about
Origin and evolution of the sodium -pumping NADH: ubiquinone oxidoreductaseHomology-dependent interactions determine the order of strand exchange by IntDOT recombinase.Phylogenetic distribution of three pathways for propionate production within the human gut microbiota.Metal uptake in host-pathogen interactions: role of iron in Porphyromonas gingivalis interactions with host organismsIdentification of nonpoint sources of fecal pollution in coastal waters by using host-specific 16S ribosomal DNA genetic markers from fecal anaerobes.A mitochondrial-like aconitase in the bacterium Bacteroides fragilis: implications for the evolution of the mitochondrial Krebs cycle.Characterization of a pyridine nucleotide-nonspecific glutamate dehydrogenase from Bacteroides thetaiotaomicron.The role of short-chain fatty acids in the interplay between diet, gut microbiota, and host energy metabolism.Selective enumeration of Bacteroides vulgatus and B. distasonis organisms in the predominant human fecal flora by using monoclonal antibodiesCharacterization of the rumen microbiome of Indian Kankrej cattle (Bos indicus) adapted to different forage diet.Mucosal Immune Development in Early Life: Setting the Stage.Phylum level change in the cecal and fecal gut communities of rats fed diets containing different fermentable substrates supports a role for nitrogen as a factor contributing to community structure.Neonatal environment exerts a sustained influence on the development of the intestinal microbiota and metabolic phenotypeCo-utilization of polymerized carbon sources by Bacteroides ovatus grown in a two-stage continuous culture systemPossible mechanisms responsible for the reduced intestinal flora in hibernating leopard frogs (Rana pipiens).CTnDOT integrase performs ordered homology-dependent and homology-independent strand exchanges.Effect of roughage on rumen microbiota composition in the efficient feed converter and sturdy Indian Jaffrabadi buffalo (Bubalus bubalis).Preferential packing of acidic glycosidases and proteases into Bacteroides outer membrane vesicles.Longitudinal study of murine microbiota activity and interactions with the host during acute inflammation and recovery.Biotransformation of 1-nitropyrene in intestinal anaerobic bacteria.Culture and decontamination methods affecting enumeration of phages infecting Bacteroides fragilis in sewage.Fructose 6-phosphate phosphorylation in Bacteroides species.Medium for enhanced growth of bacteria from a Swine manure digester.Digestive fates of soluble polysaccharides from marine macroalgae: involvement of the colonic microflora and physiological consequences for the host.Energy metabolism in Capnocytophaga ochracea.Illumina Sequencing Approach to Characterize Thiamine Metabolism Related Bacteria and the Impacts of Thiamine Supplementation on Ruminal Microbiota in Dairy Cows Fed High-Grain Diets.Studies on mixed populations of human intestinal bacteria grown in single-stage and multistage continuous culture systems.Effects of feeding finisher pigs with chicory or lupine feed for one week or two weeks before slaughter with respect to levels of Bifidobacteria and Campylobacter.Extrusion of wheat or sorghum and/or addition of exogenous enzymes to pig diets influences the large intestinal microbiota but does not prevent development of swine dysentery following experimental challenge.Propionate