Defect in peroxisome proliferator-activated receptor alpha-inducible fatty acid oxidation determines the severity of hepatic steatosis in response to fasting.
about
Comparative analysis of gene regulation by the transcription factor PPARalpha between mouse and humanIntegrated physiology and systems biology of PPARαMoro orange juice prevents fatty liver in miceEndocrine fibroblast growth factors 15/19 and 21: from feast to famine'Micro-managers' of hepatic lipid metabolism and NAFLDLiver X receptor and peroxisome proliferator-activated receptor as integrators of lipid homeostasis and immunityTranscriptional regulation of fibroblast growth factor 21 expressionRegulation of Ketone Body Metabolism and the Role of PPARαA phytol-enriched diet induces changes in fatty acid metabolism in mice both via PPARalpha-dependent and -independent pathwaysPPARalpha governs glycerol metabolismSox17 regulates liver lipid metabolism and adaptation to fastingIdentification of modulators of the nuclear receptor peroxisome proliferator-activated receptor α (PPARα) in a mouse liver gene expression compendiumPGC-1beta in the regulation of hepatic glucose and energy metabolismThe impact of PPARα activation on whole genome gene expression in human precision cut liver slicesThe peroxisome: still a mysterious organelleTissue-specific expression of monocarboxylate transporters during fasting in mice.Peroxisome proliferator-activated receptor-alpha gene level differently affects lipid metabolism and inflammation in apolipoprotein E2 knock-in micePeroxisome proliferator activated receptor-gamma in pathogenesis of experimental fatty liver disease.Nutrient-gene interactions: a single nutrient and hundreds of target genes.Induction of overlapping genes by fasting and a peroxisome proliferator in pigs: evidence of functional PPARalpha in nonproliferating species.Transcriptome profiling of the feeding-to-fasting transition in chicken liver.Ketone Body Therapy Protects From Lipotoxicity and Acute Liver Failure Upon Pparα DeficiencyRegulation of glucose homeostasis and lipid metabolism by PPP1R3G-mediated hepatic glycogenesisLiver fatty acid binding protein gene ablation enhances age-dependent weight gain in male mice.PPARalpha: energy combustion, hypolipidemia, inflammation and cancerMolecular pathways in non-alcoholic fatty liver disease.Hsp90 modulates PPARγ activity in a mouse model of nonalcoholic fatty liver disease.Leukotriene B4 is a physiologically relevant endogenous peroxisome proliferator-activated receptor-alpha agonist.Maternal obesity during gestation impairs fatty acid oxidation and mitochondrial SIRT3 expression in rat offspring at weaningHow wasting is saving: weight loss at altitude might result from an evolutionary adaptation.Coactivators in PPAR-Regulated Gene ExpressionLiver fatty acid-binding protein and obesity.Nonalcoholic Fatty liver disease: pathogenesis and therapeutics from a mitochondria-centric perspective.Nonalcoholic steatosis and steatohepatitis. III. Peroxisomal beta-oxidation, PPAR alpha, and steatohepatitis.Peroxisomal localization and circadian regulation of ubiquitin-specific protease 2.Lipid metabolism and liver inflammation. II. Fatty liver disease and fatty acid oxidation.Fibroblast growth factor 21 is a metabolic regulator that plays a role in the adaptation to ketosis.Proline- and acidic amino acid-rich basic leucine zipper proteins modulate peroxisome proliferator-activated receptor alpha (PPARalpha) activity.Activation of peroxisome proliferator-activated receptor-alpha stimulates both differentiation and fatty acid oxidation in adipocytesEffects of fatty acids on gene expression: role of peroxisome proliferator-activated receptor alpha, liver X receptor alpha and sterol regulatory element-binding protein-1c.
