Reclassification of Clostridium coccoides, Ruminococcus hansenii, Ruminococcus hydrogenotrophicus, Ruminococcus luti, Ruminococcus productus and Ruminococcus schinkii as Blautia coccoides gen. nov., comb. nov., Blautia hansenii comb. nov., Blautia h
about
Gram-positive anaerobic cocci--commensals and opportunistic pathogensIntestinal microbiota and diet in IBS: causes, consequences, or epiphenomena?Gut microbiota of healthy elderly NSAID users is selectively modified with the administration of Lactobacillus acidophilus NCFM and lactitolIntestinal microbiota in healthy adults: temporal analysis reveals individual and common core and relation to intestinal symptomsRegional Variation of CH4 and N2 Production Processes in the Deep Aquifers of an Accretionary PrismPhylogenetic distribution of three pathways for propionate production within the human gut microbiota.Sewage reflects the distribution of human faecal Lachnospiraceae.Analysis of the unexplored features of rrs (16S rDNA) of the Genus Clostridium.Ovine ruminal microbes are capable of biotransforming hexahydro-1,3,5-trinitro-1,3,5-triazine (RDX).Methodological issues in the study of intestinal microbiota in irritable bowel syndromeThe first 1000 cultured species of the human gastrointestinal microbiota.Investigation of the microbial metabolism of carbon dioxide and hydrogen in the kangaroo foregut by stable isotope probingThe Ellis Island Effect: A novel mobile element in a multi-drug resistant Bacteroides fragilis clinical isolate includes a mosaic of resistance genes from Gram-positive bacteria.Changes in human fecal microbiota due to chemotherapy analyzed by TaqMan-PCR, 454 sequencing and PCR-DGGE fingerprintingEffect of oral administration of metronidazole or prednisolone on fecal microbiota in dogs.Low iron availability in continuous in vitro colonic fermentations induces strong dysbiosis of the child gut microbial consortium and a decrease in main metabolites.Two cases of Ruminococcus gnavus bacteremia associated with diverticulitis.Dietary fat content and fiber type modulate hind gut microbial community and metabolic markers in the pig.Interactions between specific phytoplankton and bacteria affect lake bacterial community succession.Microbial ecology of chlorinated solvent biodegradation.Phylogenetic analysis of faecal microbiota from captive cheetahs reveals underrepresentation of Bacteroidetes and Bifidobacteriaceae.Comparative diversity analysis of gut microbiota in two different human flora-associated mouse strains.In vivo selection to identify bacterial strains with enhanced ecological performance in synbiotic applications.Fecal Microbiota in Patients with Irritable Bowel Syndrome Compared with Healthy Controls Using Real-Time Polymerase Chain Reaction: An Evidence of Dysbiosis.Gut metabolites and bacterial community networks during a pilot intervention study with flaxseeds in healthy adult men.Diversity of Intestinal Clostridium coccoides Group in the Japanese Population, as Demonstrated by Reverse Transcription-Quantitative PCR.Improved OTU-picking using long-read 16S rRNA gene amplicon sequencing and generic hierarchical clustering.Effect of Bacillus subtilis CGMCC 1.1086 on the growth performance and intestinal microbiota of broilers.Intestinal Blautia Is Associated with Reduced Death from Graft-versus-Host DiseaseHelicobacter pylori Eradication Causes Perturbation of the Human Gut Microbiome in Young AdultsIntestinal Sucrase as a Novel Target Contributing to the Regulation of Glycemia by Prebiotics.A preliminary investigation on the relationship between gut microbiota and gene expressions in peripheral mononuclear cells of infants with autism spectrum disorders.Intestinal microbiota could transfer host