Identification of the major intestinal fatty acid transport protein
about
Overexpression of CD36 and acyl-CoA synthetases FATP2, FATP4 and ACSL1 increases fatty acid uptake in human hepatoma cellsSLC27 fatty acid transport proteinsChronic inflammation in fat plays a crucial role in the development of obesity-related insulin resistanceCell surface heparan sulfate proteoglycans contribute to intracellular lipid accumulation in adipocytesMechanisms of lipid malabsorption in Cystic Fibrosis: the impact of essential fatty acids deficiencyIntestinal triacylglycerol synthesis in fat absorption and systemic energy metabolismReal-Time Tracking of BODIPY-C12 Long-Chain Fatty Acid in Human Term Placenta Reveals Unique Lipid Dynamics in Cytotrophoblast CellsVectorial acylation in Saccharomyces cerevisiae. Fat1p and fatty acyl-CoA synthetase are interacting components of a fatty acid import complex.Emerging risk biomarkers in cardiovascular diseases and disordersEnzymatic characterization of the pancreatic islet-specific glucose-6-phosphatase-related protein (IGRP)Induction of the fatty acid transport protein 1 and acyl-CoA synthase genes by dimer-selective rexinoids suggests that the peroxisome proliferator-activated receptor-retinoid X receptor heterodimer is their molecular targetKeratinocyte-specific expression of fatty acid transport protein 4 rescues the wrinkle-free phenotype in Slc27a4/Fatp4 mutant miceFatty acid transport protein 4 is dispensable for intestinal lipid absorption in miceFATP1 is an insulin-sensitive fatty acid transporter involved in diet-induced obesity.Mice with targeted disruption of the fatty acid transport protein 4 (Fatp 4, Slc27a4) gene show features of lethal restrictive dermopathyLoss of the acyl-CoA binding protein (Acbp) results in fatty acid metabolism abnormalities in mouse hair and skinCD36 is important for fatty acid and cholesterol uptake by the proximal but not distal intestineFunctional domains of the fatty acid transport proteins: studies using protein chimerasThe biogenesis of chylomicronsZebrafish lipid metabolism: from mediating early patterning to the metabolism of dietary fat and cholesterol.The Concise Guide to PHARMACOLOGY 2013/14: transporters.PPARalpha-mediated effects of dietary lipids on intestinal barrier gene expression.Uptake of long chain fatty acids is regulated by dynamic interaction of FAT/CD36 with cholesterol/sphingolipid enriched microdomains (lipid rafts)Two very long chain fatty acid acyl-CoA synthetase genes, acs-20 and acs-22, have roles in the cuticle surface barrier in Caenorhabditis elegansLong-chain acyl-CoA synthetases and fatty acid channelingCD36 gene deletion decreases oleoylethanolamide levels in small intestine of free-feeding mice.Fatty acid- and cholesterol transporter protein expression along the human intestinal tract.The human liver-specific homolog of very long-chain acyl-CoA synthetase is cholate:CoA ligase.Development and validation of a high-throughput screening assay for human long-chain fatty acid transport proteins 4 and 5.Docosahexaenoic acid signalolipidomics in nutrition: significance in aging, neuroinflammation, macular degeneration, Alzheimer's, and other neurodegenerative diseases.The expression and function of fatty acid transport protein-2 and -4 in the murine placenta.FATP2 is a hepatic fatty acid transporter and peroxisomal very long-chain acyl-CoA synthetase.Characterization of a heart-specific fatty acid transport protein.C57Bl/6 N mice on a western diet display reduced intestinal and hepatic cholesterol levels despite a plasma hypercholesterolemiaOverexpressed FATP1, ACSVL4/FATP4 and ACSL1 increase the cellular fatty acid uptake of 3T3-L1 adipocytes but are localized on intracellular membranesFatty acid transport: the roads taken.Fatty acid transport protein 4 (FATP4) prevents light-induced degeneration of cone and rod photoreceptors by inhibiting RPE65 isomerase.Time-resolved quantitative proteome analysis of in vivo intestinal developmentContraction-induced skeletal muscle FAT/CD36 trafficking and FA uptake is AMPK independentCloning of wrinkle-free, a previously uncharacterized mouse mutation, reveals crucial roles for fatty acid transport protein 4 in skin and hair development.
