Nitrification expanded: discovery, physiology and genomics of a nitrite-oxidizing bacterium from the phylum Chloroflexi.
about
SAR11 bacteria linked to ocean anoxia and nitrogen loss.Ecological perspectives on microbes involved in N-cycling.Single cell genomic study of Dehalococcoidetes species from deep-sea sediments of the Peruvian Margin.The Genome of Nitrospina gracilis Illuminates the Metabolism and Evolution of the Major Marine Nitrite OxidizerNxrB encoding the beta subunit of nitrite oxidoreductase as functional and phylogenetic marker for nitrite-oxidizing Nitrospira.Improved isolation strategies allowed the phenotypic differentiation of two Nitrospira strains from widespread phylogenetic lineages.Complete nitrification by Nitrospira bacteria.Microbial diversity in a Venezuelan orthoquartzite cave is dominated by the Chloroflexi (Class Ktedonobacterales) and Thaumarchaeota Group I.1c.Niche differentiation of ammonia oxidizers and nitrite oxidizers in rice paddy soil.Community transcriptomic assembly reveals microbes that contribute to deep-sea carbon and nitrogen cycling.Disturbance and temporal partitioning of the activated sludge metacommunity.Development and application of primers for the class Dehalococcoidia (phylum Chloroflexi) enables deep insights into diversity and stratification of subgroups in the marine subsurface.Microbial community analysis of a full-scale DEMON bioreactor.Phylogenetically distinct phylotypes modulate nitrification in a paddy soil.Differential contributions of ammonia oxidizers and nitrite oxidizers to nitrification in four paddy soilsChanging bacterial profile of Sundarbans, the world heritage mangrove: impact of anthropogenic interventions.Effects of diurnal temperature variation on microbial community and petroleum hydrocarbon biodegradation in contaminated soils from a sub-Arctic site.Bacterial biogeography in the coastal waters of northern Zhejiang, East China Sea is highly controlled by spatially structured environmental gradients.A novel salt-tolerant chitobiosidase discovered by genetic screening of a metagenomic library derived from chitin-amended agricultural soil.Comparison of bacterial diversity in full scale anammox bioreactors operated under different conditions.MiDAS: the field guide to the microbes of activated sludge.Expanded metabolic versatility of ubiquitous nitrite-oxidizing bacteria from the genus NitrospiraQuantifying the Sensitivity of Soil Microbial Communities to Silver Sulfide Nanoparticles Using Metagenome Sequencing.A novel marine nitrite-oxidizing Nitrospira species from Dutch coastal North Sea water.Comparative Single-Cell Genomics of Chloroflexi from the Okinawa Trough Deep-Subsurface Biosphere.Diversification and niche adaptations of Nitrospina-like bacteria in the polyextreme interfaces of Red Sea brines.DNRA and Denitrification Coexist over a Broad Range of Acetate/N-NO3- Ratios, in a Chemostat Enrichment Culture.Regional variations in the diversity and predicted metabolic potential of benthic prokaryotes in coastal northern Zhejiang, East China Sea.Community genomic analyses constrain the distribution of metabolic traits across the Chloroflexi phylum and indicate roles in sediment carbon cycling.Nitrogen transformation under different dissolved oxygen levels by the anoxygenic phototrophic bacterium Marichromatium gracile.Bacterial indicator taxa in soils under different long-term agricultural management.Agricultural land usage transforms nitrifier population ecology.Metaproteomics of aquatic microbial communities in a deep and stratified estuary.Isolation of Nitrospira belonging to sublineage II from a wastewater treatment plant.Nitrospina-like bacteria are the main drivers of nitrite oxidation in the seasonal upwelling area of the Eastern South Pacific (Central Chile ∼36°S).Spatial Interaction of Archaeal Ammonia-Oxidizers and Nitrite-Oxidizing Bacteria in an Unfertilized Grassland SoilComparison of oxidation kinetics of nitrite-oxidizing bacteria: nitrite availability as a key factor in niche differentiationGenomics of a phototrophic nitrite oxidizer: insights into the evolution of photosynthesis and nitrification.Thermophilic biological nitrogen removal in industrial wastewater treatment.Growth of nitrite-oxidizing bacteria by aerobic hydrogen oxidation.