Gut characteristics from pigs to mice.Metagenomic profiling of microbial composition and antibiotic resistance determinants in Puget Sound.Gut microbiota and diet in patients with different glucose tolerance.CVTree3 Web Server for Whole-genome-based and Alignment-free Prokaryotic Phylogeny and Taxonomy.Abundance and short-term temporal variability of fecal microbiota in healthy dogs.Effects of gut microbes on nutrient absorption and energy regulation.Relationship of Enhanced Butyrate Production by Colonic Butyrate-Producing Bacteria to Immunomodulatory Effects in Normal Mice Fed an Insoluble Fraction of Brassica rapa LUncovering the composition of microbial community structure and metagenomics among three gut locations in pigs with distinct fatness
P2860
Q26827994-C1ED8F31-A494-4622-BACC-718BD39C8B04Q26828617-2BB6440F-274B-4034-A65F-4DE157447711Q28245954-2425AC60-0394-4700-9CD9-986CC27DA6F1Q28742033-729C7902-2DEB-4E3A-A8BB-80AC24F2EC59Q28830810-77525D09-2A3F-4E46-9B9D-9FBCFC86B99EQ33647170-F3CCC9B4-8898-40D6-9E54-CDD273B24192Q33705630-C9E13F23-EA5D-48F7-8991-7B27207634B2Q33790436-7177A609-710A-49CD-9F30-665CF856B1B3Q33826430-FB596627-FE1C-4BAA-810F-62FDC8F800DAQ33958776-50331722-62FB-4F7B-A417-6E57F671264CQ34041082-ED75EB86-AC93-48ED-8015-A3D6A48D7977Q34071976-F3DC3284-421C-4FDE-9F60-B68500B0E8D8Q34090373-E383EDD2-1513-4AF2-A63A-2BCA7CF77201Q34110225-C671792B-0EF3-4DD0-B84D-67BA3B15D31EQ34208812-10A023F4-BF17-4203-A114-CC08C94100F7Q34356386-9E24D1AE-030C-4E8A-9A17-7FAADB244E84Q34567740-967BDC8B-1FE5-460C-994C-60BD1D1CD60EQ34661688-FBA27F8D-38F0-4423-9A36-B414557A2482Q34714577-39DE1836-3DAD-4ED9-ADCB-6092372198A2Q35092091-45FACDDC-1306-4AF7-BDEC-F56AE6A0F596Q35096720-CA28233C-0B5D-4F10-8417-BA628C2FB0F0Q35164937-BB9376CF-291C-4E9B-A463-1BD1EAA371D0Q35172120-2979CEBD-16DA-4D9E-9674-8D87A23A4E7DQ35580084-823719D8-8D1E-4AF2-B064-2C3A293C2F98Q35635017-E1262617-FB8D-4AF2-A0F7-0D6D4BC2CB51Q35637109-29F77DAF-4321-4A4E-8D77-6717FB46EE5EQ35798523-40447113-767A-4517-AAFB-8A4DCBB80B01Q35813048-2DB51255-C2B5-486D-BC1C-699825192F3FQ35892249-98B53A63-E52D-4FF8-9C39-4DF4CEB70EBDQ35962754-A8B8633C-B108-4FB4-97E3-EAFD17C51C23Q36105865-89414A14-F3FA-44AA-A7B5-0450392B418BQ36118889-4A0A79D3-6EB4-484E-ABFC-918755A8D154Q36160705-F775A800-948D-4BB9-80F2-3C46B284BE4FQ36354000-64D26B7A-6380-4536-872A-41F6237377DDQ36360507-1F4B0080-9C8E-4F8C-9F56-CC3EF4C7EA70Q36370750-656ED90B-6550-4107-A21B-082DB5EDE880Q36395680-1D15C535-957B-4C67-BDAD-D5C81A751E6BQ36694958-3FF903C9-1546-4530-A2C0-66C4DA45D29DQ36812269-EA9A6567-3AD6-4E87-B41E-726217C77C03Q36964800-E65D4C17-E85B-4C48-982B-779A0C2E24CA
P2860
Reclassification of Clostridium coccoides, Ruminococcus hansenii, Ruminococcus hydrogenotrophicus, Ruminococcus luti, Ruminococcus productus and Ruminococcus schinkii as Blautia coccoides gen. nov., comb. nov., Blautia hansenii comb. nov., Blautia h
description
2008 nî lūn-bûn
@nan
2008 թուականի Օգոստոսին հրատարակուած գիտական յօդուած
@hyw
2008 թվականի օգոստոսին հրատարակված գիտական հոդված
@hy
2008年の論文
@ja
2008年論文
@yue
2008年論文
@zh-hant
2008年論文
@zh-hk
2008年論文
@zh-mo
2008年論文
@zh-tw
2008年论文
@wuu
name
Reclassification of Clostridiu ...... hansenii comb. nov., Blautia h
@ast
Reclassification of Clostridiu ...... hansenii comb. nov., Blautia h
@en
type
label
Reclassification of Clostridiu ...... hansenii comb. nov., Blautia h
@ast
Reclassification of Clostridiu ...... hansenii comb. nov., Blautia h
@en
prefLabel
Reclassification of Clostridiu ...... hansenii comb. nov., Blautia h
@ast
Reclassification of Clostridiu ...... hansenii comb. nov., Blautia h
@en
P356
P1476
Reclassification of Clostridiu ...... hansenii comb. nov., Blautia h
@en
P2093
Chengxu Liu
P304
P356
10.1099/IJS.0.65208-0
P407
P577
2008-08-01T00:00:00Z