scholarly article | Q13442814 |
review article | Q7318358 |
P6179 | Dimensions Publication ID | 1024600139 |
P356 | DOI | 10.1038/NRM3198 |
P698 | PubMed publication ID | 21952300 |
P2093 | author name string | Mitchell A Lazar | |
Ana G Cristancho | |||
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Wnt signaling protects 3T3-L1 preadipocytes from apoptosis through induction of insulin-like growth factors | Q24303560 | ||
Additional Sex Comb-like (ASXL) Proteins 1 and 2 Play Opposite Roles in Adipogenesis via Reciprocal Regulation of Peroxisome Proliferator-activated Receptor γ | Q24305362 | ||
Defective adipocyte differentiation in mice lacking the C/EBPbeta and/or C/EBPdelta gene | Q24532889 | ||
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Identification and importance of brown adipose tissue in adult humans | Q24632425 | ||
DNA binding-dependent glucocorticoid receptor activity promotes adipogenesis via Krüppel-like factor 15 gene expression | Q24634129 | ||
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The orphan nuclear receptor chicken ovalbumin upstream promoter-transcription factor II is a critical regulator of adipogenesis | Q24653556 | ||
PRDM16 controls a brown fat/skeletal muscle switch | Q24657178 | ||
SIRT2 regulates adipocyte differentiation through FoxO1 acetylation/deacetylation | Q24674602 | ||
Obese gene expression at in vivo levels by fat pads derived from s.c. implanted 3T3-F442A preadipocytes | Q24681106 | ||
A cold-inducible coactivator of nuclear receptors linked to adaptive thermogenesis | Q27860471 | ||
Matrix elasticity directs stem cell lineage specification | Q27860761 | ||
Induction of pluripotent stem cells from mouse embryonic and adult fibroblast cultures by defined factors | Q27860937 | ||
PPARγ Is Required for the Differentiation of Adipose Tissue In Vivo and In Vitro | Q28146187 | ||
Lack of macrophage fatty-acid-binding protein aP2 protects mice deficient in apolipoprotein E against atherosclerosis | Q28198287 | ||
Cell shape, cytoskeletal tension, and RhoA regulate stem cell lineage commitment | Q28255124 | ||
Inducible gene targeting in mice using the Cre/lox system | Q28272460 | ||
Cascade regulation of terminal adipocyte differentiation by three members of the C/EBP family of leucine zipper proteins | Q28287408 | ||
Transcriptional regulation of adipogenesis by KLF4 | Q28513402 | ||
Histone methylation regulator PTIP is required for PPARgamma and C/EBPalpha expression and adipogenesis | Q28513731 | ||
The nuclear orphan receptor COUP-TFII plays an essential role in adipogenesis, glucose homeostasis, and energy metabolism | Q37071439 | ||
COUP-TFII acts downstream of Wnt/beta-catenin signal to silence PPARgamma gene expression and repress adipogenesis. | Q37153650 | ||
Impact of visceral adipose tissue on liver metabolism and insulin resistance. Part II: Visceral adipose tissue production and liver metabolism | Q37194129 | ||
The peroxisome proliferator-activated receptor gamma/retinoid X receptor alpha heterodimer targets the histone modification enzyme PR-Set7/Setd8 gene and regulates adipogenesis through a positive feedback loop | Q37233465 | ||
BMP signaling pathway is required for commitment of C3H10T1/2 pluripotent stem cells to the adipocyte lineage | Q37293278 | ||
Adipose tissue expression and genetic variants of the bone morphogenetic protein receptor 1A gene (BMPR1A) are associated with human obesity | Q37317464 | ||
Peroxisome proliferator-activated receptor gamma is required in mature white and brown adipocytes for their survival in the mouse | Q37358085 | ||
New developments in adipogenesis | Q37408916 | ||
Phosphorylation of C/EBPbeta at a consensus extracellular signal-regulated kinase/glycogen synthase kinase 3 site is required for the induction of adiponectin gene expression during the differentiation of mouse fibroblasts into adipocytes | Q37515269 | ||
Wnt and PPARgamma signaling in osteoblastogenesis and adipogenesis | Q37542905 | ||
Subcutaneous and visceral adipose tissue: structural and functional differences | Q37572907 | ||
Adipose conversion of 3T3 cells depends on a serum factor | Q37596763 | ||
Human SGBS cells - a unique tool for studies of human fat cell biology | Q37669672 | ||
Inhibitors of HDACs--effective drugs against cancer? | Q37702280 | ||
Distribution and development of brown adipocytes in the murine and human adipose organ | Q37726537 | ||
Complementary action of the PGC-1 coactivators in mitochondrial biogenesis and brown fat differentiation | Q38313575 | ||
Matrix metalloproteinases are differentially expressed in adipose tissue during obesity and modulate adipocyte differentiation | Q38358677 | ||
TLE3 is a dual-function transcriptional coregulator of adipogenesis | Q39565699 | ||
Rb regulates fate choice and lineage commitment in vivo | Q39671069 | ||
HDACs class II-selective inhibition alters nuclear receptor-dependent differentiation | Q39678796 | ||
Propagation of adipogenic signals through an epigenomic transition state. | Q39703018 | ||
Stimulation of preadipocyte differentiation by steroid through targeting of an HDAC1 complex | Q39756473 | ||
Re-expression of GATA2 cooperates with peroxisome proliferator-activated receptor-gamma depletion to revert the adipocyte phenotype | Q39896681 | ||
In vivo activation of cAMP-dependent protein kinase by aminophylline and 1-methyl, 3-isobutylxanthine | Q39941176 | ||
Changes in integrin expression during adipocyte differentiation | Q40375216 | ||
Krox20 stimulates adipogenesis via C/EBPbeta-dependent and -independent mechanisms | Q40391481 | ||
Mechanical stretch inhibits myoblast-to-adipocyte differentiation through Wnt signaling. | Q40456541 | ||
Bone morphogenetic protein-2 stimulates adipogenic differentiation of mesenchymal precursor cells in synergy with BRL 49653 (rosiglitazone). | Q40871519 | ||
Adipose tissue extracellular matrix: newly organized by adipocytes during differentiation | Q41007468 | ||
White fat progenitor cells reside in the adipose vasculature. | Q41145314 | ||
Regulation of cyclin D1 and Wnt10b gene expression by cAMP-responsive element-binding protein during early adipogenesis involves differential promoter methylation | Q41177139 | ||
Thiazolidinediones and fatty acids convert myogenic cells into adipose-like cells | Q41269421 | ||
Conditional ectopic expression of C/EBP beta in NIH-3T3 cells induces PPAR gamma and stimulates adipogenesis | Q41291617 | ||
Peroxisome proliferator-activated receptor (PPAR) gamma: adipose-predominant expression and induction early in adipocyte differentiation | Q41451147 | ||
Differentiation of muscle, fat, cartilage, and bone from progenitor cells present in a bone-derived clonal cell population: effect of dexamethasone | Q41552587 | ||
Adipocyte differentiation and leptin expression | Q41689365 | ||
Species-specific strategies underlying conserved functions of metabolic transcription factors | Q42220158 | ||
Hormone-sensitive particulate cAMP phosphodiesterase activity in 3T3-L1 adipocytes. Regulation of responsiveness by dexamethasone. | Q42448985 | ||
Occurrence of brown adipocytes in rat white adipose tissue: molecular and morphological characterization | Q42601829 | ||
Regulation of adipogenesis by nuclear receptor PPARγ is modulated by the histone demethylase JMJD2C. | Q42724841 | ||
Signal transducer and activator of transcription 3 (STAT3) regulates adipocyte differentiation via peroxisome-proliferator-activated receptor gamma (PPARgamma). | Q42797586 | ||
Regulation of adipocyte differentiation by histone deacetylase inhibitors | Q42800232 | ||
Enhanced synthesis and secretion of type IV collagen and entactin during adipose conversion of 3T3-L1 cells and production of unorthodox laminin complex. | Q42801668 | ||
Down-regulation of histone deacetylases stimulates adipocyte differentiation | Q42806234 | ||
PKA-dependent and independent cAMP signaling in 3T3-L1 fibroblasts differentiation | Q42806341 | ||
Regulation of the brown and white fat gene programs through a PRDM16/CtBP transcriptional complex | Q28585312 | ||
