| scholarly article | Q13442814 |
| P356 | DOI | 10.1038/NM.3056 |
| P8608 | Fatcat ID | release_bhp2k2vjevexjgwt5oeivavwu4 |
| P932 | PMC publication ID | 3567215 |
| P698 | PubMed publication ID | 23291629 |
| P5875 | ResearchGate publication ID | 234067610 |
| P50 | author | Matthias Blüher | Q15431947 |
| Stephen R Farmer | Q37381270 | ||
| Dominique Langin | Q41580270 | ||
| Cristina Mallol | Q42409757 | ||
| Alessandro Doria | Q54241891 | ||
| P2093 | author name string | Chong Wee Liew | |
| Jeremie Boucher | |||
| Rohit N Kulkarni | |||
| Jiang Hu | |||
| Ho-Jin Koh | |||
| Cecile Vernochet | |||
| Marc K Hellerstein | |||
| Dan Kawamori | |||
| Yu-Hua Tseng | |||
| Jit Kong Cheong | |||
| Stephen I-Hong Hsu | |||
| Kristy Townsend | |||
| Laurie Goodyear | |||
| P2860 | cites work | Mechanisms of nutritional and hormonal regulation of lipogenesis | Q24522517 |
| TRIP-Br: a novel family of PHD zinc finger- and bromodomain-interacting proteins that regulate the transcriptional activity of E2F-1/DP-1 | Q24535032 | ||
| Targeting histone deacetylase complexes via KRAB-zinc finger proteins: the PHD and bromodomains of KAP-1 form a cooperative unit that recruits a novel isoform of the Mi-2alpha subunit of NuRD | Q24602561 | ||
| Obesity and insulin resistance | Q24607078 | ||
| AdPLA ablation increases lipolysis and prevents obesity induced by high-fat feeding or leptin deficiency | Q24629585 | ||
| A novel member of the RING finger family, KRIP-1, associates with the KRAB-A transcriptional repressor domain of zinc finger proteins | Q24654804 | ||
| The protein kinase IKKepsilon regulates energy balance in obese mice | Q24658201 | ||
| CellProfiler: image analysis software for identifying and quantifying cell phenotypes | Q24676898 | ||
| PGC-1alpha deficiency causes multi-system energy metabolic derangements: muscle dysfunction, abnormal weight control and hepatic steatosis | Q24798075 | ||
| A simple method for the isolation and purification of total lipides from animal tissues | Q25939009 | ||
| A cold-inducible coactivator of nuclear receptors linked to adaptive thermogenesis | Q27860471 | ||
| Inflammation and metabolic disorders | Q27860923 | ||
| Biological control through regulated transcriptional coactivators | Q28287472 | ||
| Advanced mammalian gene transfer: high titre retroviral vectors with multiple drug selection markers and a complementary helper-free packaging cell line | Q29547239 | ||
| Adipocyte differentiation from the inside out | Q29615690 | ||
| Efficient design and assembly of custom TALEN and other TAL effector-based constructs for DNA targeting | Q29616145 | ||
| Sensors and signals: a coactivator/corepressor/epigenetic code for integrating signal-dependent programs of transcriptional response | Q29616508 | ||
| Peroxisome-Proliferator-Activated Receptor δ Activates Fat Metabolism to Prevent Obesity | Q29619156 | ||
| Adipocytes as regulators of energy balance and glucose homeostasis | Q29619448 | ||
| Regulation of lipolysis in adipocytes | Q33913668 | ||
| Molecular mechanisms regulating hormone-sensitive lipase and lipolysis | Q34001474 | ||
| Weight loss and lipolysis promote a dynamic immune response in murine adipose tissue | Q34162171 | ||
| Fat mobilization in adipose tissue is promoted by adipose triglyceride lipase | Q34369246 | ||
| Transcriptional regulation of metabolism | Q34511703 | ||
| Nuclear receptor coregulators and human disease | Q34645711 | ||
| Desnutrin/ATGL is regulated by AMPK and is required for a brown adipose phenotype | Q35140891 | ||
| Beta-Adrenergic receptors, diet-induced thermogenesis, and obesity | Q35146380 | ||
| Acute stimulation of white adipocyte respiration by PKA-induced lipolysis | Q35757162 | ||
| The many faces of PPARgamma | Q36344625 | ||
| Contribution of de novo fatty acid synthesis to hepatic steatosis and insulin resistance: lessons from genetically engineered mice | Q36479005 | ||
