Genomic properties of Marine Group A bacteria indicate a role in the marine sulfur cycle.
about
Seasonal and interannual variability of the marine bacterioplankton community throughout the water column over ten yearsComparative Transcriptomic Approaches Exploring Contamination Stress Tolerance in Salix sp. Reveal the Importance for a Metaorganismal de Novo Assembly Approach for Nonmodel PlantsPolymetallic nodules, sediments, and deep waters in the equatorial North Pacific exhibit highly diverse and distinct bacterial, archaeal, and microeukaryotic communities.A geographically-diverse collection of 418 human gut microbiome pathway genome databases.Cutting through the smoke: the diversity of microorganisms in deep-sea hydrothermal plumesComparative analysis of functional metagenomic annotation and the mappability of short reads.Hadal biosphere: insight into the microbial ecosystem in the deepest ocean on Earth.Bacterial Diversity Associated with Cinachyra cavernosa and Haliclona pigmentifera, Cohabiting Sponges in the Coral Reef Ecosystem of Gulf of Mannar, Southeast Coast of India.Transcriptomic evidence for microbial sulfur cycling in the eastern tropical North Pacific oxygen minimum zone.Cross-depth analysis of marine bacterial networks suggests downward propagation of temporal changes.Changing composition of microbial communities indicates seepage fluid difference of the Thuwal Seeps in the Red Sea.Standard filtration practices may significantly distort planktonic microbial diversity estimatesCharacterization of microbial associations with methanotrophic archaea and sulfate-reducing bacteria through statistical comparison of nested Magneto-FISH enrichments.Single-cell genomics-based analysis of virus-host interactions in marine surface bacterioplanktonExpanding the World of Marine Bacterial and Archaeal Clades.Size-fraction partitioning of community gene transcription and nitrogen metabolism in a marine oxygen minimum zone.Diversification and niche adaptations of Nitrospina-like bacteria in the polyextreme interfaces of Red Sea brines.Seasonal Succession of Free-Living Bacterial Communities in Coastal Waters of the Western Antarctic Peninsula.Hypersaline sapropels act as hotspots for microbial dark matter.Metabolic potential and in situ activity of marine Marinimicrobia bacteria in an anoxic water column.Marine archaeal dynamics and interactions with the microbial community over 5 years from surface to seafloor.Microbial impact on polysulfide dynamics in the environment.Microbial community diversity, structure and assembly across oxygen gradients in meromictic marine lakes, Palau.Metagenomic investigation of the geologically unique Hellenic Volcanic Arc reveals a distinctive ecosystem with unexpected physiology.Metabolic Roles of Uncultivated Bacterioplankton Lineages in the Northern Gulf of Mexico "Dead Zone".A compendium of multi-omic sequence information from the Saanich Inlet water column.Free-living chemoautotrophic and particle-attached heterotrophic prokaryotes dominate microbial assemblages along a pelagic redox gradient.Diverse Marinimicrobia bacteria may mediate coupled biogeochemical cycles along eco-thermodynamic gradients.Naphthalene biodegradation under oxygen-limiting conditions: community dynamics and the relevance of biofilm-forming capacity.Multiple colonist pools shape fiddler crab-associated bacterial communities.Diversity and community structure of marine microbes around the Benham Rise underwater plateau, northeastern Philippines.Parallel Evolution of Genome Streamlining and Cellular Bioenergetics across the Marine Radiation of a Bacterial Phylum
P2860
Q27322732-33C61FA4-039B-4BC2-A3FE-06FF0E42E7ADQ28603342-290D0414-F5F3-4F33-A081-6CEF6FF2E9B3Q30358698-2FA5C126-8165-4212-9547-5042065CCD0BQ33552496-E448A802-B6DD-4BC6-B60D-32703E82ED12Q33630147-A63DB83C-41B8-42D2-B451-6F93CE010824Q34078749-B46C350E-A9B7-4CA6-AA6A-928CADDFF079Q35212754-7F659D83-5A49-4D0E-BA63-25E3266361F6Q35566071-4BCFD7D3-5DCC-4E6F-A0A7-6E5FD541DEE1Q35591141-E9DA0641-C66B-4E85-8256-7073E995C514Q35635287-E8037D42-8FA2-4AFE-A965-6B4EA0C4AB6EQ35659087-D341AC38-950C-40DF-A2A9-F7602E892CD2Q35672093-5DD0033F-828D-491A-8C15-AEA0E2ED22B5Q35999188-E118930D-0F22-4AC5-87C6-0D7C5F0420E7Q36178838-A7E6164A-C8D3-4263-9F89-16C3118114E5Q36442589-3F3C6248-BB09-4051-B40F-1EFA6B6751DBQ36756402-EB44D8EF-FBAF-46AC-AE68-BE0AB18C26A9Q37268170-6635065C-B11C-4309-9E77-C305ABCD36BDQ37390011-B40349B6-272E-494D-938A-CE70B270C41BQ38429660-0311E4A9-E95A-4821-9A3A-814A10F03ECFQ38644039-97F0C703-99B6-42FF-BF5A-DB1F225C794CQ38668197-55F621AD-28B0-4619-8E25-D4591B1547D2Q38837057-0E0EBDB0-AAFB-4D9B-B2E9-AFCFD9916F25Q39676605-54A0B0E8-FBBF-497C-8C3A-8B2CE877CEFDQ40407890-F6BCB825-A22D-4BE7-B03D-B1AED325108EQ41179509-605FADD3-8C32-4A5F-AB6E-4025A29C2F08Q46216128-49B7E979-8E3C-489B-8422-412E228D550CQ46257299-769A78DA-23DE-4A9F-A4CB-84CFFCB5A229Q47124114-AED8D67E-C857-493A-95A7-8CB98FEAAA36Q47138836-66B888B3-C247-4727-8FF7-73EF2D0497B2Q49838384-7535637F-4E82-47B0-ACB5-F07B7249ED13Q55311422-25644A95-94F7-49A3-BAE1-97D7C9FE59E3Q58725893-6C022EAE-15FA-46EA-A66A-79298ABEE2D0
P2860
Genomic properties of Marine Group A bacteria indicate a role in the marine sulfur cycle.
description
2013 nî lūn-bûn
@nan
2013 թուականի Սեպտեմբերին հրատարակուած գիտական յօդուած
@hyw
2013 թվականի սեպտեմբերին հրատարակված գիտական հոդված
@hy
2013年の論文
@ja
2013年論文
@yue
2013年論文
@zh-hant
2013年論文
@zh-hk
2013年論文
@zh-mo
2013年論文
@zh-tw
2013年论文
@wuu
name
Genomic properties of Marine Group A bacteria indicate a role in the marine sulfur cycle.
@ast
Genomic properties of Marine Group A bacteria indicate a role in the marine sulfur cycle.
@en
type
label
Genomic properties of Marine Group A bacteria indicate a role in the marine sulfur cycle.
@ast
Genomic properties of Marine Group A bacteria indicate a role in the marine sulfur cycle.
@en
prefLabel
Genomic properties of Marine Group A bacteria indicate a role in the marine sulfur cycle.
@ast
Genomic properties of Marine Group A bacteria indicate a role in the marine sulfur cycle.
@en
P2093
P2860
P356
P1433
P1476
Genomic properties of Marine Group A bacteria indicate a role in the marine sulfur cycle.
@en
P2093
Jody J Wright
Keith Mewis
Kendra R Maas
Kishori M Konwar
Niels W Hanson
P2860
P2888
P304
P356
10.1038/ISMEJ.2013.152
P577
2013-09-12T00:00:00Z
P5875
P6179
1035056123