Coordinated reduction of genes of oxidative metabolism in humans with insulin resistance and diabetes: Potential role of PGC1 and NRF1
about
Common inherited variation in mitochondrial genes is not enriched for associations with type 2 diabetes or related glycemic traitsPeroxisome proliferator-activated receptor γ coactivator 1 (PGC-1)- and estrogen-related receptor (ERR)-induced regulator in muscle 1 (Perm1) is a tissue-specific regulator of oxidative capacity in skeletal muscle cellsSuppression of oxidative metabolism and mitochondrial biogenesis by the transcriptional corepressor RIP140 in mouse adipocytes.Gene set enrichment analysis: a knowledge-based approach for interpreting genome-wide expression profiles.PGC-1 coactivators: inducible regulators of energy metabolism in health and diseaseMitofusins 1/2 and ERRalpha expression are increased in human skeletal muscle after physical exerciseGenes and pathophysiology of type 2 diabetes: more than just the Randle cycle all over againMultiple environmental and genetic factors influence skeletal muscle PGC-1alpha and PGC-1beta gene expression in twinsErralpha and Gabpa/b specify PGC-1alpha-dependent oxidative phosphorylation gene expression that is altered in diabetic muscleThe estrogen-related receptor alpha (ERRalpha) functions in PPARgamma coactivator 1alpha (PGC-1alpha)-induced mitochondrial biogenesisSuppression of mitochondrial respiration through recruitment of p160 myb binding protein to PGC-1alpha: modulation by p38 MAPKMolecular mechanisms of insulin resistance in humans and their potential links with mitochondrial dysfunctionmTOR signaling in growth control and diseaseMajor urinary protein-1 increases energy expenditure and improves glucose intolerance through enhancing mitochondrial function in skeletal muscle of diabetic miceAntioxidants prevent health-promoting effects of physical exercise in humansEpigenetic regulation of PPARGC1A in human type 2 diabetic islets and effect on insulin secretionEpigenetics: a molecular link between environmental factors and type 2 diabetesEvidence of an association between genetic variation of the coactivator PGC-1beta and obesityTransducer of regulated CREB-binding proteins (TORCs) induce PGC-1alpha transcription and mitochondrial biogenesis in muscle cellsSCFCdc4 acts antagonistically to the PGC-1alpha transcriptional coactivator by targeting it for ubiquitin-mediated proteolysisInsulin protects islets from apoptosis via Pdx1 and specific changes in the human islet proteomeThe muscle-specific ubiquitin ligase atrogin-1/MAFbx mediates statin-induced muscle toxicityLinking disease-associated genes to regulatory networks via promoter organizationNew methods for finding disease-susceptibility genes: impact and potentialGenetics and functional genomics of type 2 diabetes mellitusPGC-1alpha deficiency causes multi-system energy metabolic derangements: muscle dysfunction, abnormal weight control and hepatic steatosisDecreased insulin-stimulated ATP synthesis and phosphate transport in muscle of insulin-resistant offspring of type 2 diabetic parentsMitochondrial Quality Control and Muscle Mass MaintenanceComplex Coordination of Cell Plasticity by a PGC-1α-controlled Transcriptional Network in Skeletal MuscleThe Role of Organelle Stresses in Diabetes Mellitus and Obesity: Implication for TreatmentDevelopmental perturbation induced by maternal asthma during pregnancy: the short- and long-term impacts on offspringEpigenetics: the missing link to understanding β-cell dysfunction in the pathogenesis of type 2 diabetesRedox regulation of mitochondrial biogenesisImplications of mitochondrial uncoupling in skeletal muscle in the development and treatment of obesityParkinson's disease, insulin resistance and novel agents of neuroprotectionNew insights into PGC-1 coactivators: redefining their role in the regulation of mitochondrial function and beyondRole of lipotoxicity in endothelial dysfunctionAcylcarnitines: reflecting or inflicting insulin resistance?Exercise as an intervention to improve metabolic outcomes after intrauterine growth restrictionRosiglitazone-induced mitochondrial biogenesis in white adipose tissue is independent of peroxisome proliferator-activated receptor γ coactivator-1α