metabolism and diversity of relevant functional genes by in silico analysis and detection in subsurface petroleum reservoirs.Characterization of a conjugative transposon integrase, IntDOT.Degradation and fermentation of alpha-gluco-oligosaccharides by bacterial strains from human colon: in vitro and in vivo studies in gnotobiotic rats.Comparative analysis of fecal microbiota and intestinal microbial metabolic activity in captive polar bears.Meta-proteomics of rumen microbiota indicates niche compartmentalisation and functional dominance in a limited number of metabolic pathways between abundant bacteria.Metatranscriptomics reveals a differential temperature effect on the structural and functional organization of the anaerobic food web in rice field soilDifferent Oat Ingredients Stimulate Specific Microbial Metabolites in the Gut Microbiome of Three Human Individuals in VitroPropionate-producing bacteria in the intestine may associate with skewed responses of IL10-producing regulatory T cells in patients with relapsing polychondritis
P2860
Q28538610-4781027F-13CC-4938-8390-5B5565AF775CQ33633792-C854F4C8-32F9-4432-A5FE-54483470F133Q33647170-99FA14B1-89D1-455A-9CDF-7086A314778FQ33675274-11231506-EB33-48E7-A409-2B7DBC92F895Q33986952-24CDAE14-DE4C-4791-AA01-9660174F93BBQ34049600-095A805C-06F8-4370-9FEE-6481D9E9841AQ34122982-D33ABE1D-9402-42F7-984D-4E5BB8A546EFQ34355154-22013989-7007-4AD3-8045-BE301B39F740Q35189039-9127A58C-41F1-462E-A92C-B837193074A8Q35379909-61BC2956-C9E4-4A98-B3C2-16889044AB30Q35558518-8F7B9B3D-283F-4CA0-9920-773D864DEEDFQ35625092-8346D6CC-8F26-4F67-8FB1-3802DDB607A8Q35661271-FF5A618A-26B0-44B9-9B3C-63CE96504D09Q35685860-E7394407-DC13-4249-AE6B-9A4491E1FF0BQ36071666-77A6ED24-DEA1-4086-8354-7051A1D1E071Q36082889-5DD36189-971C-44D1-938B-9AEB49DD76BAQ36417012-B5D7185D-15B9-4F46-8449-63B24A47F01FQ37634455-2640452F-1BD6-4041-BA00-5BBF3CD91A90Q37718507-38888E33-F66B-4AD6-8FA7-ADF8E2AA1D68Q39360847-67C0A443-5670-4CAA-9B92-28E3AE2D2BBDQ39894558-2B53EC43-CD5E-4D7C-8539-D5699C418CECQ39971571-DC5265A1-3C26-4CD6-83E6-C6A7D342DFFDQ40069557-0AB8ABD5-25D1-4BCB-BC88-591BC030990DQ41145845-E9EF0961-0532-4926-9DBF-D9443504745BQ41177032-7AA45FE8-B66C-4AA5-AAE5-CADC9DD421F1Q42363224-6A6E46EC-FA10-4D17-8BA1-37EF53320C88Q42927500-36DA618D-CF7E-41EE-B97B-0A2B0DB370FDQ44404220-94D1E22A-4D1D-472D-9CBC-4AC26D2BC59AQ44630683-FCD3F53B-7F50-40E2-88EA-8D094EE6919BQ46301765-4AABBB3D-C9D7-47DB-ACF2-713C750271B5Q53623383-ACAE866E-524F-4B40-AD35-EE2649E00A52Q54166885-3E0E2165-B273-4561-8230-C595B80C9C57Q54385528-D5242F80-66F7-40FF-B962-177E191F3436Q55624250-FDF7B6FD-DCE8-4B6D-B59C-4B6378D2FC6CQ57154916-CDA4030D-FDF9-486C-BD55-E436457A1828Q58581298-9595BF01-B0DB-4DFA-96BC-5AA0E6870D77Q58713676-27CC277D-74AF-44E0-A3C0-018900141C28
P2860
description
1979 nî lūn-bûn
@nan
1979年の論文
@ja
1979年学术文章
@wuu
1979年学术文章
@zh-cn
1979年学术文章
@zh-hans
1979年学术文章
@zh-my
1979年学术文章
@zh-sg
1979年學術文章
@yue
1979年學術文章
@zh
1979年學術文章
@zh-hant
name
The biology of gastrointestinal bacteroides.
@en
The biology of gastrointestinal bacteroides.
@nl
type
label
The biology of gastrointestinal bacteroides.
@en
The biology of gastrointestinal bacteroides.
@nl
prefLabel
The biology of gastrointestinal bacteroides.
@en
The biology of gastrointestinal bacteroides.
@nl
P1476
The biology of gastrointestinal bacteroides.
@en
P2093
P304
P356
10.1146/ANNUREV.MI.33.100179.003021
P577
1979-01-01T00:00:00Z