence-the-symbiont-of-a-symbiont/symbiontsymbiont/
https://jgi.doe.gov/why-sequence-the-two-spotted-spider-mite/
https://jgi.doe.gov/why-sequence-the-two-spotted-spider-mite/spidermite/
https://jgi.doe.gov/why-sequence-thellungiella-halophila/
https://jgi.doe.gov/why-sequence-thermoacidophiles-of-deep-sea-hydrothermal-vents/
https://jgi.doe.gov/why-sequence-thermoacidophiles-of-deep-sea-hydrothermal-vents/thermoacidophiles/
https://jgi.doe.gov/why-sequence-thermolithobacter-ferrireducens/
https://jgi.doe.gov/why-sequence-thermophiles-in-great-basin-hot-springs/
https://jgi.doe.gov/why-sequence-thermophiles-in-great-basin-hot-springs/thermophiles/
https://jgi.doe.gov/why-sequence-thermophilic-methanoarchaea/
https://jgi.doe.gov/why-sequence-thermotogales-strain-mesg1-ag-4-1/
https://jgi.doe.gov/why-sequence-thermotogales-strain-mesg1-ag-4-1/thermotogales/
https://jgi.doe.gov/why-sequence-thermovibrio-ammonificans/
https://jgi.doe.gov/why-sequence-thermovibrio-ammonificans/tammonificans/
https://jgi.doe.gov/why-sequence-three-acidovorax-species/
https://jgi.doe.gov/why-sequence-topsoil-metagenomics-in-arid-lands/
https://jgi.doe.gov/why-sequence-trichoderma-reesei-mutant-strains/
https://jgi.doe.gov/why-sequence-trichoderma-virens/
https://jgi.doe.gov/why-sequence-trichoderma-virens/trichodermacoiling/
https://jgi.doe.gov/why-sequence-trichoplax/
https://jgi.doe.gov/why-sequence-trichoplax/trichoplax/
https://jgi.doe.gov/why-sequence-triphysaria/
https://jgi.doe.gov/why-sequence-triphysaria/haustorium/
https://jgi.doe.gov/why-sequence-two-caulobacter-species/
https://jgi.doe.gov/why-sequence-two-micromonosporas/
https://jgi.doe.gov/why-sequence-two-micromonosporas/micromonosporas/
https://jgi.doe.gov/why-sequence-two-novel-zetaproteobacteria-from-the-ocean/
https://jgi.doe.gov/why-sequence-two-strains-of-cyanobacteria-for-biological-remediation/
https://jgi.doe.gov/why-sequence-two-strains-of-cyanobacteria-for-biological-remediation/slide-1-2/
https://jgi.doe.gov/why-sequence-type-i-accumulibacter/
https://jgi.doe.gov/why-sequence-type-i-accumulibacter/aphosphatis/
https://jgi.doe.gov/why-sequence-type-i-and-ii-methanotrophs/
https://jgi.doe.gov/why-sequence-variovorax-paradoxus/
https://jgi.doe.gov/why-sequence-vibrio-fischeri/
https://jgi.doe.gov/why-sequence-vibrio-fischeri/fischeri/
https://jgi.doe.gov/why-sequence-viral-communities-in-the-mediterranean-sea/
https://jgi.doe.gov/why-sequence-viral-communities-in-the-mediterranean-sea/mediterranean-viral-communities/
https://jgi.doe.gov/why-sequence-viruses-that-infect-freshwater-cyanobacteria/
https://jgi.doe.gov/why-sequence-xanthoria-parietina/
https://jgi.doe.gov/why-sequence-xanthoria-parietina/xparietina/
https://jgi.doe.gov/why-sequence-xylan-degraders/
https://jgi.doe.gov/why-sequence-xylan-degraders/xylan-degraders/
https://jgi.doe.gov/why-sequence-yeast-like-fungus-a-pullulans/
https://jgi.doe.gov/why-sequence-yeasts-with-biotechnology-applications/
https://jgi.doe.gov/why-sequence-yellowstones-microbial-mat-communities/
https://jgi.doe.gov/why-sequence-zostera-marina-seagrass/
https://jgi.doe.gov/why-sequence-zostera-marina-seagrass/zmarina/
https://jgi.doe.gov/why-sequence-zymomonas-mobilis-strains/
https://jgi.doe.gov/why-sequence-zymomonas-mobilis-strains/zmobilis-2/
https://jgi.doe.gov/why-sequence-zymomonas-mobilis-transcriptomes-and-resequencing-z-mobilis-industrial-strain-zm4/
https://jgi.doe.gov/why-sequence-zymomonas-mobilis-transcriptomes-and-resequencing-z-mobilis-industrial-strain-zm4/zmobilis/
https://jgi.doe.gov/why-single-cell-genome-sequencing-of-mesopelagic-bacterioplankton/
https://jgi.doe.gov/why-single-cell-genome-sequencing-of-mesopelagic-bacterioplankton/mesopelagic-bacterioplankton/
https://jgi.doe.gov/xenopus-frog-genome-project-on-cbc/
https://jgi.doe.gov/xylose-fermenting-yeast-project-in-ethanol-producer/
https://jgi.doe.gov/year-in-review-jgi-2018-progress-report-available/
https://jgi.doe.gov/yeast-formations-got-started/
https://jgi.doe.gov/yeast-formations-got-started/cneoformans-ppat-v06-i06-g001/
https://jgi.doe.gov/yellowstone-hot-springs-a-hotbed-of-microbial-life/
https://jgi.doe.gov/yellowstone-hot-springs-a-hotbed-of-microbial-life/calcitespring-inskeep/
https://jgi.doe.gov/yellowstone-hot-springs-a-hotbed-of-microbial-life/fairygeyser-inskeep/