Bifunctional role of Rev-erbalpha in adipocyte differentiation | Q28586450 | ||
TIPs are tension-responsive proteins involved in myogenic versus adipogenic differentiation | Q28588203 | ||
Mitotic clonal expansion: a synchronous process required for adipogenesis | Q28588756 | ||
Wnt5b partially inhibits canonical Wnt/beta-catenin signaling pathway and promotes adipogenesis in 3T3-L1 preadipocytes | Q28591731 | ||
A circadian-regulated gene, Nocturnin, promotes adipogenesis by stimulating PPAR-gamma nuclear translocation. | Q28594100 | ||
Wnt/Lrp/beta-catenin signaling suppresses adipogenesis by inhibiting mutual activation of PPARgamma and C/EBPalpha | Q28594764 | ||
Cold-activated brown adipose tissue in healthy men | Q29547382 | ||
Functional brown adipose tissue in healthy adults | Q29547687 | ||
Role of YAP/TAZ in mechanotransduction | Q29615411 | ||
Fat and beyond: the diverse biology of PPARgamma | Q29615416 | ||
Dynamics of fat cell turnover in humans | Q29615688 | ||
Adipocyte differentiation from the inside out | Q29615690 | ||
An antidiabetic thiazolidinedione is a high affinity ligand for peroxisome proliferator-activated receptor gamma (PPAR gamma) | Q29615693 | ||
mPPAR gamma 2: tissue-specific regulator of an adipocyte enhancer | Q29617271 | ||
Matrix metalloproteinases and tissue inhibitors of metalloproteinases: structure, function, and biochemistry | Q29618605 | ||
Thiazolidinediones regulate adipose lineage dynamics | Q30404426 | ||
TIMP-3 binds to sulfated glycosaminoglycans of the extracellular matrix | Q30886270 | ||
Cell adhesion induces expression of growth-associated genes in suspension-arrested fibroblasts | Q33647839 | ||
Down-regulation of tissue inhibitor of metalloproteinase-3 (TIMP-3) expression is necessary for adipocyte differentiation | Q33673738 | ||
Interaction between GATA and the C/EBP family of transcription factors is critical in GATA-mediated suppression of adipocyte differentiation | Q33694864 | ||
Geometric cues for directing the differentiation of mesenchymal stem cells | Q33740226 | ||
Transcriptional control of preadipocyte determination by Zfp423. | Q33753951 | ||
Redundant control of adipogenesis by histone deacetylases 1 and 2 | Q33825179 | ||
Histone H3K27 methyltransferase Ezh2 represses Wnt genes to facilitate adipogenesis. | Q33841907 | ||
Cross species comparison of C/EBPα and PPARγ profiles in mouse and human adipocytes reveals interdependent retention of binding sites | Q33848577 | ||
Identification and characterization of a promoter cassette conferring adipocyte-specific gene expression | Q33874460 | ||
Transdifferentiation of myoblasts by the adipogenic transcription factors PPAR gamma and C/EBP alpha | Q33874916 | ||
Sequential phosphorylation of CCAAT enhancer-binding protein beta by MAPK and glycogen synthase kinase 3beta is required for adipogenesis | Q33896013 | ||
A fat-specific enhancer is the primary determinant of gene expression for adipocyte P2 in vivo | Q33923356 | ||
A study of the adipose conversion of suspended 3T3 cells by using glycerophosphate dehydrogenase as differentiation marker | Q34037269 | ||
Effect of age, sex, and site on the cellularity of the adipose tissue in mice and rats rendered obese by a high-fat diet | Q34075443 | ||
Comparative Epigenomic Analysis of Murine and Human Adipogenesis | Q34179692 | ||
Diet-induced adipocyte number increase in adult rats: a new model of obesity | Q34274248 | ||
Transcriptional regulation of gene expression during adipocyte differentiation | Q34296723 | ||
Wnt signaling inhibits adipogenesis through beta-catenin-dependent and -independent mechanisms. | Q34413514 | ||
Involvement of matrix metalloproteinases in the adipose conversion of 3T3-L1 preadipocytes. | Q42814385 | ||
JAK2/STAT3 pathway is involved in the early stage of adipogenesis through regulating C/EBPβ transcription | Q42815452 | ||
Modulation of adipose tissue expression of murine matrix metalloproteinases and their tissue inhibitors with obesity | Q42817200 | ||
Fibronectin modulation of cell shape and lipogenic gene expression in 3T3-adipocytes | Q42820082 | ||
Genetic and pharmacological inhibition of Rho-associated kinase II enhances adipogenesis. | Q42825868 | ||
Regulated production of a peroxisome proliferator-activated receptor-gamma ligand during an early phase of adipocyte differentiation in 3T3-L1 adipocytes. | Q42828210 | ||
Sequential gene promoter interactions of C/EBPbeta, C/EBPalpha, and PPARgamma during adipogenesis | Q42828722 | ||
Suppression of PPAR-gamma attenuates insulin-stimulated glucose uptake by affecting both GLUT1 and GLUT4 in 3T3-L1 adipocytes | Q42829800 | ||
Differentiation of 3T3-L1 fibroblasts to adipocytes. Effect of insulin and indomethacin on the levels of insulin receptors | Q42830541 | ||
Inhibition of histone deacetylase activity by valproic acid blocks adipogenesis | Q42831163 | ||
Phosphatidylinositol-3,4,5-trisphosphate is required for insulin-like growth factor 1-mediated survival of 3T3-L1 preadipocytes | Q42832853 | ||
Blood vessel density in de novo formed adipose tissue is decreased upon overexpression of TIMP-1. | Q42834154 | ||
Role of CREB in transcriptional regulation of CCAAT/enhancer-binding protein beta gene during adipogenesis | Q42834491 | ||
Function of GATA transcription factors in preadipocyte-adipocyte transition | Q42835284 | ||
The emergence of cold-induced brown adipocytes in mouse white fat depots is determined predominantly by white to brown adipocyte transdifferentiation. | Q43114434 | ||
Wnt10b inhibits development of white and brown adipose tissues | Q47364038 | ||
Directing osteogenic and myogenic differentiation of MSCs: interplay of stiffness and adhesive ligand presentation | Q47378092 | ||
Bone marrow-derived human mesenchymal stem cells become quiescent on soft substrates but remain responsive to chemical or mechanical stimuli | Q47420367 | ||
Cellularity of rat adipose tissue: effects of growth, starvation, and obesity | Q49085587 | ||
Selective expression of an aP2/Fatty Acid Binding Protein 4-Cre transgene in non-adipogenic tissues during embryonic development. | Q50722545 | ||
An established pre-adipose cell line and its differentiation in culture. | Q52826449 | ||
Cross-regulation of C/EBP alpha and PPAR gamma controls the transcriptional pathway of adipogenesis and insulin sensitivity. | Q54102658 | ||
Brown fat is essential for cold-induced thermogenesis but not for obesity resistance in aP2-Ucp mice. | Q54142969 | ||
A histone lysine methyltransferase activated by non-canonical Wnt signalling suppresses PPAR-gamma transactivation | Q56741581 | ||
Adipose tissue as an endocrine organ | Q57257904 | ||
Modulation of Rho GTPase Signaling Regulates a Switch between Adipogenesis and Myogenesis | Q57363725 | ||
Schnurri-2 Controls BMP-Dependent Adipogenesis via Interaction with Smad Proteins | Q60961756 | ||
Overexpression of tissue inhibitor of matrix metalloproteinases-1 (TIMP-1) in mice does not affect adipogenesis or adipose tissue development | Q64377777 | ||
Increased cellular proliferation in adipose tissue of adult rats fed a high-fat diet | Q66943884 | ||
Changes in adipose tissue of the rat due early undernutrition followed by rehabilitation. 3. Changes in cell replication studied with tritiated thymidine | Q71178074 | ||
Effect of BMI and age on adipose tissue cellularity and differentiation capacity in women | Q73670628 | ||
Matrix metalloproteinase inhibition impairs adipose tissue development in mice | Q77743242 | ||
Wnt signaling stimulates osteoblastogenesis of mesenchymal precursors by suppressing CCAAT/enhancer-binding protein alpha and peroxisome proliferator-activated receptor gamma | Q79918319 | ||
Identification of white adipocyte progenitor cells in vivo | Q82206003 | ||
Ectopic recombination in the central and peripheral nervous system by aP2/FABP4-Cre mice: implications for metabolism research | Q82816209 | ||
The adipose organ | Q34423808 | ||
Prdm16 determines the thermogenic program of subcutaneous white adipose tissue in mice | Q34428994 | ||
