Tepidanaerobacter acetatoxydans sp. nov., an anaerobic, syntrophic acetate-oxidizing bacterium isolated from two ammonium-enriched mesophilic methanogenic processes.
about
Genome-guided analysis of physiological and morphological traits of the fermentative acetate oxidizer Thermacetogenium phaeumAnaerobic thermophilesRelating Anaerobic Digestion Microbial Community and Process FunctionAnalysis of propionate-degrading consortia from agricultural biogas plantsComparative Analysis of Methanogenic Communities in Different Laboratory-Scale Anaerobic DigestersGenome-Guided Analysis and Whole Transcriptome Profiling of the Mesophilic Syntrophic Acetate Oxidising Bacterium Syntrophaceticus schinkiiAnaerobic Fungi: A Potential Source of Biological H2 in the Oceanic CrustTrace element and temperature effects on microbial communities and links to biogas digester performance at high ammonia levelsBioaugmentation of syntrophic acetate-oxidizing culture in biogas reactors exposed to increasing levels of ammoniaArchaea and Bacteria Acclimate to High Total Ammonia in a Methanogenic Reactor Treating Swine WasteEffect of ammonium and acetate on methanogenic pathway and methanogenic community composition.Microbial community structure and dynamics during anaerobic digestion of various agricultural waste materials.Feedstocks affect the diversity and distribution of propionate CoA-transferase genes (pct) in anaerobic digesters.High concentrations of methyl fluoride affect the bacterial community in a thermophilic methanogenic sludgeGenome-guided analysis of physiological capacities of Tepidanaerobacter acetatoxydans provides insights into environmental adaptations and syntrophic acetate oxidationEffect of Co-Composting Cattle Manure with Construction and Demolition Waste on the Archaeal, Bacterial, and Fungal Microbiota, and on Antimicrobial Resistance Determinants.High-rate, High Temperature Acetotrophic Methanogenesis Governed by a Three Population Consortium in Anaerobic Bioreactors.Comparison of microbial communities during the anaerobic digestion of Gracilaria under mesophilic and thermophilic conditions.Working draft genome sequence of the mesophilic acetate oxidizing bacterium Syntrophaceticus schinkii strain Sp3Substrate Type and Free Ammonia Determine Bacterial Community Structure in Full-Scale Mesophilic Anaerobic Digesters Treating Cattle or Swine Manure.Draft Genome Sequence of the Syntrophic Lactate-Degrading Bacterium Tepidanaerobacter syntrophicus JLT.Bacterial community composition and fhs profiles of low- and high-ammonia biogas digesters reveal novel syntrophic acetate-oxidising bacteria.First Genome Sequence of a Syntrophic Acetate-Oxidizing Bacterium, Tepidanaerobacter acetatoxydans Strain Re1.Quantification of syntrophic acetate-oxidizing microbial communities in biogas processes.Dynamic functional characterization and phylogenetic changes due to Long Chain Fatty Acids pulses in biogas reactors.Complete genome sequence of Methanoculleus bourgensis strain MAB1, the syntrophic partner of mesophilic acetate-oxidising bacteria (SAOB).Quantitative Metaproteomics Highlight the Metabolic Contributions of Uncultured Phylotypes in a Thermophilic Anaerobic DigesterPerspectives for microbial community composition in anaerobic digestion: from abundance and activity to connectivity.Identification of syntrophic acetate-oxidizing bacteria in anaerobic digesters by combined protein-based stable isotope probing and metagenomics.Thermodynamic constraints on syntrophic acetate oxidationAmmonia effect on hydrogenotrophic methanogens and syntrophic acetate-oxidizing bacteria.First insights into the syntrophic acetate-oxidizing bacteria--a genetic study.Evidence of anaerobic syntrophic acetate oxidation in biogas batch reactors by analysis of 13C carbon isotopes.Detection of novel syntrophic