P2860
Q21562369-609E57DE-E5D1-427E-8A99-90F27ED77041Q24564130-3D283549-62AC-4273-9DFA-16D9C8000BEFQ24622681-EF78E9DB-8877-4C16-B648-57DD4D732865Q24629260-65AFD4BA-D40F-4780-ACC3-246DC660143BQ26801228-8A269198-0A1D-4F91-9F3D-8928A6F157F8Q27013011-C23BA7EF-3D8C-42D9-9A0A-839E34CC5EEEQ27024818-EDDAA472-5DF2-4980-86F1-1E12758E0FD6Q28073224-B349F7F1-9A26-42B7-972D-C65C3990CEC8Q28302844-F7CE9994-C325-4384-A3EB-ED3885BFA8DBQ28507952-324A4422-15EE-4B85-AC78-C11ECE336AB8Q28542411-ABC1D906-7937-44EB-9251-2EF8F491066DQ28543435-E84E7AA1-227F-4E52-B8DC-7E261F66ABA9Q28566796-5A5E93D8-B2A7-4B2A-B7E9-C9E50E6B01DFQ28606579-6E3E2874-284C-4702-BE9A-B48E68C0BE1FQ28754736-6322FD2E-F64B-411E-9955-DE3D9D9600CAQ30316982-7D422D2E-65F4-4E08-9A0F-2A31578BEDB1Q30513404-0117881B-452D-407F-B23B-398E622F19D7Q33202380-2D950EE2-E71B-44ED-AD58-6834AB60A0B5Q33206085-76604DEC-64F4-41A7-9BE6-B0EBD17FC3E6Q33210856-FFDECAD1-5991-4400-8246-31547A55C771Q33394022-ABF7E90A-984A-41E1-AB10-8186AAA591A5Q33631584-A40F053A-6468-4A3F-847D-D18B57AE91CAQ33663648-DC617039-3C49-4F31-B333-984C3EF80E0EQ33714166-2961EE13-7EB6-4AE9-AA76-0AD3166C4AB8Q33805104-77136A13-6D96-4D2F-B25E-45F54C442BE3Q33890230-4AB37517-E7DA-4C8C-8C41-425713FD1DF5Q33945101-E13DDF80-D6CF-468E-A413-E2502543326AQ33991108-96C42320-4ADC-4B9E-BBF7-CE925BD0E35BQ34013814-E44B9934-03EF-4D9D-B948-AC788719AEBCQ34086586-93C570E3-33BA-4D88-80DE-7BFA96537E17Q34089711-44F13546-B7E0-4605-8602-04F17FA925F9Q34120131-97F954F2-AECB-4C6C-B0DC-FBEF3790F811Q34412650-E68BB448-D600-4910-97F8-BBC4ED28C165Q34436747-5A03AAFB-F6E2-4054-8DB4-26617998B2BBQ34469602-A94B8378-08B8-4E5C-B653-418BCBB2A9D1Q34512108-004C5C50-9CDD-4FCF-ABDF-0CA6B0ECA965Q34674492-0BE63215-BD05-420D-AA10-D7EA05F43A3DQ34720504-F21B48CE-624E-45C9-A9D7-96882ED352F2Q34776235-AB79F8BB-BED7-4BCD-A524-6D3F72755FD9Q34855807-AC03D292-25FD-4629-8208-985EE9830167
P2860
Defect in peroxisome proliferator-activated receptor alpha-inducible fatty acid oxidation determines the severity of hepatic steatosis in response to fasting.
description
2000 nî lūn-bûn
@nan
2000年の論文
@ja
2000年学术文章
@wuu
2000年学术文章
@zh-cn
2000年学术文章
@zh-hans
2000年学术文章
@zh-my
2000年学术文章
@zh-sg
2000年學術文章
@yue
2000年學術文章
@zh
2000年學術文章
@zh-hant
name
Defect in peroxisome prolifera ...... atosis in response to fasting.
@en
Defect in peroxisome prolifera ...... atosis in response to fasting.
@nl
type
label
Defect in peroxisome prolifera ...... atosis in response to fasting.
@en
Defect in peroxisome prolifera ...... atosis in response to fasting.
@nl
prefLabel
Defect in peroxisome prolifera ...... atosis in response to fasting.
@en
Defect in peroxisome prolifera ...... atosis in response to fasting.
@nl
P2093
P2860
P356
P1476
Defect in peroxisome prolifera ...... atosis in response to fasting.
@en
P2093
P2860
P304
28918-28928
P356
10.1074/JBC.M910350199
P407
P577
2000-09-01T00:00:00Z