Identification of inducible brown adipocyte progenitors residing in skeletal muscle and white fat. | Q34472039 | ||
A pericellular collagenase directs the 3-dimensional development of white adipose tissue | Q34522343 | ||
Evidence for a role of developmental genes in the origin of obesity and body fat distribution | Q34597959 | ||
Developmental origin of fat: tracking obesity to its source. | Q34705822 | ||
Differential roles of Smad1 and p38 kinase in regulation of peroxisome proliferator-activating receptor gamma during bone morphogenetic protein 2-induced adipogenesis | Q34764285 | ||
Adipose-specific peroxisome proliferator-activated receptor gamma knockout causes insulin resistance in fat and liver but not in muscle | Q34790967 | ||
Extensive chromatin remodelling and establishment of transcription factor 'hotspots' during early adipogenesis. | Q35007965 | ||
Inducible lineage tracing of Pax7-descendant cells reveals embryonic origin of adult satellite cells | Q35040766 | ||
PPARγ: a circadian transcription factor in adipogenesis and osteogenesis | Q35093192 | ||
Histone deacetylase 9 is a negative regulator of adipogenic differentiation | Q35145068 | ||
Transplantation of adipose tissue and stem cells: role in metabolism and disease | Q35184552 | ||
Protection from obesity and diabetes by blockade of TGF-β/Smad3 signaling | Q35203175 | ||
Adipose depots possess unique developmental gene signatures | Q35227774 | ||
Repressor transcription factor 7-like 1 promotes adipogenic competency in precursor cells | Q35239601 | ||
Beneficial effects of subcutaneous fat transplantation on metabolism | Q35485321 | ||
Adipocyte P2 gene: developmental expression and homology of 5'-flanking sequences among fat cell-specific genes | Q35608025 | ||
Genetic link between obesity and MMP14-dependent adipogenic collagen turnover | Q35757116 | ||
Emerging roles for the transforming growth factor-{beta} superfamily in regulating adiposity and energy expenditure | Q36003155 | ||
PPARgamma in the control of brown adipocyte differentiation. | Q36159393 | ||
Bone morphogenetic protein and retinoic acid signaling cooperate to induce osteoblast differentiation of preadipocytes | Q36324476 | ||
Roles of autocrine TGF-beta receptor and Smad signaling in adipocyte differentiation | Q36327607 | ||
MT1-MMP: a key regulator of cell migration in tissue | Q36627872 | ||
Cyclic AMP (cAMP)-mediated stimulation of adipocyte differentiation requires the synergistic action of Epac- and cAMP-dependent protein kinase-dependent processes | Q36711265 | ||
Stem cells and TCF proteins: a role for beta-catenin--independent functions | Q36943373 | ||
Genome-wide profiling of PPARgamma:RXR and RNA polymerase II occupancy reveals temporal activation of distinct metabolic pathways and changes in RXR dimer composition during adipogenesis | Q36960979 | ||
PPARgamma and C/EBP factors orchestrate adipocyte biology via adjacent binding on a genome-wide scale | Q36961001 | ||
Mechanical strain inhibits adipogenesis in mesenchymal stem cells by stimulating a durable beta-catenin signal | Q37034948 | ||
Targeted inactivation of MLL3 histone H3-Lys-4 methyltransferase activity in the mouse reveals vital roles for MLL3 in adipogenesis | Q37039486 | ||
Metabolic obesity: the paradox between visceral and subcutaneous fat. | Q37065704 | ||
P433 | issue | 11 | |
P921 | main subject | adipocyte | Q357519 |
P304 | page(s) | 722-734 | |
P577 | publication date | 2011-09-28 | |
P1433 | published in | Nature Reviews Molecular Cell Biology | Q1573120 |
P1476 | title | Forming functional fat: a growing understanding of adipocyte differentiation | |
P478 | volume | 12 |
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Q37280590 | A multifunctional protein, EWS, is essential for early brown fat lineage determination |
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Q38755564 | APMAP interacts with lysyl oxidase-like proteins, and disruption of Apmap leads to beneficial visceral adipose tissue expansion |
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Q39379288 | Adipose tissue: between the extremes. |
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Q37634014 | Androgens inhibit adipogenesis during human adipose stem cell commitment to preadipocyte formation. |
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Q38859946 | Angiotensin II directly impairs adipogenic differentiation of human preadipose cells |
Q36072477 | Anti-Obesity Effects of Spiramycin In Vitro and In Vivo. |
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Q58707437 | Biologically anchored knowledge expansion approach uncovers KLF4 as a novel insulin signaling regulator |
Q35581552 | Biphasic effects of FGF2 on adipogenesis |
Q34921532 | Blueberry peel extracts inhibit adipogenesis in 3T3-L1 cells and reduce high-fat diet-induced obesity |
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Q36304286 | Coffee extract inhibits adipogenesis in 3T3-L1 preadipocyes by interrupting insulin signaling through the downregulation of IRS1 |
Q89941477 | Combination of Olanzapine Pamoate with Melatonin and Metformin: Quantitative Changes in Rat Adipose Tissue |
Q28070220 | Commonalities in the Association between PPARG and Vitamin D Related with Obesity and Carcinogenesis |
Q47141531 | Comparative transcriptome analysis reveals potentially novel roles of Homeobox genes in adipose deposition in fat-tailed sheep. |
Q38844951 | Conditional immortalization of primary adipocyte precursor cells |
Q37122445 | Consecutive positive feedback loops create a bistable switch that controls preadipocyte-to-adipocyte conversion |
Q91839857 | Converging Relationships of Obesity and Hyperuricemia with Special Reference to Metabolic Disorders and Plausible Therapeutic Implications |
Q60907472 | Cooperative and Independent Functions of the Cluster in Bovine Adipocyte Adipogenesis |
Q37201286 | Coordinate functional regulation between microsomal prostaglandin E synthase-1 (mPGES-1) and peroxisome proliferator-activated receptor γ (PPARγ) in the conversion of white-to-brown adipocytes |
Q36238874 | Coordinated Regulation of PPARγ Expression and Activity through Control of Chromatin Structure in Adipogenesis and Obesity |
Q33761295 | Coregulator cell cycle and apoptosis regulator 1 (CCAR1) positively regulates adipocyte differentiation through the glucocorticoid signaling pathway |
Q44365416 | Correlation of peroxisome proliferator-activated receptor (PPAR-γ) mRNA expression with Pro12Ala polymorphism in obesity |
Q42031273 | Cross-species ChIP-seq studies provide insights into regulatory strategies of PPARγ in adipocytes |
Q52715797 | Crosstalk Between Peroxisome Proliferator-Activated Receptor Gamma and the Canonical WNT/β-Catenin Pathway in Chronic Inflammation and Oxidative Stress During Carcinogenesis. |
Q64060804 | Current Research Approaches and Challenges in the Obesogen Field |
Q38870319 | Cyclin C regulates adipogenesis by stimulating transcriptional activity of CCAAT/enhancer-binding protein α. |
Q90678059 | Cytokines and inflammation in adipogenesis: an updated review |
Q33749501 | DJ-1 contributes to adipogenesis and obesity-induced inflammation. |
Q36182044 | Daesiho-Tang Is an Effective Herbal Formulation in Attenuation of Obesity in Mice through Alteration of Gene Expression and Modulation of Intestinal Microbiota |
Q50056315 | De novo fatty acid synthesis by Schwann cells is essential for peripheral nervous system myelination. |
Q90070282 | Deficiency in AIM2 induces inflammation and adipogenesis in white adipose tissue leading to obesity and insulin resistance |
Q33706071 | Deficiency of the transcriptional repressor B cell lymphoma 6 (Bcl6) is accompanied by dysregulated lipid metabolism |
Q90787862 | Degradation of selenoprotein S and selenoprotein K through PPARγ-mediated ubiquitination is required for adipocyte differentiation |
Q37341944 | Dehydroepiandrosterone exerts antiglucocorticoid action on human preadipocyte proliferation, differentiation, and glucose uptake |
Q33727997 | Delayed fracture healing and increased callus adiposity in a C57BL/6J murine model of obesity-associated type 2 diabetes mellitus |