| Transcriptional coregulators in the control of energy homeostasis | Q36809431 | ||
| Insulin sensitivity: modulation by nutrients and inflammation | Q36848937 | ||
| Sex and depot differences in adipocyte insulin sensitivity and glucose metabolism | Q37141744 | ||
| Adipose overexpression of desnutrin promotes fatty acid use and attenuates diet-induced obesity | Q37141748 | ||
| TRIP-Br2 promotes oncogenesis in nude mice and is frequently overexpressed in multiple human tumors | Q37164834 | ||
| Lipolysis and lipid mobilization in human adipose tissue | Q37493107 | ||
| Improved glucose and lipid metabolism in genetically obese mice lacking aP2. | Q38308827 | ||
| Prediction of preadipocyte differentiation by gene expression reveals role of insulin receptor substrates and necdin | Q38326247 | ||
| The PHD type zinc finger is an integral part of the CBP acetyltransferase domain | Q39674188 | ||
| Overexpression of SERTAD3, a putative oncogene located within the 19q13 amplicon, induces E2F activity and promotes tumor growth | Q40177755 | ||
| Transcriptional and subcellular regulation of the TRIP-Br family | Q40201734 | ||
| CDCA4 is an E2F transcription factor family-induced nuclear factor that regulates E2F-dependent transcriptional activation and cell proliferation | Q40229927 | ||
| Multiparameter metabolic analysis reveals a close link between attenuated mitochondrial bioenergetic function and enhanced glycolysis dependency in human tumor cells | Q40232298 | ||
| Cell cycle regulators in the control of metabolism. | Q42050102 | ||
| Adipocyte lipases and defect of lipolysis in human obesity | Q42485763 | ||
| E2Fs regulate adipocyte differentiation | Q42812837 | ||
| Role of hormone-sensitive lipase in beta-adrenergic remodeling of white adipose tissue | Q42825407 | ||
| Relation between glycaemic control, hyperinsulinaemia and plasma concentrations of soluble adhesion molecules in patients with impaired glucose tolerance or Type II diabetes | Q43949023 | ||
| Human alpha 2A-adrenergic receptor gene expressed in transgenic mouse adipose tissue under the control of its regulatory elements. | Q44172038 | ||
| Measurement of TG synthesis and turnover in vivo by 2H2O incorporation into the glycerol moiety and application of MIDA. | Q44489677 | ||
| A novel, noninvasive method for the measurement of intestinal fat absorption | Q44965228 | ||
| Genetic determinants of energy expenditure and insulin resistance in diet-induced obesity in mice | Q45161342 | ||
| Cyclophilin a protects Peg3 from hypermethylation and inactive histone modification. | Q46036705 | ||
| Understanding adipocyte differentiation | Q46119331 | ||
| Plasma visfatin concentrations and fat depot-specific mRNA expression in humans | Q46722513 | ||
| A war on obesity, not the obese | Q48606186 | ||
| Plasma concentrations of a novel, adipose-specific protein, adiponectin, in type 2 diabetic patients. | Q51555890 | ||
| The TRIP-Br family of transcriptional regulators is essential for the execution of cyclin E-mediated cell cycle progression. | Q53621334 | ||
| Tissue-specific knockout of the insulin receptor in pancreatic beta cells creates an insulin secretory defect similar to that in type 2 diabetes. | Q54104864 | ||
| Decreased brown fat markedly enhances susceptibility to diet-induced obesity, diabetes, and hyperlipidemia. | Q54154717 | ||
| Expression of human hormone-sensitive lipase in white adipose tissue of transgenic mice increases lipase activity but does not enhance in vitro lipolysis | Q57420163 | ||
| Improved Glucose and Lipid Metabolism in Genetically Obese Mice Lacking aP2 | Q60192390 | ||
| Reduction of dietary obesity in aP2-Ucp transgenic mice: mechanism and adipose tissue morphology | Q71897706 | ||
| The role of leptin in human physiology | Q72989659 | ||
| P433 | issue | 2 | |
