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Clostridium scindens
Uneven Distribution of Cobamide Biosynthesis and Dependence in Bacteria Predicted By
Supporting Information
The Isolation of Novel Lachnospiraceae Strains and the Evaluation of Their Potential Roles in Colonization Resistance Against Clostridium Difficile
Uneven Distribution of Cobamide Biosynthesis and Dependence in Bacteria Predicted by Comparative Genomics
Characterization of an Endolysin Targeting Clostridioides Difficile
The Mechanisms of in Vivo Commensal Control of C
Depression and Microbiome—Study on the Relation and Contiguity Between Dogs and Humans
Chronic Diarrhea, Bile Acids, and Clostridia
Updates on the Sporulation Process in Clostridium Species
Functional Genomic Examinations of Interactions Between Common Members of the Umh an Gut Microbiota Michael Mahowald Washington University in St
Assignment of Eubacterium Sp. VPI 12708
Staff Advice Report
Do Organic Substrates Drive Microbial Community Interactions in Arctic Snow? Benoît Bergk Pinto, Lorrie Maccario, Aurélien Dommergue, Timothy Vogel, Catherine Larose
Microbial Hydroxysteroid Dehydrogenases: from Alpha to Omega
(12) Patent Application Publication (10) Pub. No.: US 2014/0128289 A1 Gordon Et Al
Expansion of and Reclassification Within the Family Lachnospiraceae
( 12 ) Patent Application Publication ( 10 ) Pub . No .: US 2020/0246398 A1
Surgical Treatment for Colorectal Cancer Partially Restores Gut Microbiome and Metabolome Traits
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ENZYMOLOGY and MOLECULAR BIOLOGY of BILE ACID 7Alpha- and 7Beta- DEHYDROXYLATION by the INTESTINAL BACTERIA CLOSTRIDIUM SCINDENS and CLOSTRIDIUM HYLEMONAE
Anaerobic Microbes and Communities in the Context of Soil and the Equine Digestive Tract
In Vivo Commensal Control of Clostridioides Difficile Virulence
The Trans-Kingdom Battle Between Donor and Recipient Gut Microbiome Influences Fecal Microbiota Transplantation Outcome
Biogeography of Microbial Bile Acid Transformations Along the Murine Gut
Strain-Dependent Inhibition of Clostridioides Difficile by Commensal Clostridia Encoding
A Clostridia-Rich Microbiota Enhances Bile Acid Excretion in Diarrhea-Predominant Irritable Bowel Syndrome
A Collection of Bacterial Isolates from the Pig Intestine Reveals Functional and Taxonomic Diversity
The Genus Romboutsia
Clostridium Scindens Sp. Nov., a Human Intestinal Bacterium with Desmolytic Activity on Corticoids G
Clostridium Hiranonis, a Bile Acid 7Α-Dehydroxylating
A Clostridia-Rich Microbiota Enhances Bile Acid Excretion in Diarrhea-Predominant Irritable Bowel Syndrome
Resolution of the Nutritional Requirements and Metabolic Profile of Clostridium Scindens ATCC 35704, a Major Bile Acid-Dehydroxy
A Clostridia-Rich Microbiota Contributes to Increased Excretion of Bile Acids in 2 Diarrhea-Predominant Irritable Bowel Syndrome 3