Contribution of the 7β-hydroxysteroid dehydrogenase from Ruminococcus gnavus N53 to ursodeoxycholic acid formation in the human colon.
about
Structural and biochemical insights into 7β-hydroxysteroid dehydrogenase stereoselectivityImpact of Microbes on the Pathogenesis of Primary Biliary Cirrhosis (PBC) and Primary Sclerosing Cholangitis (PSC)Diet, the gut microbiome, and epigeneticsDiscovery of tauroursodeoxycholic acid biotransformation enzymes from the gut microbiome of black bears using metagenomicsA biosynthetic pathway for a prominent class of microbiota-derived bile acids.Prolonged antibiotic treatment induces a diabetogenic intestinal microbiome that accelerates diabetes in NOD mice.The human gut sterolbiome: bile acid-microbiome endocrine aspects and therapeutics.Rapid change of fecal microbiome and disappearance of Clostridium difficile in a colonized infant after transition from breast milk to cow milk.Evaluating the Contribution of Gut Microbiota to the Variation of Porcine Fatness with the Cecum and Fecal Samples.Ursodeoxycholic acid and lithocholic acid exert anti-inflammatory actions in the colon.The mucin-degradation strategy of Ruminococcus gnavus: The importance of intramolecular trans-sialidases.Identification and characterization of a 20β-HSDH from the anaerobic gut bacterium Butyricicoccus desmolans ATCC 43058.Bile acid is a significant host factor shaping the gut microbiome of diet-induced obese mice.Bile acids at the cross-roads of gut microbiome-host cardiometabolic interactions.Rapidly directional biotransformation of tauroursodeoxycholic acid through engineered Escherichia coli.Targeted synthesis and characterization of a gene-cluster encoding NAD(P)H-dependent 3α-, 3β-, and 12α-hydroxysteroid dehydrogenases from Eggerthella CAG:298, a gut metagenomic sequence.Race-dependent association of sulfidogenic bacteria with colorectal cancer.Latest development in the synthesis of ursodeoxycholic acid (UDCA): a critical review.
P2860
Q27704294-B2539187-1BDA-4957-B4F3-D2AA83B73591Q28076453-A5C9F02F-B514-4C27-89DE-594A278A6C6FQ28384266-5AB985B6-997A-4D5A-A8A0-881A542901B4Q33594384-FA9782E6-9FE9-4750-9801-1B0E856027D2Q34485910-081744F9-7775-4D22-87DD-3E598FBBEB45Q35745963-615321BC-EBCF-4B1D-9533-DB94C623F290Q36237926-DA85FF91-C078-47EC-AB2E-DF4CB695597FQ37322181-30D4840B-5E6B-4307-83E5-544C478BA429Q37528503-7B15827F-5D66-4861-9BBF-EFCA5E30CEBFQ38288518-D9571232-B8C6-4BC3-91D1-85AAD5EB0324Q39737114-4DBB8FDE-84EE-434E-913D-9C319E304974Q42290255-C33FE4AD-AD4A-4937-9B8C-143A49DDF1C9Q47119292-6F70881D-B19A-472C-A508-15CE22024101Q47134180-7339D054-B86D-473F-A09F-36424C14445DQ48089677-23186525-92CD-40BB-9EAC-AA63237C7C82Q50059532-D601A7C8-444E-491B-AA5E-48A3B61E470AQ50915458-A587287C-0579-409F-A116-7C47BFC56526Q51742557-552D4241-F882-4E7F-A2AA-496F37579FC9
P2860
Contribution of the 7β-hydroxysteroid dehydrogenase from Ruminococcus gnavus N53 to ursodeoxycholic acid formation in the human colon.
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on June 2013
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Contribution of the 7β-hydroxy ...... formation in the human colon.
@en
Contribution of the 7β-hydroxy ...... formation in the human colon.
@nl
type
label
Contribution of the 7β-hydroxy ...... formation in the human colon.
@en
Contribution of the 7β-hydroxy ...... formation in the human colon.
@nl
prefLabel
Contribution of the 7β-hydroxy ...... formation in the human colon.
@en
Contribution of the 7β-hydroxy ...... formation in the human colon.
@nl
P2093
P2860
P356
P1476
Contribution of the 7β-hydroxy ...... d formation in the human colon
@en
P2093
Atsushi Yokota
Hisashi Arai
Ja-Young Lee
Masaru Wada
Yusuke Nakamura
P2860
P304
P356
10.1194/JLR.M039834
P577
2013-06-01T00:00:00Z