Q35584812 | Deletion of the Neurotrophic Factor neudesin Prevents Diet-induced Obesity by Increased Sympathetic Activity |
Q55347971 | Depletion of Nsd2-mediated histone H3K36 methylation impairs adipose tissue development and function. |
Q50907963 | Depot- and gender-specific expression of NLRP3 inflammasome and toll-like receptors in adipose tissue of cancer patients. |
Q45397873 | Development: G9A covers all bases |
Q47279833 | Developmental Programming: Impact of Prenatal Testosterone Excess on Steroidal Machinery and Cell Differentiation Markers in Visceral Adipocytes of Female Sheep. |
Q37039927 | Dexras1 links glucocorticoids to insulin-like growth factor-1 signaling in adipogenesis. |
Q37409317 | Dexras1 mediates glucocorticoid-associated adipogenesis and diet-induced obesity |
Q92647102 | Different gene expression profiles in subcutaneous & visceral adipose tissues from Mexican patients with obesity |
Q90015507 | Differential association between S100A4 levels and insulin resistance in prepubertal children and adult subjects with clinically severe obesity |
Q41682989 | Differential expression and accumulation of 14-3-3 paralogs in 3T3-L1 preadipocytes and differentiated cells |
Q38469502 | Differential lncRNA expression profiles in brown and white adipose tissues |
Q42110549 | Differentiation of human adipose stromal cells in vitro into insulin-sensitive adipocytes |
Q36648040 | Differentiation of human adipose-derived stem cells into fat involves reactive oxygen species and Forkhead box O1 mediated upregulation of antioxidant enzymes |
Q34700280 | Dimethylfumarate suppresses adipogenic differentiation in 3T3-L1 preadipocytes through inhibition of STAT3 activity |
Q34838568 | Directing parthenogenetic stem cells differentiate into adipocytes for engineering injectable adipose tissue |
Q37363945 | Disabled-2 Determines Commitment of a Pre-adipocyte Population in Juvenile Mice |
Q37559377 | Distinct Roles of Transcription Factors KLF4, Krox20, and Peroxisome Proliferator-Activated Receptor γ in Adipogenesis |
Q96683499 | Distinct abdominal and gluteal adipose tissue transcriptome signatures are altered by exercise training in African women with obesity |
Q34546872 | Distinct adipogenic differentiation phenotypes of human umbilical cord mesenchymal cells dependent on adipogenic conditions. |
Q36006019 | Distinct regulatory mechanisms governing embryonic versus adult adipocyte maturation. |
Q36533645 | Double SET point: G9a makes its mark in adipogenesis |
Q54978492 | Dual Effects of Metformin on Adipogenic Differentiation of 3T3-L1 Preadipocyte in AMPK-Dependent and Independent Manners. |
Q41846656 | Dual-stage growth factor release within 3D protein-engineered hydrogel niches promotes adipogenesis |
Q36280667 | Dynamic hydroxymethylation of deoxyribonucleic acid marks differentiation-associated enhancers |
Q42595969 | Dynamic protein pathway activation mapping of adipose-derived stem cell differentiation implicates novel regulators of adipocyte differentiation |
Q42830861 | Dynamic subcellular localization of aquaporin-7 in white adipocytes |
Q92068688 | Dysregulation of DPP4 Is Associated with the AMPK/JAK2/STAT3 Pathway in Adipocytes Under Insulin Resistance Status and Liraglutide Intervention |
Q43875816 | ERRγ enhances UCP1 expression and fatty acid oxidation in brown adipocytes. |
Q51520180 | Effects of fatty acid transport protein 1 on proliferation and differentiation of porcine intramuscular preadipocytes. |
Q42936597 | Elastin-derived peptides are new regulators of insulin resistance development in mice. |
Q50554265 | Elevated IGF2 prevents leptin induction and terminal adipocyte differentiation in hemangioma stem cells. |
Q46959630 | Elucidating the Preadipocyte and Its Role in Adipocyte Formation: a Comprehensive Review |
Q35070825 | Elucidation of molecular mechanisms of physiological variations between bovine subcutaneous and visceral fat depots under different nutritional regimes |
Q52659676 | Elucidation of the 14-3-3ζ interactome reveals critical roles of RNA splicing factors during adipogenesis. |
Q33909907 | Emerging roles of zinc finger proteins in regulating adipogenesis |
Q34314234 | Epidermal Wnt controls hair follicle induction by orchestrating dynamic signaling crosstalk between the epidermis and dermis |
Q30576465 | Epidermal Wnt/β-catenin signaling regulates adipocyte differentiation via secretion of adipogenic factors |
Q36021958 | Epigenetic Library Screen Identifies Abexinostat as Novel Regulator of Adipocytic and Osteoblastic Differentiation of Human Skeletal (Mesenchymal) Stem Cells |
Q92596918 | Epigenetic Regulation of Adipogenic Differentiation by Histone Lysine Demethylation |
Q88669597 | Epigenetic Targeting of Adipocytes Inhibits High-Grade Serous Ovarian Cancer Cell Migration and Invasion |
Q38086084 | Epigenetic methylations and their connections with metabolism. |
Q37603493 | Epigenetic programming of Dnmt3a mediated by AP2α is required for granting preadipocyte the ability to differentiate |
Q55317545 | Epoxygenase inactivation exacerbates diet and aging-associated metabolic dysfunction resulting from impaired adipogenesis. |
Q37122406 | Essential Oil of Pinus koraiensis Exerts Antiobesic and Hypolipidemic Activity via Inhibition of Peroxisome Proliferator-Activated Receptors Gamma Signaling |
Q55494297 | Estimates of genomic heritability and genome-wide association study for fatty acids profile in Santa Inês sheep. |
Q41909090 | Estrogen Deficiency and the Origin of Obesity during Menopause |
Q35914751 | Ethanol extract of Pinus koraiensis leaves containing lambertianic acid exerts anti-obesity and hypolipidemic effects by activating adenosine monophosphate-activated protein kinase (AMPK) |
Q42827953 | Euphorbiasteroid, a component of Euphorbia lathyris L., inhibits adipogenesis of 3T3-L1 cells via activation of AMP-activated protein kinase. |
Q37529958 | Exploring the activated adipogenic niche: interactions of macrophages and adipocyte progenitors |
Q51684480 | Expression of genes involved in adipogenesis and lipid metabolism in subcutaneous adipose tissue and longissimus muscle in low-marbled Pirenaica beef cattle. |
Q42832057 | Expression patterns of transcription factor PPARγ and C/EBP family members during in vitro adipogenesis of human bone marrow mesenchymal stem cells |
Q35559858 | Expression profiling of preadipocyte microRNAs by deep sequencing on chicken lines divergently selected for abdominal fatness |
Q47131711 | Expression regulation and functional analysis of RGS2 and RGS4 in adipogenic and osteogenic differentiation of human mesenchymal stem cells |
Q35350362 | Extensive lipoma-like changes of myxoid liposarcoma: morphologic, immunohistochemical, and molecular cytogenetic analyses |
Q41463093 | Extracellular Vesicles from Adipose Tissue-A Potential Role in Obesity and Type 2 Diabetes? |
Q102320366 | F13A1 transglutaminase expression in human adipose tissue increases in acquired excess weight and associates with inflammatory status of adipocytes |
Q37637855 | FAK signalling controls insulin sensitivity through regulation of adipocyte survival. |
Q58799822 | FSP1-positive fibroblasts are adipogenic niche and regulate adipose homeostasis |
Q50957802 | Fat Cell and Fatty Acid Turnover in Obesity. |
Q38193721 | Fat and bone interactions |
Q34022730 | Fat depot-specific gene signature and ECM remodeling of Sca1(high) adipose-derived stem cells |
Q28072106 | Fat tissues, the brite and the dark sides |
Q28365049 | Fermented blueberry juice extract and its specific fractions have an anti-adipogenic effect in 3 T3-L1 cells |
Q34550053 | Fetal development of subcutaneous white adipose tissue is dependent on Zfp423. |
Q91595419 | Fibroblast feeder layer supports adipogenic differentiation of human adipose stromal/progenitor cells |
Q47644321 | Fibroblast growth factors 1 and 2 inhibit adipogenesis of human bone marrow stromal cells in 3D collagen gels |
Q42795761 | Fifty Percent Ethanolic Extract of Momordica charantia Inhibits Adipogenesis and Promotes Adipolysis in 3T3-L1 Pre-Adipocyte Cells |
