Adipocyte NCoR knockout decreases PPARγ phosphorylation and enhances PPARγ activity and insulin sensitivity
about
Obesity and cancer, a case for insulin signalingMetabolic reprogramming by class I and II histone deacetylasesTranscriptional repression of mitochondrial function in aging: a novel role for the silencing mediator of retinoid and thyroid hormone receptors co-repressorInflammation, obesity, and thrombosisModulation of the transcriptional activity of peroxisome proliferator-activated receptor gamma by protein-protein interactions and post-translational modificationsAmorfrutins are potent antidiabetic dietary natural productsIdentification of the antibiotic ionomycin as an unexpected peroxisome proliferator-activated receptor γ (PPARγ) ligand with a unique binding mode and effective glucose-lowering activity in a mouse model of diabetesUsing gene-network landscape to dissect genotype effects of TCF7L2 genetic variant on diabetes and cardiovascular riskGenome-wide map of nuclear protein degradation shows NCoR1 turnover as a key to mitochondrial gene regulationGlucagon regulates gluconeogenesis through KAT2B- and WDR5-mediated epigenetic effectsG protein-coupled receptor 21 deletion improves insulin sensitivity in diet-induced obese miceCDK5-induced p-PPARγ(Ser 112) downregulates GFAP via PPREs in developing rat brain: effect of metal mixture and troglitazone in astrocytes.Thyroid hormone regulation of metabolismLow birth weight male guinea pig offspring display increased visceral adiposity in early adulthood.Adipose tissue NAD+ biology in obesity and insulin resistance: From mechanism to therapyTranscriptional coregulators: fine-tuning metabolism.Increased adipocyte O2 consumption triggers HIF-1α, causing inflammation and insulin resistance in obesity.NCoR repression of LXRs restricts macrophage biosynthesis of insulin-sensitizing omega 3 fatty acids.The PPARα-FGF21 hormone axis contributes to metabolic regulation by the hepatic JNK signaling pathway.Linking epigenetics to lipid metabolism: focus on histone deacetylases.Thiazolidinediones and the promise of insulin sensitization in type 2 diabetes.The serine/threonine phosphatase PPM1B (PP2Cβ) selectively modulates PPARγ activity.Thrap3 docks on phosphoserine 273 of PPARγ and controls diabetic gene programming.Alteration of NCoR corepressor splicing in mice causes increased body weight and hepatosteatosis without glucose intolerance.Revisiting PPARγ as a target for the treatment of metabolic disordersNCoR1 and SMRT play unique roles in thyroid hormone action in vivoARTD1-induced poly-ADP-ribose formation enhances PPARγ ligand binding and co-factor exchangeEnergizing Genetics and Epi-genetics: Role in the Regulation of Mitochondrial Function.α/β-hydrolase domain containing protein 15 (ABHD15)--an adipogenic protein protecting from apoptosis.The optimal corepressor function of nuclear receptor corepressor (NCoR) for peroxisome proliferator-activated receptor γ requires G protein pathway suppressor 2.Brown fat determination and development from muscle precursor cells by novel action of bone morphogenetic protein 6Allele compensation in tip60+/- mice rescues white adipose tissue function in vivo.P65 inactivation in adipocytes and macrophages attenuates adipose inflammatory response in lean but not in obese mice.Activation of AMPKα2 in adipocytes is essential for nicotine-induced insulin resistance in vivo.S-nitrosoglutathione reductase-dependent PPARγ denitrosylation participates in MSC-derived adipogenesis and osteogenesisAdipocyte SIRT1 knockout promotes PPARγ activity, adipogenesis and insulin sensitivity in chronic-HFD and obesity.Controlling a master switch of adipocyte development and insulin sensitivity: covalent modifications of PPARγNaturally improving insulin resistance with amorfrutins.Integrative genomic analysis in K562 chronic myelogenous leukemia cells reveals that proximal NCOR1 binding positively regulates genes that govern erythroid differentiation and Imatinib sensitivity.Ubc9 Impairs Activation of the Brown Fat Energy Metabolism Program in Human White Adipocytes.