P2860
Q30363442-15C5E14E-EC2E-4193-A051-6B5A2AFC6ECDQ33697510-B4B722A2-C7B5-4BAD-BD05-383819D34D17Q34071972-81029F80-6915-4ABC-9D06-C81981BC76B6Q34329676-36741314-C331-42AA-A8AD-4CB15E64C595Q34377238-C17E0BBA-C356-4DD3-A1F6-02A62ADECEE6Q34466842-52FE76F2-680C-4A44-94CF-1F5B59D452CAQ34503171-E7942494-BB2B-4989-977F-20E6959077E4Q34574458-C346A3CD-C702-4019-B03A-B1040FC0F95BQ34600799-72BA039B-11E9-49F8-AB0C-27DE9A87B6ACQ34736440-3A6E7B97-C501-4BAB-BE16-6DEAEF226300Q35002704-374198E9-1B13-4AEA-9357-FBE52018D35FQ35180121-1F262276-70BC-4402-8466-289AC007910CQ35269388-24563EEB-1492-4FF1-84A8-3DB31133377EQ35366233-6FA4F31A-B17E-476C-9166-7C4C22AE63D7Q35535988-26036222-2670-41C0-BE9E-E7CF89750366Q35555975-A371ABCF-D3C2-4A6D-99AC-6831B435B676Q35586720-65B41FF0-72D1-4429-AE8F-2EF7E306AC2FQ35614456-82F472EB-C932-4AB1-892B-D0B297AB846BQ35652053-D6A6BFA9-FCE2-4219-8B37-F0A397958F9BQ35741799-D255F4EC-CC3E-4E87-B9DA-4A3914BBFB2CQ35789609-5CBD7D87-9129-49BC-91E1-00D44E60402FQ36056928-F9E4400B-00B0-4A9F-8408-863644111169Q36116993-A243D065-11B2-46C7-B014-78E045F2EA36Q36693806-E65EADE9-F585-4843-9AD1-AE7BD6D60633Q37121947-81FCB0F8-1F15-46C0-9DF8-272485893597Q37268170-DE7C44FD-AA5D-4058-966B-A69E723B2D00Q37433768-E2070214-9A55-4E7F-8107-6C4819F08661Q37472021-45A7E983-37BD-42A0-91D0-6590FC874B6CQ37677341-C7352CD6-7A15-4B8D-A60C-4FBB739E96B4Q38805735-82F98156-1E85-4EF5-B7FE-8A380E16C9CBQ40064374-DF8704A1-B44C-4971-9165-8D9ACFD40298Q40364832-D0CE5E08-DFED-4919-ADF6-64F4225976FEQ40681174-3308DD0D-A732-4271-A3B9-60A1414A073CQ41188456-35AA3FFC-C5D4-4B13-8483-24AB0BDD84A8Q41256818-B26EDFD5-7B62-41E1-A33F-E1D9C6E566FEQ41837185-5DC2FAB8-4531-48B0-B734-37780E59B587Q41987180-944E9708-B98B-43D7-843E-6A8F2893B1AAQ42699242-7A47AF4A-EBAE-4E06-82E9-976FE95FD909Q43018333-339B43DF-909F-454B-8775-AC40F8E8D73DQ44602896-7E95A55B-135D-46DB-A05E-EA4439B0EAF5
P2860
Nitrification expanded: discovery, physiology and genomics of a nitrite-oxidizing bacterium from the phylum Chloroflexi.
description
2012 nî lūn-bûn
@nan
2012 թուականի Յուլիսին հրատարակուած գիտական յօդուած
@hyw
2012 թվականի հուլիսին հրատարակված գիտական հոդված
@hy
2012年の論文
@ja
2012年論文
@yue
2012年論文
@zh-hant
2012年論文
@zh-hk
2012年論文
@zh-mo
2012年論文
@zh-tw
2012年论文
@wuu
name
Nitrification expanded: discov ...... m from the phylum Chloroflexi.
@ast
Nitrification expanded: discov ...... m from the phylum Chloroflexi.
@en
Nitrification expanded: discov ...... m from the phylum Chloroflexi.
@nl
type
label
Nitrification expanded: discov ...... m from the phylum Chloroflexi.
@ast
Nitrification expanded: discov ...... m from the phylum Chloroflexi.
@en
Nitrification expanded: discov ...... m from the phylum Chloroflexi.
@nl
prefLabel
Nitrification expanded: discov ...... m from the phylum Chloroflexi.
@ast
Nitrification expanded: discov ...... m from the phylum Chloroflexi.
@en
Nitrification expanded: discov ...... m from the phylum Chloroflexi.
@nl
P2093
P2860
P50
P356
P1433
P1476
Nitrification expanded: discov ...... m from the phylum Chloroflexi.
@en
P2093
Dana Vejmelkova
Dimitry Y Sorokin
Mark C M van Loosdrecht
Michael Wagner
Nadezhda A Kostrikina
Robbert Kleerebezem
P2860
P2888
P304
P356
10.1038/ISMEJ.2012.70
P50
P577
2012-07-05T00:00:00Z
P5875
P6179
1031496340