acetate-oxidizing bacteria from biogas processes by continuous acetate enrichment approaches.Anaerobic digestion of pig manure supernatant at high ammonia concentrations characterized by high abundances of Methanosaeta and non-euryarchaeotal archaea.Microbial Insight into a Pilot-Scale Enhanced Two-Stage High-Solid Anaerobic Digestion System Treating Waste Activated Sludge.Microbial rRNA gene expression and co-occurrence profiles associate with biokinetics and elemental composition in full-scale anaerobic digesters.Hydrogen-Fueled Microbial Pathways in Biogas Upgrading Systems Revealed by Genome-Centric Metagenomics.Genome-Guided Analysis of Clostridium ultunense and Comparative Genomics Reveal Different Strategies for Acetate Oxidation and Energy Conservation in Syntrophic Acetate-Oxidising Bacteria.Metatranscriptomics reveals a differential temperature effect on the structural and functional organization of the anaerobic food web in rice field soil
P2860
Q21266685-241D757A-6B91-44F2-BBDB-65B5B289D7ECQ27013832-12CF3DEE-07F5-4477-99E7-EE0ECDF099DEQ28081254-42C94FF4-B3AE-4258-BA96-71DCDC76F981Q28583298-28DB133F-C7DC-449B-9E79-F2583A73867CQ28584588-5DEAC806-8C52-446E-B230-3605B08D69EFQ28595613-E973840D-6679-4A17-A53A-C8E1CD166B1EQ28597232-995180A3-F6E0-49D4-95EE-E3230E8EC399Q28607397-75BD6A8B-576E-47A3-8D24-57D9B907A375Q28714301-18EDDFA8-57B6-4CB7-93DE-FA8A9D9BD763Q28822582-A734D1B1-7AFF-4FEC-8216-67490F73BB0BQ34342733-BAF7181D-0173-43DA-B30B-B38C03B73ADFQ34691692-1DB50F60-5689-42C1-B2F0-F43B7DA6C91FQ34703753-0D6F7551-5F59-4096-B83D-1813C1C52F57Q35128344-02BA23D5-BE4D-43A9-8E21-DA2BC12BC1ABQ35219528-E23393A2-A7DD-47A0-8BB7-A48DF51DE442Q36051802-C753C46A-A9B7-4A8D-A1F8-0547EFC3226CQ36094783-DD149974-11F8-4EF8-8CCE-1A0528A42AA3Q36113764-5548F518-CB92-4429-B8D5-CF0E7E802C93Q36273953-B6A580D7-13E8-423C-9848-60CB08FFEE31Q36328802-04FDF8C2-403E-487B-ADC2-8473BA647218Q36573842-10F1BBB1-D8AB-45B2-B8B0-6C7555231457Q36625471-C0742AE6-FC7F-48A1-B9E5-BFB6ED9C1C63Q36655751-BE3ADC78-AFFB-4F6A-A432-D38445EFE6A0Q36860527-2296D4B3-0565-439A-A921-B5E165BD4280Q37050284-A469F216-D97F-4980-A16D-701F4F570355Q37336843-7204FF1C-2AD7-40BD-8894-7A1D5CA7F358Q38798440-1046D15B-B5BE-498E-A09A-DA41EE681D81Q38885447-4F6528AB-B002-4B43-A337-D4C406110975Q41644796-00CBF97F-7021-4690-8627-B16F29A0894AQ42684654-900CF015-55B6-472C-B7F7-68F313FD3ADEQ43025989-A0078ACF-E4B2-44F4-90E3-0AE2A799E4EFQ43238372-DF9B75BB-4C71-4B9B-BE8C-CD01EC2B8749Q44674883-5BDA7709-7938-4ECE-8371-E530886973DEQ46241471-B3D3E0C4-56E1-40E9-B0C7-726CFC1CE54DQ47135846-42BD9240-592E-47AA-A6F8-33D33F2F9DACQ47258017-4FDD5E3F-033D-49A3-8AAE-3895E1848EF8Q52597021-DB3C4AE2-845B-4712-AF27-B22FE9174AD2Q54962706-1F1437BE-A055-4A47-BE25-BC0727E51689Q54994074-680D7B9B-EFD3-4A7A-ACF4-FE0AE2E834C3Q57154916-4DB44559-F0D4-46B8-8A44-F42FF87D896F
P2860
Tepidanaerobacter acetatoxydans sp. nov., an anaerobic, syntrophic acetate-oxidizing bacterium isolated from two ammonium-enriched mesophilic methanogenic processes.
description
2011 nî lūn-bûn
@nan
2011 թուականի Ապրիլին հրատարակուած գիտական յօդուած
@hyw
2011 թվականի ապրիլին հրատարակված գիտական հոդված
@hy
2011年の論文
@ja
2011年論文
@yue
2011年論文
@zh-hant
2011年論文
@zh-hk
2011年論文
@zh-mo
2011年論文
@zh-tw
2011年论文
@wuu
name
Tepidanaerobacter acetatoxydan ...... philic methanogenic processes.
@ast
Tepidanaerobacter acetatoxydan ...... philic methanogenic processes.
@en
type
label
Tepidanaerobacter acetatoxydan ...... philic methanogenic processes.
@ast
Tepidanaerobacter acetatoxydan ...... philic methanogenic processes.
@en
prefLabel
Tepidanaerobacter acetatoxydan ...... philic methanogenic processes.
@ast
Tepidanaerobacter acetatoxydan ...... philic methanogenic processes.
@en
P1476
Tepidanaerobacter acetatoxydan ...... ophilic methanogenic processes
@en
P2093
Maria Westerholm
P304
P356
10.1016/J.SYAPM.2010.11.018
P577
2011-04-16T00:00:00Z