Regulation of bile acid synthesis: pathways, nuclear receptors, and mechanisms. - Wikidata - awgldk - TriplyDB

Regulation of bile acid synthesis: pathways, nuclear receptors, and mechanisms.

Regulation of bile acid synthesis: pathways, nuclear receptors, and mechanisms.

http://www.wikidata.org/entity/Q35763029

about

Transcriptional corepressor SHP recruits SIRT1 histone deacetylase to inhibit LRH-1 transactivation Liver-specific activities of FGF19 require Klotho beta Modulation of retinoic acid receptor-related orphan receptor alpha and gamma activity by 7-oxygenated sterol ligands Bile acids activate fibroblast growth factor 19 signaling in human hepatocytes to inhibit cholesterol 7alpha-hydroxylase gene expression Involvement of corepressor complex subunit GPS2 in transcriptional pathways governing human bile acid biosynthesis Bile acids inhibit duodenal secretin expression via orphan nuclear receptor small heterodimer partner (SHP)Bile acids: regulation of apoptosis by ursodeoxycholic acid Forkhead box transcription factor O1 inhibits cholesterol 7alpha-hydroxylase in human hepatocytes and in high fat diet-fed mice Bile acids: regulation of synthesis Interdependence of nutrient metabolism and the circadian clock system: Importance for metabolic health Bile acid metabolism and signaling Cross-talk between bile acids and intestinal microbiota in host metabolism and health Cytochrome P450s in the synthesis of cholesterol and bile acids--from mouse models to human diseases.Altered hepatic cholesterol metabolism compensates for disruption of phosphatidylcholine transfer protein in mice Side-chain oxysterols: from cells to membranes to molecules.Linkage disequilibrium blocks, haplotype structure, and htSNPs of human CYP7A1 gene.Fibroblast growth factor 15 deficiency impairs liver regeneration in mice.Improved Coarse-Grained Modeling of Cholesterol-Containing Lipid Bilayers Alterations in xenobiotic metabolism in the long-lived Little mice.Herbal medicine Yinchenhaotang protects against α-naphthylisothiocyanate-induced cholestasis in rats.Regulation of hepatic metabolic pathways by the orphan nuclear receptor SHP.Retinoic acid represses CYP7A1 expression in human hepatocytes and HepG2 cells by FXR/RXR-dependent and independent mechanisms.Nuclear receptor HNF4α binding sequences are widespread in Alu repeats Bile acid metabolites in serum: intraindividual variation and associations with coronary heart disease, metabolic syndrome and diabetes mellitus Protective effects of farnesoid X receptor (FXR) on hepatic lipid accumulation are mediated by hepatic FXR and independent of intestinal FGF15 signal Timosaponin A3 induces hepatotoxicity in rats through inducing oxidative stress and down-regulating bile acid transporters.HNF4α--role in drug metabolism and potential drug target?Conditional Gata4 deletion in mice induces bile acid absorption in the proximal small intestine.The mechanism of enterohepatic circulation in the formation of gallstone disease.Regulation of bile acid biosynthesis by hepatocyte nuclear factor 4alpha.A chronic high-cholesterol diet paradoxically suppresses hepatic CYP7A1 expression in FVB/NJ mice Atorvastatin induces bile acid-synthetic enzyme Cyp7a1 by suppressing FXR signaling in both liver and intestine in mice.Enhanced placental cholesterol efflux by fetal HDL in Smith-Lemli-Opitz syndrome.25-Hydroxycholesterol increases the availability of cholesterol in phospholipid membranes Discontinued drugs in 2005: cardiovascular drugs.Tissue-specific function of farnesoid X receptor in liver and intestine Impact of physiological levels of chenodeoxycholic acid supplementation on intestinal and hepatic bile acid and cholesterol metabolism in Cyp7a1-deficient mice.The regulation of alfalfa saponin extract on key genes involved in hepatic cholesterol metabolism in hyperlipidemic rats Arginine methylation by PRMT5 at a naturally occurring mutation site is critical for liver metabolic regulation by small heterodimer partner Lessons from hepatocyte-specific Cyp51 knockout mice: impaired cholesterol synthesis leads to oval cell-driven liver injury.