P2860
Q24294480-55D061EF-117B-4386-A532-7F07CC09CED8Q24601518-B35AB42B-3310-42AC-881D-3AF1F017BBFDQ24617743-1DC3AC71-785F-46BE-8C08-631FCA3237C2Q24791488-A1504DC0-84A6-40BE-BAFD-47DD3DB671FAQ24806288-DF1DD379-B219-45E8-9149-E56011351FD9Q27023275-AF236D52-CEA0-4585-A66B-4FE0E1EC9FA4Q27313696-6FB9313D-AF42-4AFA-A2F1-B3A94ECDA61EQ27931109-8B8D4F67-BECD-4C6D-977B-0053B005F1A4Q28081614-D45DA568-9399-4E65-B0B2-EEF79765F227Q28118176-9FAA36CC-0201-4838-A60F-153250860F5BQ28377424-BD6C67DA-132A-40A1-A7B0-9A3D32E7ABFFQ28504611-11FFB0ED-A597-4117-9010-5BC6EF500109Q28505425-BB4B9A31-FF37-4EBF-8511-7D8FF8BFE1E6Q28588041-F8168BB0-04F5-45EC-8CD3-742F58B0A481Q28588298-6817BF47-DD3E-41C7-A035-0E43AE0B28D6Q28588458-0DBBEB3F-F911-42A4-AE6F-4F2666029413Q28588690-D5472D89-4D41-41FA-A1FF-607D85669BDCQ28594735-E6AB6BC2-0A1F-4884-A09B-C639366FCA79Q28833221-6C7891A9-9BA4-4394-AEE6-4EA83BE7CFC0Q30402413-C23657B7-EE49-41A7-80DD-2DA929EFA9DCQ30486743-CE048EE3-B065-4BD0-8F62-476A497E76A7Q33335961-AB862801-FBF7-47C6-A73F-5DAB352F70C8Q33359910-64BEFB2D-3E80-40A2-8728-97F25AC79A4BQ33527395-33E27783-062E-4FBE-8E3F-64B63F383CE2Q33757925-D0728E11-E2F5-4161-BC14-E7C067A03B16Q33758242-75F90AC1-6853-4DBF-B6E8-99B611EBB22BQ33818527-B0730F15-C928-482A-93C1-3424AE578F90Q33896932-2391582A-BC03-4327-87AE-9DAC54BA424DQ33921169-B274EC9C-E89A-4B03-8ED6-9FE87878FF26Q34027672-8A43B0B9-CDDB-4201-B06B-032FB21E9C00Q34058336-961866C9-76AD-45D0-A35F-4E98BFC14B9DQ34149531-62FFB1EF-D03B-40A2-A87A-FA8F95A6FEFDQ34173725-3CEAB3D0-86DA-46D5-9662-64A82CEBE159Q34186425-28847ACC-8996-4711-9F58-3DE0886109F6Q34425240-6BAB0D1E-C945-4263-A97D-25454F126C22Q34491580-C97965E6-DEC7-4E62-89EA-E77D1AEE57E2Q34585477-34421CC6-D562-487C-AA47-BB7788C399ADQ34616847-8F82FE88-F62E-4ACC-A97D-940BEC453AD0Q34646193-19AAFF3E-CF53-4F86-A18E-14A2041070CAQ34982676-FE724468-F3B5-4EDB-AB72-B234FE3BFE28
P2860
Identification of the major intestinal fatty acid transport protein
description
1999 nî lūn-bûn
@nan
1999 թուականի Սեպտեմբերին հրատարակուած գիտական յօդուած
@hyw
1999 թվականի սեպտեմբերին հրատարակված գիտական հոդված
@hy
1999年の論文
@ja
1999年論文
@yue
1999年論文
@zh-hant
1999年論文
@zh-hk
1999年論文
@zh-mo
1999年論文
@zh-tw
1999年论文
@wuu
name
Identification of the major intestinal fatty acid transport protein
@ast
Identification of the major intestinal fatty acid transport protein
@en
Identification of the major intestinal fatty acid transport protein
@nl
type
label
Identification of the major intestinal fatty acid transport protein
@ast
Identification of the major intestinal fatty acid transport protein
@en
Identification of the major intestinal fatty acid transport protein
@nl
prefLabel
Identification of the major intestinal fatty acid transport protein
@ast
Identification of the major intestinal fatty acid transport protein
@en
Identification of the major intestinal fatty acid transport protein
@nl
P2093
P3181
P1433
P1476
Identification of the major intestinal fatty acid transport protein
@en
P2093
A Raimondi
D J Hirsch
L A Tartaglia
R E Gimeno
S Punreddy
P304
P3181
P356
10.1016/S1097-2765(00)80332-9
P407
P577
1999-09-01T00:00:00Z