Q38766888 | Frontline Science: Galectin-12 inhibits granulocytic differentiation of human NB4 promyelocytic leukemia cells while promoting lipogenesis |
Q33749151 | Fructose, Glucocorticoids and Adipose Tissue: Implications for the Metabolic Syndrome. |
Q46229998 | Functional relevance of genes implicated by obesity genome-wide association study signals for human adipocyte biology |
Q35931218 | GC-Rich Extracellular DNA Induces Oxidative Stress, Double-Strand DNA Breaks, and DNA Damage Response in Human Adipose-Derived Mesenchymal Stem Cells |
Q34298035 | Gcn5 and PCAF regulate PPARγ and Prdm16 expression to facilitate brown adipogenesis |
Q27318007 | Gene delivery to adipose tissue using transcriptionally targeted rAAV8 vectors |
Q33641104 | Gene expression profile during proliferation and differentiation of rainbow trout adipocyte precursor cells |
Q38693486 | Genome-wide association analysis identifies the genetic basis of fat deposition in the tails of sheep (Ovis aries). |
Q33610252 | Genome-wide physical activity interactions in adiposity - A meta-analysis of 200,452 adults |
Q37559387 | Glucocorticoid Receptor Accelerates, but Is Dispensable for, Adipogenesis |
Q52631078 | Glucocorticoid Receptor Signaling Is Not Required for In Vivo Adipogenesis. |
Q94525937 | Glucocorticoid-Induced Fatty Liver Disease |
Q43671913 | Glucocorticoid-induced diabetes mellitus in patients with lymphoma treated with CHOP chemotherapy |
Q34072671 | Glucocorticoids increase adipocytes in muscle by affecting IL-4 regulated FAP activity |
Q48049421 | Glucocorticoids suppress brown adipose tissue function in humans: A double-blind placebo-controlled study |
Q51759800 | Glycine enhances expression of adiponectin and IL-10 in 3T3-L1 adipocytes without affecting adipogenesis and lipolysis. |
Q55240998 | Grail is involved in adipocyte differentiation and diet-induced obesity. |
Q52559107 | Grape seed procyanidin extract inhibits adipogenesis and stimulates lipolysis of porcine adipocytes in vitro. |
Q36483356 | Gsα deficiency in adipose tissue improves glucose metabolism and insulin sensitivity without an effect on body weight. |
Q58600615 | H3.3K4M destabilizes enhancer H3K4 methyltransferases MLL3/MLL4 and impairs adipose tissue development |
Q42587276 | HMGA1 overexpression in adipose tissue impairs adipogenesis and prevents diet-induced obesity and insulin resistance. |
Q37593267 | HO-1 inhibits preadipocyte proliferation and differentiation at the onset of obesity via ROS dependent activation of Akt2. |
Q94588313 | HOXB13 controls cell state through super-enhancers |
Q36382050 | Hairless promotes PPARγ expression and is required for white adipogenesis |
Q36632420 | Hexim1, a Novel Regulator of Leptin Function, Modulates Obesity and Glucose Disposal |
Q34813834 | High content analysis of differentiation and cell death in human adipocytes |
Q42829544 | Hirsutenone Directly Targets PI3K and ERK to Inhibit Adipogenesis in 3T3-L1 Preadipocytes |
Q48194370 | Histomorphometric analyses of human adipose tissues using intact, flash-frozen samples. |
Q36533638 | Histone H3K9 methyltransferase G9a represses PPARγ expression and adipogenesis |
Q37497415 | Histone methyltransferases and demethylases: regulators in balancing osteogenic and adipogenic differentiation of mesenchymal stem cells |
Q33945101 | Hsp90 modulates PPARγ activity in a mouse model of nonalcoholic fatty liver disease |
Q96683509 | Human Adipocyte Conditioned Medium Promotes In Vitro Fibroblast Conversion to Myofibroblasts |
Q36745558 | Human adipose dynamics and metabolic health |
Q64059040 | Human adipose stromal-vascular fraction self-organizes to form vascularized adipose tissue in 3D cultures |
Q26775255 | Hypothalamic Wnt Signalling and its Role in Energy Balance Regulation |
Q47752324 | Hypoxia induces adipocyte differentiation of adipose-derived stem cells by triggering reactive oxygen species generation. |
Q54311672 | IGFBP-2 inhibits adipogenesis and lipogenesis in human visceral, but not subcutaneous, adipocytes. |
Q33569809 | IKKβ links vascular inflammation to obesity and atherosclerosis |
Q58721240 | IL-6-mediated cross-talk between human preadipocytes and ductal carcinoma in situ in breast cancer progression |
Q85337479 | IRF8 inhibits C/EBPα activity to restrain mononuclear phagocyte progenitors from differentiating into neutrophils |
Q28508189 | Identification of RIFL, a novel adipocyte-enriched insulin target gene with a role in lipid metabolism |
Q38140907 | Identification of STAT target genes in adipocytes. |
Q34323264 | Identification of a subpopulation of marrow MSC-derived medullary adipocytes that express osteoclast-regulating molecules: marrow adipocytes express osteoclast mediators |
Q90726896 | Identification of differentially expressed genes and pathways between intramuscular and abdominal fat-derived preadipocyte differentiation of chickens in vitro |
Q34979561 | Identification of regulatory elements that control PPARγ expression in adipocyte progenitors |
Q50068164 | Impact of Adrenal Steroids on Regulation of Adipose Tissue. |
Q49908247 | Impact of dexamethasone concentration on cartilage tissue formation from human synovial derived stem cells in vitro |
Q33765545 | Impaired preadipocyte differentiation into adipocytes in subcutaneous abdominal adipose of PCOS-like female rhesus monkeys |
Q37665422 | Improved methodologies for the study of adipose biology: insights gained and opportunities ahead |
Q35611244 | In vivo dedifferentiation of adult adipose cells |
Q34566523 | Increased adipogenesis of human adipose-derived stem cells on polycaprolactone fiber matrices |
Q41857486 | Inhibition of PDGFR signaling prevents muscular fatty infiltration after rotator cuff tear in mice |
Q46827092 | Inhibition of secreted frizzled-related protein 5 improves glucose metabolism |
Q40745334 | Injecting engineered anti-inflammatory macrophages therapeutically induces white adipose tissue browning and improves diet-induced insulin resistance |
Q34334051 | Integration of clinical data with a genome-scale metabolic model of the human adipocyte |
Q28591246 | Interleukin-4 regulates lipid metabolism by inhibiting adipogenesis and promoting lipolysis |
Q42222851 | Intrinsic regulation of hemangioma involution by platelet-derived growth factor |
Q52980629 | Intrinsically aged dermal fibroblasts fail to differentiate into adipogenic lineage. |
Q36288319 | Involvement of tumor suppressors PTEN and p53 in the formation of multiple subtypes of liposarcoma |
Q92889789 | Isoimperatorin enhances 3T3-L1 preadipocyte differentiation by regulating PPARγ and C/EBPα through the Akt signaling pathway |
Q35984401 | Isolation, culture and differentiation of duck (Anas platyrhynchos) preadipocytes. |
Q42777571 | Itm2a silencing rescues lamin A mediated inhibition of 3T3-L1 adipocyte differentiation. |
Q42041209 | Jmjd3-Mediated H3K27me3 Dynamics Orchestrate Brown Fat Development and Regulate White Fat Plasticity |
Q92298812 | KD025 (SLx-2119) suppresses adipogenesis at intermediate stage in human adipose-derived stem cells |
Q47755607 | Key factors involved in obesity development |
Q42501885 | Knockdown of PTRF ameliorates adipocyte differentiation and functionality of human mesenchymal stem cells. |
Q64965689 | LLC tumor cells-derivated factors reduces adipogenesis in co-culture system. |
Q39014911 | Lessons on skeletal cell plasticity from studying jawbone regeneration in zebrafish |
Q37039775 | Lipodystrophy and severe metabolic dysfunction in mice with adipose tissue-specific insulin receptor ablation |
Q39279617 | Lipopolysaccharide binding protein is an adipokine involved in the resilience of the mouse adipocyte to inflammation. |
Q42037657 | Liraglutide reduces lipogenetic signals in visceral adipose of db/db mice with AMPK activation and Akt suppression |
Q36846250 | Long-Term Fructose Intake Increases Adipogenic Potential: Evidence of Direct Effects of Fructose on Adipocyte Precursor Cells |