P2860

Q24306100-7D50B090-CAAC-4C80-A95F-F792AD88D553 Q24319088-43099BF4-3B8A-4F3F-B1FC-F6A7BD1BF7B7 Q24336344-C33E9AE4-777B-4B3A-A3AE-DC0105E3338F Q24336351-2F942E01-AF93-4ADD-8FC2-00B1CB29B346 Q24564745-7D540E31-5F77-40DE-ABA5-219375E3C1B0 Q24648043-7F185C8C-D4C7-4120-A84D-6FAC82792B40 Q24653969-012DF67B-AF49-43E5-B54E-72B0138E51B4 Q24654808-E88F896A-3127-43C7-9D35-E3D83606C387 Q24658139-0E243578-BF4F-4DBF-9DE4-AD79422B30ED Q26765492-98161C6E-50FE-469F-B1DD-15E18C42F13F Q27002873-A0313D5F-6946-4776-A0F0-9E8772BE148D Q27026925-C8DF79D3-490D-4CDC-992C-0E0AAD7E2398 Q27687289-E167FD61-8B1E-4CC9-B92F-40119A5536BD Q28508526-A606E2E8-0CF5-4CDA-A5EA-86F24B80A4B8 Q30404667-492009D2-8A5A-44CB-B489-12A0DED6A1B1 Q33243916-930AF343-9759-4004-8E17-5913BF27FAEB Q33626562-D5F9F591-5257-4CE4-9B8B-39FD867F55B2 Q33708739-3E521965-744A-4EA5-B601-65A89E4C1E63 Q33809704-A9ACAA75-CAD2-48EA-BBF3-581779C2721D Q33830030-681D8467-DE58-43F2-9730-09014D311E26 Q33899626-E027B8FE-2D47-40AC-9361-EE3B0B527AE8 Q33993174-6EEAB915-1F17-4BA5-B090-3422F0324AA2 Q34075027-4252A562-1AEC-4C94-8389-532C951B4FFB Q34081372-BC4B332B-77E0-463F-834D-F36224B97EC0 Q34098522-B3C99DFA-37D7-44FE-A4E9-9A236A171238 Q34138386-B9793415-AAE6-4C7D-BEFD-575C33EAB659 Q34311568-15CEF6F7-078D-4A43-94FD-3EBADF95075B Q34312185-B6B96EFB-86C2-4C99-B671-850FF7C2B785 Q34396525-C2D5FD77-FEF3-4775-8693-E72185630797 Q34478319-1D294938-1A8A-4C2B-AE14-C4ACD22C335F Q34503382-F308CAAA-365C-4FCD-A91C-8C3B73EA9CDF Q34565278-9319A298-8DF0-47A1-8DE2-C9F308EBA630 Q34566372-857D0695-340A-474D-A19E-3D372B57D2BA Q34568079-5512223F-91D6-4570-938E-07A224CD7988 Q34573783-CB843B38-4ED2-4F8F-9439-9382985F5C15 Q34714107-26EA3A0B-4E15-48A4-8816-A70B635E3056 Q34980363-62F0DF6A-CF1D-480A-B6FC-2BC9CACBA5DE Q35088651-2CEA5BF0-34A9-4BDF-AB21-28E23031EEAF Q35102100-376642CE-978F-4693-A764-98FBC3051FB0 Q35148751-966CA53D-E827-4068-A59C-879E7E033C51

P2860

Regulation of bile acid synthesis: pathways, nuclear receptors, and mechanisms.

http://www.wikidata.org/entity/Q35763029

description

2004 nî lūn-bûn

@nan

2004年の論文

@ja

2004年論文

@yue

2004年論文

@zh-hant

2004年論文

@zh-hk

2004年論文

@zh-mo

2004年論文

@zh-tw

2004年论文

@wuu

2004年论文

@zh

2004年论文

@zh-cn

name

Regulation of bile acid synthesis: pathways, nuclear receptors, and mechanisms.

@ast

Regulation of bile acid synthesis: pathways, nuclear receptors, and mechanisms.

@en

type

label

Regulation of bile acid synthesis: pathways, nuclear receptors, and mechanisms.

@ast

Regulation of bile acid synthesis: pathways, nuclear receptors, and mechanisms.

@en

prefLabel

Regulation of bile acid synthesis: pathways, nuclear receptors, and mechanisms.

@ast

Regulation of bile acid synthesis: pathways, nuclear receptors, and mechanisms.

@en

P1433

Q35763029-5F05CCED-FF04-477D-9465-1B6A75C54544

P1476

Q35763029-A924C41A-823F-4068-AFA0-44D408F5AF87

P2093

Q35763029-A5EC4683-FE5C-4B90-B692-196C597EEAEE

P304

Q35763029-6D7B8751-15B3-40CD-AD8E-DA89B859E2BE

P31

Q35763029-C66D33C1-4613-41BD-95CC-7C937423EBA6

P356

Q35763029-7FAA8EC2-8A7B-4A4E-B6B0-9B4D463969AA

P433

Q35763029-33969D91-1486-4573-9EC4-376CF2B11E18

P478

Q35763029-ED5C5A1D-9D32-4A57-BACE-1B1D0DFAC30C

P50

Q35763029-905055D8-2448-4D1B-A5B9-3A206399EA8A

P577

Q35763029-6DEDE4A9-E3BC-4E2C-AEDC-937E87C2CCD7

P698

Q35763029-FC93CFC5-B22D-4B42-BDED-8DC566BD38E4

P356

J.JHEP.2003.11.006

P1433

Journal of Hepatology

P1476

Regulation of bile acid synthesis: pathways, nuclear receptors, and mechanisms

@en

P2093

John Y L Chiang

http://www.w3.org/2001/XMLSchema#string

P304

539-551

http://www.w3.org/2001/XMLSchema#string

P31

scholarly article

P356

10.1016/J.JHEP.2003.11.006

http://www.w3.org/2001/XMLSchema#string

P433

3

http://www.w3.org/2001/XMLSchema#string

P478

40

http://www.w3.org/2001/XMLSchema#string

P50

P577

2004-03-01T00:00:00Z

http://www.w3.org/2001/XMLSchema#dateTime

P698

15123373

http://www.w3.org/2001/XMLSchema#string