| P407 | language of work or name | English | Q1860 |
| P921 | main subject | obesity | Q12174 |
| thermogenesis | Q965695 | ||
| insulin resistance | Q1053470 | ||
| P304 | page(s) | 217-226 | |
| P577 | publication date | 2013-01-06 | |
| P1433 | published in | Nature Medicine | Q1633234 |
| P1476 | title | Ablation of TRIP-Br2, a regulator of fat lipolysis, thermogenesis and oxidative metabolism, prevents diet-induced obesity and insulin resistance | |
| P478 | volume | 19 |
| Q38834709 | A Consensus Network of Gene Regulatory Factors in the Human Frontal Lobe |
| Q49887404 | A Large-Scale Multi-ancestry Genome-wide Study Accounting for Smoking Behavior Identifies Multiple Significant Loci for Blood Pressure |
| Q35329076 | Activation of AMPKα2 in adipocytes is essential for nicotine-induced insulin resistance in vivo. |
| Q36093189 | Berardinelli-Seip congenital lipodystrophy 2 regulates adipocyte lipolysis, browning, and energy balance in adult animals. |
| Q37287047 | Brown adipose tissue growth and development |
| Q57462449 | CPEB2-dependent translation of long 3'-UTR Ucp1 mRNA promotes thermogenesis in brown adipose tissue |
| Q47296799 | Cdkn2a deficiency promotes adipose tissue browning |
| Q60920400 | Chlorogenic Acid Functions as a Novel Agonist of PPAR2 during the Differentiation of Mouse 3T3-L1 Preadipocytes |
| Q36887697 | Control of sleep by a network of cell cycle genes. |
| Q58919335 | Derailing the UPS of Protein Turnover in Cancer and other Human Diseases |
| Q47119185 | E2F1, a Novel Regulator of Metabolism |
| Q28590968 | IRF4 is a key thermogenic transcriptional partner of PGC-1α |
| Q40603686 | KSRP and MicroRNA 145 are negative regulators of lipolysis in white adipose tissue |
| Q42816802 | Loss of FTO in adipose tissue decreases Angptl4 translation and alters triglyceride metabolism |
| Q53360179 | Multiphasic Regulation of Systemic and Peripheral Organ Metabolic Responses to Cardiac Hypertrophy. |
| Q34054078 | NAG-1/GDF-15 prevents obesity by increasing thermogenesis, lipolysis and oxidative metabolism |
| Q36282422 | Narciclasine attenuates diet-induced obesity by promoting oxidative metabolism in skeletal muscle. |
| Q35781341 | Nutrient/serum starvation derived TRIP-Br3 down-regulation accelerates apoptosis by destabilizing XIAP. |
| Q47436832 | Reestablishment of Energy Balance in a Male Mouse Model With POMC Neuron Deletion of BMPR1A. |
| Q28594857 | Sertad1 encodes a novel transcriptional co-activator of SMAD1 in mouse embryonic hearts |
| Q37010501 | Shox2 is a molecular determinant of depot-specific adipocyte function |
| Q36025953 | TARANIS Functions with Cyclin A and Cdk1 in a Novel Arousal Center to Control Sleep in Drosophila. |
| Q37730230 | The Circadian Clock in the Ventromedial Hypothalamus Controls Cyclic Energy Expenditure |
| Q64229683 | The Importance of Peripheral Nerves in Adipose Tissue for the Regulation of Energy Balance |
| Q44583136 | The impact of type 2 diabetes on the outcome of localized renal cell carcinoma |
| Q28834050 | The obesity-induced transcriptional regulator TRIP-Br2 mediates visceral fat endoplasmic reticulum stress-induced inflammation |
| Q28365132 | Transcription regulator TRIP-Br2 mediates ER stress-induced brown adipocytes dysfunction |
| Q58706649 | Transcriptional profiling of liver during the critical embryo-to-hatchling transition period in the chicken (Gallus gallus) |
| Q89471087 | Transcriptome analyses of liver in newly-hatched chicks during the metabolic perturbation of fasting and re-feeding reveals THRSPA as the key lipogenic transcription factor |
| Q58273154 | What activates thermogenesis when lipid droplet lipolysis is absent in brown adipocytes? |
| Q37601812 | What we talk about when we talk about fat. |
| Q53830277 | miR-128-3p regulates 3T3-L1 adipogenesis and lipolysis by targeting Pparg and Sertad2. |
Search more.