Q30557270 | Long-term live cell microscopy studies of lipid droplet fusion dynamics in adipocytes |
Q38809055 | Loss of Ptpn11 (Shp2) drives satellite cells into quiescence |
Q36469271 | Loss of white adipose hyperplastic potential is associated with enhanced susceptibility to insulin resistance |
Q90621874 | Low steady-state oxidative stress inhibits adipogenesis by altering mitochondrial dynamics and decreasing cellular respiration |
Q35945867 | Low-Dose Bisphenol-A Impairs Adipogenesis and Generates Dysfunctional 3T3-L1 Adipocytes |
Q53806699 | Low-Grade Inflammation, Obesity, and Diabetes. |
Q48377955 | Low-level perfluorooctanoic acid enhances 3 T3-L1 preadipocyte differentiation via altering peroxisome proliferator activated receptor gamma expression and its promoter DNA methylation. |
Q42376101 | MCT1 and MCT4 Expression and Lactate Flux Activity Increase During White and Brown Adipogenesis and Impact Adipocyte Metabolism. |
Q26746118 | MECHANISMS IN ENDOCRINOLOGY: Brown adipose tissue in humans: regulation and metabolic significance |
Q34601769 | MYC is an early response regulator of human adipogenesis in adipose stem cells |
Q42796115 | MacroH2A1.1 cooperates with EZH2 to promote adipogenesis by regulating Wnt signaling |
Q36828792 | Macrophage-induced adipose tissue dysfunction and the preadipocyte: should I stay (and differentiate) or should I go? |
Q37240132 | Maternal obesity enhances white adipose tissue differentiation and alters genome-scale DNA methylation in male rat offspring. |
Q40969143 | Matrix directed adipogenesis and neurogenesis of mesenchymal stem cells derived from adipose tissue and bone marrow |
Q42805668 | Maturation of Adipocytes is Suppressed by Fluid Shear Stress. |
Q35438238 | Mechanical strain regulates osteogenic and adipogenic differentiation of bone marrow mesenchymal stem cells |
Q27004113 | Mechanisms and metabolic implications of regional differences among fat depots |
Q92195093 | Mechanisms of obesity-induced metabolic and vascular dysfunctions |
Q36223114 | Mesoderm-specific transcript (MEST) is a negative regulator of human adipocyte differentiation |
Q58773156 | Metabolaid Combination of Lemon Verbena and Hibiscus Flower Extract Prevents High-Fat Diet-Induced Obesity through AMP-Activated Protein Kinase Activation |
Q35567912 | Metabolic fate of fructose in human adipocytes: a targeted (13)C tracer fate association study |
Q64938571 | Metabolic regulation of transcription through compartmentalized NAD+ biosynthesis. |
Q36694480 | Metabolic role of dipeptidyl peptidase 4 (DPP4) in primary human (pre)adipocytes |
Q29248099 | Metabolism Disrupting Chemicals and Metabolic Disorders |
Q51744585 | Metabolomics Based Profiling of Dexamethasone Side Effects in Rats. |
Q26750482 | Metrnl: a secreted protein with new emerging functions |
Q36434050 | MicroRNA 140 Promotes Expression of Long Noncoding RNA NEAT1 in Adipogenesis |
Q50957766 | MicroRNA and Adipogenesis. |
Q34206473 | MicroRNA-378 controls classical brown fat expansion to counteract obesity |
Q47796012 | Microfluidic systems for studying dynamic function of adipocytes and adipose tissue |
Q52361567 | Milk Fat Globule Membrane Attenuates High-Fat Diet-Induced Obesity by Inhibiting Adipogenesis and Increasing Uncoupling Protein 1 Expression in White Adipose Tissue of Mice. |
Q27026223 | Minireview: The link between fat and bone: does mass beget mass? |
Q36243408 | Mio/dChREBP coordinately increases fat mass by regulating lipid synthesis and feeding behavior in Drosophila. |
Q42800878 | Modulation of HO-1 by Ferulic Acid Attenuates Adipocyte Differentiation in 3T3-L1 Cells |
Q38306592 | Molecular aspects of adipoepithelial transdifferentiation in mouse mammary gland. |
Q35441666 | Molecular basis of Klotho: from gene to function in aging |
Q97092580 | Molecular characterization of fibroblast growth factor-16 and its role in promoting the differentiation of intramuscular preadipocytes in goat |
Q91557750 | Molecular mechanisms of arrhythmogenic cardiomyopathy |
Q38241502 | Molecular pathways regulating the formation of brown-like adipocytes in white adipose tissue |
Q47662066 | Murine models of sleep apnea: functional implications of altered macrophage polarity and epigenetic modifications in adipose and vascular tissues |
Q36040443 | Muscle-specific 4E-BP1 signaling activation improves metabolic parameters during aging and obesity |
Q35755610 | Myofibroblasts in murine cutaneous fibrosis originate from adiponectin-positive intradermal progenitors |
Q38062510 | Natural compounds regulate energy metabolism by the modulating the activity of lipid-sensing nuclear receptors. |
Q52668691 | Nature's fat-burning machine: brown adipose tissue in a hibernating mammal. |
Q41243847 | Ndrg1 promotes adipocyte differentiation and sustains their function |
Q38515381 | Neudesin as a unique secreted protein with multi-functional roles in neural functions, energy metabolism, and tumorigenesis |
Q38292473 | New insights into the anti-obesity activity of xanthones from Garcinia mangostana |
Q41626209 | New mechanisms of glucocorticoid-induced insulin resistance: make no bones about it. |
Q27022727 | Nonmuscle myosin-2: mix and match |
Q36512262 | Nonreceptor tyrosine phosphatase Shp2 promotes adipogenesis through inhibition of p38 MAP kinase. |
Q35710502 | Novel Function of Rev-erbα in Promoting Brown Adipogenesis |
Q26853017 | Nuclear receptors in bone physiology and diseases |
Q26746261 | Nutrigenomics and Beef Quality: A Review about Lipogenesis |
Q28078567 | Obesity and cancer: the role of adipose tissue and adipo-cytokines-induced chronic inflammation |
Q39353759 | Obesity, Persistent Organic Pollutants and Related Health Problems. |
Q64235532 | Obesity-Induced Methylation of Osteopontin Contributes to Adipogenic Differentiation of Adipose-Derived Mesenchymal Stem Cells |
Q44813353 | Obesity-promoting and anti-thermogenic effects of neutrophil gelatinase-associated lipocalin in mice |
Q36853195 | Obesogens: an emerging threat to public health. |
Q92919053 | Orobol, an Enzyme-Convertible Product of Genistein, exerts Anti-Obesity Effects by Targeting Casein Kinase 1 Epsilon |
Q38883831 | Ovarian hormones and obesity. |
Q55156623 | Overlap in signaling between Smoothened and the α subunit of the heterotrimeric G protein G13. |
Q90581655 | Oxidative Stress, Nutrition and Cancer: Friends or Foes? |
Q28082703 | Oxidative stress in obesity: a critical component in human diseases |
Q44675066 | PPAR agonists stimulate adipogenesis at the expense of osteoblast differentiation while inhibiting osteoclast formation and activity |
Q38674739 | PPARs: regulators of metabolism and as therapeutic targets in cardiovascular disease. Part II: PPAR-β/δ and PPAR-γ. |
Q42815529 | PPARγ-induced PARylation promotes local DNA demethylation by production of 5-hydroxymethylcytosine |
Q91942714 | PRDM16 Represses the Pig White Lipogenesis through Promoting Lipolysis Activity |
Q36368511 | PTEN loss in the Myf5 lineage redistributes body fat and reveals subsets of white adipocytes that arise from Myf5 precursors. |
Q33740292 | Pear pomace ethanol extract improves insulin resistance through enhancement of insulin signaling pathway without lipid accumulation |
Q38328710 | Peroxisome proliferator-activated receptor γ and C/EBPα synergistically activate key metabolic adipocyte genes by assisted loading |
Q39052256 | Peroxisome proliferator-activated receptor γ regulates genes involved in insulin/insulin-like growth factor signaling and lipid metabolism during adipogenesis through functionally distinct enhancer classes. |
Q50079032 | Phenazine carboxylic acid and its derivative induce osteoblast differentiation in preosteoblastic MC3T3-E1 cells but adipocyte differentiation in pluripotent mesenchymal C3H10T1/2 cells |
Q55664606 | Phloretin Promotes Adipogenesis via Mitogen-Activated Protein Kinase Pathways in Mouse Marrow Stromal ST2 Cells. |
Q27000475 | Phytochemistry and biological properties of glabridin |
Q92242242 | Pigment epithelium-derived factor inhibits adipogenesis in 3T3-L1 adipocytes and protects against high-fat diet-induced obesity and metabolic disorders in mice |