P2860
Q26771452-C38A4FEE-7FC8-4253-A30A-F8E8DADFD5EFQ26860745-AF3911D6-A0F6-41A1-847C-01C71DAD034FQ26992046-DFD219C4-813C-4DDE-80EC-CE324853D3ABQ27008937-6A0435E5-DB01-4A6A-AF6A-8C29EEDB0384Q27015807-7472CEDE-3EDF-4B41-A0FC-D4951B9CD339Q27678567-478F27CB-14BF-4834-98AD-B357215D677BQ27683508-2882F869-DB00-49BF-9637-3461C415990CQ28272656-5DA7F05C-7094-4A4C-8E59-0C59CB6E8375Q28506755-DF02EB94-B7F9-47E2-A511-81385FDF7F45Q28507540-7C4CA779-2B29-47AB-8F4E-90FAD29202C3Q28589449-52453D3E-B51F-4117-84C2-10B918B294ECQ33695158-D6883B80-B16D-41D3-B075-3D21C7B99578Q33707954-AE307952-22C3-4F81-AEA3-23BF7E386163Q33753235-313C9C3D-05E2-41D2-9CA4-40F92324AD11Q33791807-32B430F3-D100-4A22-94CB-176169BD91B5Q33838571-15AE7D51-5955-4986-BC81-313C18544640Q33965673-19ECB240-12E2-4ECD-979F-D905426DC69BQ34040157-6027AB42-2084-429D-8427-F1A7CE8C43ACQ34143232-04964716-5D37-458C-8640-3A491FB3AAB8Q34308013-5F562255-FC95-4B90-A465-D5581B37DFD9Q34315432-D57B06CC-4DEC-4017-A6B0-A7EA9381E281Q34322660-1AF56091-F78D-4E41-BB08-C4E67906F3DBQ34430709-4917AA87-53A2-4267-BCD4-194136AA085CQ34592738-21EB229C-255F-48C4-8B1B-8125ABE0177CQ34798213-6D2DF837-ED39-477C-9215-23C02D3F888FQ34846614-33A69AC4-E1A7-4CB4-BA75-034F8B3E2FA4Q34883050-55BF46D4-E2D0-4340-B162-8782BA490B4BQ35029938-2B22AFC7-518E-4366-9690-9D4C4612D0A3Q35043718-4C59A8FB-65EE-4093-9341-AFB920527F92Q35055598-4F747702-358D-4C67-9860-12CCC3F300F4Q35128360-92D0C232-5B21-424E-9444-090E4DCAD54CQ35175402-1ED0AC11-E2AC-4E9A-9602-597E68CABF9AQ35178548-CE54CD8E-E8B0-42A2-8358-F192DBB35CA8Q35329076-04792D6C-1307-4964-A1F7-9F4204E359EBQ35408904-C718BF83-B550-4B88-AAD9-9F2AE7D186D0Q35573373-1929D607-EAE1-447A-9A6E-247DF012BA96Q35969865-9AFB0E6F-BA91-4D14-8771-7C22552F7526Q35983091-10423CE8-0D97-44EC-97CC-F03B85394003Q36002405-0F202DD1-2E12-49F9-882B-983F3607450BQ36004096-932967AD-D6E9-44C3-A9B6-C62A3D3177C1
P2860
Adipocyte NCoR knockout decreases PPARγ phosphorylation and enhances PPARγ activity and insulin sensitivity
description
2011 nî lūn-bûn
@nan
2011 թուականի Նոյեմբերին հրատարակուած գիտական յօդուած
@hyw
2011 թվականի նոյեմբերին հրատարակված գիտական հոդված
@hy
2011年の論文
@ja
2011年論文
@yue
2011年論文
@zh-hant
2011年論文
@zh-hk
2011年論文
@zh-mo
2011年論文
@zh-tw
2011年论文
@wuu
name
Adipocyte NCoR knockout decrea ...... tivity and insulin sensitivity
@ast
Adipocyte NCoR knockout decrea ...... tivity and insulin sensitivity
@en
Adipocyte NCoR knockout decrea ...... tivity and insulin sensitivity
@en-gb
Adipocyte NCoR knockout decrea ...... tivity and insulin sensitivity
@nl
type
label
Adipocyte NCoR knockout decrea ...... tivity and insulin sensitivity
@ast
Adipocyte NCoR knockout decrea ...... tivity and insulin sensitivity
@en
Adipocyte NCoR knockout decrea ...... tivity and insulin sensitivity
@en-gb
Adipocyte NCoR knockout decrea ...... tivity and insulin sensitivity
@nl
prefLabel
Adipocyte NCoR knockout decrea ...... tivity and insulin sensitivity
@ast
Adipocyte NCoR knockout decrea ...... tivity and insulin sensitivity
@en
Adipocyte NCoR knockout decrea ...... tivity and insulin sensitivity
@en-gb
Adipocyte NCoR knockout decrea ...... tivity and insulin sensitivity
@nl
P2093
P2860
P3181
P1433
P1476
Adipocyte NCoR knockout decrea ...... tivity and insulin sensitivity
@en
P2093
DaYoung Oh
Dorothy D Sears
Gautam Bandyopadhyay
Hiroyasu Yamamoto
Jachelle M Ofrecio
Jianfeng Xu
Miriam Scadeng
Pingping Li
P2860
P304
P3181
P356
10.1016/J.CELL.2011.09.050
P407
P577
2011-11-11T00:00:00Z