P2860
Q21563350-A2A3B3E3-D2D5-455D-91D2-76D8392246E4Q24307610-2035AD8A-D194-42BF-A981-DAFD0D101CB5Q24535742-EADC1AB3-55FB-4947-9C39-11BD4C068571Q24536351-03278A24-24E1-45F8-924F-505FCAD9853DQ24541524-6C2C4CA5-75E2-48B2-B102-6F0F7E523379Q24546790-125C08F2-4CF9-4992-91B8-77008045E852Q24561554-E068BB35-1CB8-44C3-AC72-387C91772CA3Q24561604-592BDEA3-0A47-4361-BC39-59869BB9B6FDQ24564824-7952C293-5969-413B-B41D-8993DA613385Q24564869-23CC1053-867E-443D-915B-C7A5B3751AD8Q24598689-7F08EDFA-8FA3-4BEB-BF36-4FDBCA6DC5FBQ24632414-E0CC224F-ECCE-4609-9D4B-ED891900BA09Q24634174-C2AC6BFF-9C13-44C0-8F38-27C5B62696BDQ24642546-168948DA-8C8A-4EDB-8E91-157A7781C30CQ24646248-5FCAB4B0-ACB0-4B59-A44E-989022689D78Q24650896-2A8D03BA-8496-45F6-8817-908E98BDCCDFQ24652830-FFD764B9-6125-4AAA-B001-674A303AB0FEQ24673585-9B046E1E-5895-48A2-8295-BFFED19F7410Q24676703-DAB0C1BB-40C1-4986-90F7-97ADF2175C33Q24677035-A873780D-2E72-4105-811F-E846EAE6DDC9Q24677071-26093E50-E6E4-4B2E-B37B-4D2F1A875ADAQ24681859-9EED4A89-A8EB-434F-9D7C-E3F04C05922FQ24791009-99AD1FC8-2D44-4985-BA74-1FC206FE8E31Q24792574-A029340D-19F5-4F8E-B87C-FAD298BB2350Q24793570-38A09728-C4B1-4879-BA09-BAE1D5C3821BQ24798075-7E6C35AC-BACE-4628-B0A9-BDB9EFE3C98EQ24812499-D408F3C1-E922-41FA-A6C9-4A141B455837Q26770420-010149B0-4431-427D-81E6-7E7002067618Q26776167-CB3F3C84-2880-4757-B841-D5E6E472A9CBQ26776377-49F2DC3A-139A-4A66-8CB3-2E5CAB13C31FQ26822770-A4CA9AF5-DE6C-4D2B-81DD-5E62F9CFFCC4Q26823288-2FADE07B-A17D-4F36-9C5E-B62E197BCBBCQ26849213-FA0A814B-09E0-477E-9293-1330F232A2CCQ26852995-1BD2624C-DCFF-46A4-B3E7-3CCA69A475B6Q26853311-E3963EA5-9098-48C2-97F8-161BA40C5402Q26996576-1F49DDA6-BE9F-4AE1-95EA-746A19E40B49Q27000731-6B3C6298-FA67-4CE1-8833-728DD322584AQ27004603-46E85348-F27D-42B9-A264-93350F04C444Q27021167-EBE5522A-E828-4679-90CC-D50208E2BB1EQ27314648-F0A895CE-B659-4527-A56F-73172C903C2B
P2860
Coordinated reduction of genes of oxidative metabolism in humans with insulin resistance and diabetes: Potential role of PGC1 and NRF1
description
2003 nî lūn-bûn
@nan
2003 թուականի Յուլիսին հրատարակուած գիտական յօդուած
@hyw
2003 թվականի հուլիսին հրատարակված գիտական հոդված
@hy
2003年の論文
@ja
2003年論文
@yue
2003年論文
@zh-hant
2003年論文
@zh-hk
2003年論文
@zh-mo
2003年論文
@zh-tw
2003年论文
@wuu
name
Coordinated reduction of genes ...... otential role of PGC1 and NRF1
@ast
Coordinated reduction of genes ...... otential role of PGC1 and NRF1
@en
Coordinated reduction of genes ...... otential role of PGC1 and NRF1
@nl
type
label
Coordinated reduction of genes ...... otential role of PGC1 and NRF1
@ast
Coordinated reduction of genes ...... otential role of PGC1 and NRF1
@en
Coordinated reduction of genes ...... otential role of PGC1 and NRF1
@nl
prefLabel
Coordinated reduction of genes ...... otential role of PGC1 and NRF1
@ast
Coordinated reduction of genes ...... otential role of PGC1 and NRF1
@en
Coordinated reduction of genes ...... otential role of PGC1 and NRF1
@nl
P2093
P2860
P50
P3181
P356
P1476
Coordinated reduction of genes ...... otential role of PGC1 and NRF1
@en
P2093
Allison B Goldfine
Edward Mun
Edwin J Landaker
Jean Finlayson
Kenneth Cusi
Lawrence J Mandarino
Mary Elizabeth Patti
Maura Costello
Rachele Berria
Robert Saccone
P2860
P304
P3181
P356
10.1073/PNAS.1032913100
P407
P577
2003-07-08T00:00:00Z