Q50149610 | Plasticizers used in food-contact materials affect adipogenesis in 3T3-L1 cells. |
Q91900397 | Polydatin Inhibits Adipose Tissue Inflammation and Ameliorates Lipid Metabolism in High-Fat-Fed Mice |
Q38753881 | Potential Application of p-Coumaric Acid on Differentiation of C2C12 Skeletal Muscle and 3T3-L1 Preadipocytes-An in Vitro and in Silico Approach. |
Q26798810 | Potential of adipose-derived stem cells in muscular regenerative therapies |
Q91844981 | Predicted secreted protein analysis reveals synaptogenic function of Clstn3 during WAT browning and BAT activation in mice |
Q33652665 | Prenatal and postnatal mothering by diesel exhaust PM2.5-exposed dams differentially program mouse energy metabolism |
Q47154891 | Prep1 prevents premature adipogenesis of mesenchymal progenitors. |
Q38575787 | Prostaglandin E2 signals white-to-brown adipogenic differentiation |
Q27305401 | Putative regulatory factors associated with intramuscular fat content |
Q37093132 | ROCK1 reduces mitochondrial content and irisin production in muscle suppressing adipocyte browning and impairing insulin sensitivity |
Q46077586 | Raldh1 promotes adiposity during adolescence independently of retinal signaling |
Q35235848 | Rapid depot-specific activation of adipocyte precursor cells at the onset of obesity |
Q47853449 | Receptor for hyaluronan mediated motility (RHAMM/HMMR) is a novel target for promoting subcutaneous adipogenesis. |
Q26801347 | Redox implications in adipose tissue (dys)function--A new look at old acquaintances |
Q38202879 | Redox mechanisms in regulation of adipocyte differentiation: beyond a general stress response |
Q26799843 | Redox regulation of FoxO transcription factors |
Q38308746 | Regulation of MKL1 via actin cytoskeleton dynamics drives adipocyte differentiation |
Q34499279 | Regulation of early adipose commitment by Zfp521. |
Q27009151 | Regulation of lipid stores and metabolism by lipophagy |
Q52608611 | Regulatory T Cells As Supporters of Psychoimmune Resilience: Toward Immunotherapy of Major Depressive Disorder. |
Q26797440 | Regulatory networks of non-coding RNAs in brown/beige adipogenesis |
Q37133030 | Relationship between the Balance of Hypertrophic/Hyperplastic Adipose Tissue Expansion and the Metabolic Profile in a High Glucocorticoids Model |
Q64247764 | Reliable reference genes for expression analysis of proliferating and adipogenically differentiating human adipose stromal cells |
Q37627490 | Resolvins, specialized proresolving lipid mediators, and their potential roles in metabolic diseases |
Q46134215 | Retinoid X Receptor Activation Alters the Chromatin Landscape To Commit Mesenchymal Stem Cells to the Adipose Lineage. |
Q48208216 | Reversal of hyperactive Wnt signaling-dependent adipocyte defects by peptide boronic acids. |
Q39401828 | Review of Garcinia mangostana and its Xanthones in Metabolic Syndrome and Related Complications. |
Q38699586 | Review: Animal model and the current understanding of molecule dynamics of adipogenesis. |
Q57174409 | Revisiting the Advances in Isolation, Characterization and Secretome of Adipose-Derived Stromal/Stem Cells |
Q55164510 | RhoGTPase stimulation is associated with strontium chloride treatment to counter simulated microgravity-induced changes in multipotent cell commitment. |
Q65001494 | Rice Hull Extract (RHE) Suppresses Adiposity in High-Fat Diet-Induced Obese Mice and Inhibits Differentiation of 3T3-L1 Preadipocytes. |
Q36842239 | Rubus crataegifolius Bunge regulates adipogenesis through Akt and inhibits high-fat diet-induced obesity in rats |
Q92631495 | SIRT3 Acts as a Positive Autophagy Regulator to Promote Lipid Mobilization in Adipocytes via Activating AMPK |
Q33676540 | SRA gene knockout protects against diet-induced obesity and improves glucose tolerance |
Q35152161 | SRA regulates adipogenesis by modulating p38/JNK phosphorylation and stimulating insulin receptor gene expression and downstream signaling. |
Q33825376 | Sclerostin antibody inhibits skeletal deterioration due to reduced mechanical loading |
Q47590295 | Serotonin prevents differentiation into brown adipocytes and induces transdifferentiation into white adipocytes |
Q47630868 | Sex-Specific Modulation of Fetal Adipogenesis by Gestational Bisphenol A and Bisphenol S Exposure |
Q92635939 | Shockwaves Suppress Adipocyte Differentiation via Decrease in PPARγ |
Q37645670 | Shortcuts to a functional adipose tissue: The role of small non-coding RNAs. |
Q33563633 | Silencing of the small GTPase DIRAS3 induces cellular senescence in human white adipose stromal/progenitor cells |
Q42324193 | Simultaneous Transcriptional and Epigenomic Profiling from Specific Cell Types within Heterogeneous Tissues In Vivo |
Q39286426 | Skin Adipocyte Stem Cell Self-Renewal Is Regulated by a PDGFA/AKT-Signaling Axis |
Q38574271 | Soft tissue fillers as non-specific modulators of adipogenesis: change of the paradigm? |
Q42824775 | Soluble soy protein peptic hydrolysate stimulates adipocyte differentiation in 3T3-L1 cells |
Q37661668 | Sorting out adipocyte precursors and their role in physiology and disease |
Q42834242 | Soy and the soy isoflavone genistein promote adipose tissue development in male mice on a low-fat diet |
Q87944431 | Spheroid Culture System Confers Differentiated Transcriptome Profile and Functional Advantage to 3T3-L1 Adipocytes |
Q64289751 | Sprouty1 is a weight-loss target gene in human adipose stem/progenitor cells that is mandatory for the initiation of adipogenesis |
Q36896396 | Subsets of Visceral Adipose Tissue Nuclei with Distinct Levels of 5-Hydroxymethylcytosine. |
Q37275137 | Sulforaphane inhibits mammary adipogenesis by targeting adipose mesenchymal stem cells |
Q90396444 | Sulforaphene Suppresses Adipocyte Differentiation via Induction of Post-Translational Degradation of CCAAT/Enhancer Binding Protein Beta (C/EBPβ) |
Q36017139 | Suppression of Adipocyte Differentiation by Foenumoside B from Lysimachia foenum-graecum Is Mediated by PPARγ Antagonism |
Q37631175 | Suppression of PPARγ through MKRN1-mediated ubiquitination and degradation prevents adipocyte differentiation |
Q33680355 | Switch from canonical to noncanonical Wnt signaling mediates high glucose-induced adipogenesis. |
Q34015240 | Syndecan-1 is required to maintain intradermal fat and prevent cold stress |
Q34412709 | Synergistic suppression of early phase of adipogenesis by microsomal PGE synthase-1 (PTGES1)-produced PGE2 and aldo-keto reductase 1B3-produced PGF2α. |
Q37072911 | Systems view of adipogenesis via novel omics-driven and tissue-specific activity scoring of network functional modules |
Q39097023 | TGF-β Family Signaling in Embryonic and Somatic Stem-Cell Renewal and Differentiation |
Q98623689 | TGF-β is insufficient to induce adipocyte state loss without concurrent PPARγ downregulation |
Q38663339 | TIPping the balance in adipogenesis: USP7-mediated stabilization of Tip60. |
Q89455174 | TL1A regulates adipose-resident innate lymphoid immune responses and enables diet-induced obesity in mice |
Q47555111 | Tanshinol alleviates impaired bone formation by inhibiting adipogenesis via KLF15/PPARγ2 signaling in GIO rats |
Q37062767 | Targeting IκB kinase β in Adipocyte Lineage Cells for Treatment of Obesity and Metabolic Dysfunctions |
Q90540850 | Targeting Janus Kinases and Signal Transducer and Activator of Transcription 3 to Treat Inflammation, Fibrosis, and Cancer: Rationale, Progress, and Caution |
Q26769963 | Targeting Stromal-Cancer Cell Crosstalk Networks in Ovarian Cancer Treatment |
Q35269645 | Targeting exosomes from preadipocytes inhibits preadipocyte to cancer stem cell signaling in early-stage breast cancer |
Q36591198 | Tenomodulin promotes human adipocyte differentiation and beneficial visceral adipose tissue expansion |
Q90722241 | The Beige Adipocyte as a Therapy for Metabolic Diseases |
Q55033897 | The C/EBPβ LIP isoform rescues loss of C/EBPβ function in the mouse. |
Q47142627 | The Circadian Clock Regulates Adipogenesis by a Per3 Crosstalk Pathway to Klf15. |
