Intrinsic heterogeneity in adipose tissue of fat-specific insulin receptor knock-out mice is associated with differences in patterns of gene expression.
about
Piceatannol, natural polyphenolic stilbene, inhibits adipogenesis via modulation of mitotic clonal expansion and insulin receptor-dependent insulin signaling in early phase of differentiationMechanisms and metabolic implications of regional differences among fat depotsInverse relation between FASN expression in human adipose tissue and the insulin resistance levelDifferential Expression of PPARγ, FASN, and ACADM Genes in Various Adipose Tissues and Longissimus dorsi Muscle from Yanbian Yellow Cattle and Yan Yellow Cattle.Single-cell analysis of insulin-regulated fatty acid uptake in adipocytesEvidence for a role of developmental genes in the origin of obesity and body fat distributionCell-autonomous heterogeneity of nutrient uptake in white adipose tissue of rhesus macaques.Human adipose cells in vitro are either refractory or responsive to insulin, reflecting host metabolic stateThe differential role of Hif1β/Arnt and the hypoxic response in adipose function, fibrosis, and inflammation.Ageing and metabolism: drug discovery opportunities.Mitigation of isolation-associated adipocyte interleukin-6 secretion following rapid dissociation of adipose tissue.Specific protein kinase C isoforms as transducers and modulators of insulin signalingGenome-wide approaches to understanding human ageing.Longevity in mice: is stress resistance a common factor?Oxidative stress activates a specific p53 transcriptional response that regulates cellular senescence and aging.Decreased expression of adipogenic genes in obese subjects with type 2 diabetes.Adipocyte lineages: tracing back the origins of fat.Guardian of corpulence: a hypothesis on p53 signaling in the fat cell.TonEBP suppresses adipocyte differentiation via modulation of early signaling in 3T3-L1 cells.Control of lipid storage and cell size between adipocytes by vesicle-associated glycosylphosphatidylinositol-anchored proteins.Use of mouse models in studying type 2 diabetes mellitus.Mouse models and type 2 diabetes: translational opportunities.Adipocyte hypertrophy-hyperplasia balance contributes to weight loss after bariatric surgery.A Review of Cell-Based Strategies for Soft Tissue Reconstruction.Acute Treatment With XMetA Activates Hepatic Insulin Receptors and Lowers Blood Glucose in Normal Mice.Growth Hormone's Effect on Adipose Tissue: Quality versus Quantity.Hirsutenone Directly Targets PI3K and ERK to Inhibit Adipogenesis in 3T3-L1 Preadipocytes.Alterations in adipose tissue during critical illness: An adaptive and protective response?Role of insulin action and cell size on protein expression patterns in adipocytes.Sco2 deficient mice develop increased adiposity and insulin resistance.Determining residual adipose tissue characteristics with MRI in patients with various subtypes of lipodystrophy.The Third International Symposium on Obesity and Hypertension ISOH'03: 'Genetics and Molecular Mechanisms' (October 23-25, 2003, Berlin Germany).
P2860
Q24600155-F4485CFD-C1F5-4DA5-8332-804E0EF86C99Q27004113-6C57ED1F-AD4D-4AE8-9F67-BE5128ED938CQ33645282-B565E31A-14EA-4387-87F1-AFAD1D9B409BQ33885474-894CF71B-A236-4B7B-92C7-2C8D9C159D8FQ34149544-3B82CE73-072A-4E9D-81DB-8DCC88885A1FQ34597959-334EA345-98C7-48E6-8495-6859203A30C4Q34745145-42DDE212-512C-4E21-859F-3D7094E615BFQ35175600-523D5197-8CD1-427C-AE1B-8FCB009866CEQ35499600-960B1BBF-20C9-482F-9049-2CE6679BA92FQ36174012-BF8105C4-DC99-4780-AF23-34857A8DE3CFQ36387284-DAC13E47-7B08-4CBB-A616-B73C759B34FAQ36517697-D6DB9E3B-47E8-4D9A-80A1-93F6E8DCEC4FQ36539680-3666AB78-1AA0-4E54-A7EF-7524F7392E50Q36766862-4DFDA4DD-A0A3-4013-996C-1A03CE74CDD8Q37005075-9D05AB10-3A44-4A1B-8DB0-4C599EF7B465Q37181339-FA2876DB-97AC-4BFB-B460-95631F8C2858Q37248700-BDB0B997-5EFD-4F10-9F94-2B4B9F532218Q37352957-CC35289F-6727-43A7-BFB9-1893AA23A568Q37409987-041BBF76-1C2D-4D60-B67C-FAC312BCB55EQ37794985-13AB447E-3C3C-4405-9F47-34943E7A25F8Q37826464-74AC23F8-0DC1-4E17-8FAE-7783FD9B045EQ37895535-7F645B15-DDEC-4C98-8B2E-BEAC316DB994Q38829061-17802794-8CEA-4DD5-A911-D1267819782BQ39217163-7E0D4071-B8C2-41E4-B664-955174C1CE46Q41161575-DD109BD5-FF88-45F4-AFB1-80AF75A29657Q41573026-0CC5B682-1020-4487-85F3-30548BAF8D65Q42829544-67C3991D-A09A-4704-9744-2A5A3796302DQ43074167-1BD61C8B-D63B-487F-99AF-D6BC22F3B621Q44886648-E5ADAA96-0361-4B34-B962-1636818BD075Q47913982-12A3062D-17AD-46CD-8933-E43AB1D4293FQ49956403-E0F42F86-8A77-48F3-B00B-11F2B05785B1Q52939180-89D84F95-8455-4ED9-8AE5-8F8DAAE15FD1
P2860
Intrinsic heterogeneity in adipose tissue of fat-specific insulin receptor knock-out mice is associated with differences in patterns of gene expression.
description
2004 nî lūn-bûn
@nan
2004年の論文
@ja
2004年学术文章
@wuu
2004年学术文章
@zh-cn
2004年学术文章
@zh-hans
2004年学术文章
@zh-my
2004年学术文章
@zh-sg
2004年學術文章
@yue
2004年學術文章
@zh
2004年學術文章
@zh-hant
name
Intrinsic heterogeneity in adi ...... n patterns of gene expression.
@en
type
label
Intrinsic heterogeneity in adi ...... n patterns of gene expression.
@en
prefLabel
Intrinsic heterogeneity in adi ...... n patterns of gene expression.
@en
P2093
P2860
P356
P1476
Intrinsic heterogeneity in adi ...... n patterns of gene expression.
@en
P2093
Barbara B Kahn
Mary-Elizabeth Patti
Stephane Gesta
P2860
P304
31891-31901
P356
10.1074/JBC.M404569200
P407
P577
2004-05-06T00:00:00Z