Q58093770 | The Emerging Role of the Microenvironment in Endometrial Cancer |
Q35538813 | The FAT expandability (FATe) Project: Biomarkers to determine the limit of expansion and the complications of obesity. |
Q36633354 | The Fto Gene Regulates the Proliferation and Differentiation of Pre-Adipocytes in Vitro |
Q33557525 | The KDM5 family is required for activation of pro-proliferative cell cycle genes during adipocyte differentiation |
Q34044339 | The LIM protein Ajuba promotes adipogenesis by enhancing PPARγ and p300/CBP interaction |
Q92002822 | The Landscape of DNA Methylation Associated With the Transcriptomic Network of Intramuscular Adipocytes Generates Insight Into Intramuscular Fat Deposition in Chicken |
Q36452423 | The Rho-guanine nucleotide exchange factor PDZ-RhoGEF governs susceptibility to diet-induced obesity and type 2 diabetes |
Q46063060 | The Role of Cellular Proliferation in Adipogenic Differentiation of Human Adipose Tissue-Derived Mesenchymal Stem Cells |
Q35868387 | The Role of PDE3B Phosphorylation in the Inhibition of Lipolysis by Insulin. |
Q35547718 | The control of lipid metabolism by mRNA splicing in Drosophila |
Q35847552 | The developmental basis of mesenchymal stem/stromal cells (MSCs). |
Q37177979 | The developmental origins of adipose tissue |
Q55097331 | The differentiation of preadipocytes and gene expression related to adipogenesis in ducks (Anas platyrhynchos). |
Q42022435 | The epigenetic modifiers 5-aza-2'-deoxycytidine and trichostatin A influence adipocyte differentiation in human mesenchymal stem cells |
Q39288232 | The expanding problem of adipose depot remodeling and postnatal adipocyte progenitor recruitment |
Q31120243 | The immunoglobulin superfamily protein differentiation of embryonic stem cells 1 (dies1) has a regulatory role in preadipocyte to adipocyte conversion |
Q37107513 | The increasingly complex regulation of adipocyte differentiation. |
Q38314756 | The multifaceted factor peroxisome proliferator-activated receptor γ (PPARγ) in metabolism, immunity, and cancer |
Q44874679 | The omega-6 arachidonic fatty acid, but not the omega-3 fatty acids, inhibits osteoblastogenesis and induces adipogenesis of human mesenchymal stem cells: potential implication in osteoporosis |
Q42575448 | The one-two punch: Retinoic acid suppresses obesity both by promoting energy expenditure and by inhibiting adipogenesis |
Q35998790 | The proliferation and differentiation of primary pig preadipocytes is suppressed when cultures are incubated at 37°Celsius compared to euthermic conditions in pigs |
Q37642256 | The role and possible mechanism of lncRNA U90926 in modulating 3T3-L1 preadipocyte differentiation |
Q33645277 | The role of JAK-STAT signaling in adipose tissue function |
Q24597882 | The role of circadian clocks in metabolic disease |
Q31118490 | The role of paracrine and autocrine signaling in the early phase of adipogenic differentiation of adipose-derived stem cells |
Q26996186 | The role of reactive oxygen species in mesenchymal stem cell adipogenic and osteogenic differentiation: a review |
Q34018084 | The small molecule indirubin-3'-oxime activates Wnt/β-catenin signaling and inhibits adipocyte differentiation and obesity |
Q90730047 | The transcription factor NKX1-2 promotes adipogenesis and may contribute to a balance between adipocyte and osteoblast differentiation |
Q24628865 | The transcription factor paired-related homeobox 1 (Prrx1) inhibits adipogenesis by activating transforming growth factor-β (TGFβ) signaling |
Q37122747 | The winged helix transcription factor Foxa3 regulates adipocyte differentiation and depot-selective fat tissue expansion |
Q38969784 | Tissue Immunometabolism: Development, Physiology, and Pathobiology |
Q35682309 | TonEBP suppresses adipogenesis and insulin sensitivity by blocking epigenetic transition of PPARγ2. |
Q33879733 | Topics in transcriptional control of lipid metabolism: from transcription factors to gene-promoter polymorphisms |
Q36393023 | Total control of fat cells from adipogenesis to apoptosis using a xanthene analog |
Q34278915 | Towards a mechanistic understanding of lipodystrophy and seipin functions |
Q36119686 | Traditional Korean Herbal Formula Samsoeum Attenuates Adipogenesis by Regulating the Phosphorylation of ERK1/2 in 3T3-L1 Cells |
Q27318518 | Transcription Adaptation during In Vitro Adipogenesis and Osteogenesis of Porcine Mesenchymal Stem Cells: Dynamics of Pathways, Biological Processes, Up-Stream Regulators, and Gene Networks |
Q51089893 | Transcriptional Regulation of Adipogenesis. |
Q92765807 | Transcriptional and Epigenomic Regulation of Adipogenesis |
Q37697325 | Transcriptional and epigenetic mechanisms underlying enhanced in vitro adipocyte differentiation by the brominated flame retardant BDE-47. |
Q33714944 | Transcriptional and epigenetic regulation of PPARγ expression during adipogenesis |
Q36299124 | Transcriptional and post-transcriptional control of adipocyte differentiation by Jumonji domain-containing protein 6. |
Q92813571 | Transcriptome Modifications in the Porcine Intramuscular Adipocytes during Differentiation and Exogenous Stimulation with TNF-α and Serotonin |
Q34674521 | Transgenerational inheritance of prenatal obesogen exposure |
Q42094175 | Transglutaminase 2--a novel inhibitor of adipogenesis. |
Q36543144 | Triflumizole is an obesogen in mice that acts through peroxisome proliferator activated receptor gamma (PPARγ). |
Q55401329 | Triphala, Regulates Adipogenesis through Modulation of Expression of Adipogenic Genes in 3T3-L1 Cell Line. |
Q43835147 | Two completely linked polymorphisms in the PPARG transcriptional regulatory region significantly affect gene expression and intramuscular fat deposition in the longissimus dorsi muscle of Erhualian pigs. |
Q37376380 | Ubiquitin specific protease 19 involved in transcriptional repression of retinoic acid receptor by stabilizing CORO2A. |
Q37635294 | Unveiling genomic regions that underlie differences between Afec-Assaf sheep and its parental Awassi breed |
Q41493919 | Vertical sleeve gastrectomy activates GPBAR-1/TGR5 to sustain weight loss, improve fatty liver, and remit insulin resistance in mice |
Q46247909 | Vitamin D does not play a functional role in adipose tissue development in rodent models. |
Q36825957 | Vitronectin-Based, Biomimetic Encapsulating Hydrogel Scaffolds Support Adipogenesis of Adipose Stem Cells |
Q36866092 | WAT is a functional adipocyte? |
Q92229282 | WDR76 mediates obesity and hepatic steatosis via HRas destabilization |
Q33687754 | WISP1/CCN4 inhibits adipocyte differentiation through repression of PPARγ activity. |
Q92818439 | WITHDRAWN: Ceramide and Sphingosine 1-Phosphate in adipose dysfunction |
Q33603592 | WNK4 is an Adipogenic Factor and Its Deletion Reduces Diet-Induced Obesity in Mice |
Q37625887 | Weighing in on adipocyte precursors |
Q36867568 | Weight loss improves the adipogenic capacity of human preadipocytes and modulates their secretory profile. |
Q37601812 | What we talk about when we talk about fat. |
Q60915959 | Wnt3a disrupts GR-TEAD4-PPARγ2 positive circuits and cytoskeletal rearrangement in a β-catenin-dependent manner during early adipogenesis |
Q34565329 | Xenotransplantation of human fetal adipose tissue: a model of in vivo adipose tissue expansion and adipogenesis |
Q101051147 | YAP and TAZ protect against white adipocyte cell death during obesity |
Q92932409 | YAP/TAZ direct commitment and maturation of lymph node fibroblastic reticular cells |
Q64103343 | ZFP30 promotes adipogenesis through the KAP1-mediated activation of a retrotransposon-derived Pparg2 enhancer |
Q89228189 | ZNF521 Has an Inhibitory Effect on the Adipogenic Differentiation of Human Adipose-Derived Mesenchymal Stem Cells |
Q61445578 | miR-181a modulates circadian rhythm in immortalized bone marrow and adipose derived stromal cells and promotes differentiation through the regulation of PER3 |
Q39665287 | p53 is required for brown adipogenic differentiation and has a protective role against diet-induced obesity |
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