| scholarly article | Q13442814 |
| P819 | ADS bibcode | 2004PNAS..101.9607T |
| P356 | DOI | 10.1073/PNAS.0403100101 |
| P932 | PMC publication ID | 470722 |
| P698 | PubMed publication ID | 15210946 |
| P5875 | ResearchGate publication ID | 8497175 |
| P2093 | author name string | Tamara C Otto | |
| M Daniel Lane | |||
| Qi-Qun Tang | |||
| P2860 | cites work | Inhibition of adipogenesis by Wnt signaling | Q22254771 |
| Obese gene expression at in vivo levels by fat pads derived from s.c. implanted 3T3-F442A preadipocytes | Q24681106 | ||
| Cascade regulation of terminal adipocyte differentiation by three members of the C/EBP family of leucine zipper proteins | Q28287408 | ||
| Mitotic clonal expansion: a synchronous process required for adipogenesis | Q28588756 | ||
| The TGF-beta family mediator Smad1 is phosphorylated directly and activated functionally by the BMP receptor kinase | Q28628494 | ||
| Expression of a single transfected cDNA converts fibroblasts to myoblasts | Q29547764 | ||
| Mesenchymal stem cells | Q29619804 | ||
| 10T1/2 cells: an in vitro model for molecular genetic analysis of mesodermal determination and differentiation | Q30445896 | ||
| Establishment and characterization of a cloned line of C3H mouse embryo cells sensitive to postconfluence inhibition of division | Q34207595 | ||
| Formation of normally differentiated subcutaneous fat pads by an established preadipose cell line | Q34233127 | ||
| Induction of fatty acid synthetase synthesis in differentiating 3T3-L1 preadipocytes. | Q34285754 | ||
| Transcriptional regulation of gene expression during adipocyte differentiation | Q34296723 | ||
| Regulation of adipocyte development | Q34324691 | ||
| Adipose cell hyperplasia and enhanced glucose disposal in transgenic mice overexpressing GLUT4 selectively in adipose tissue | Q34343775 | ||
| An established preadipose cell line and its differentiation in culture II. Factors affecting the adipose conversion | Q34509691 | ||
| Activation and centromeric localization of CCAAT/enhancer-binding proteins during the mitotic clonal expansion of adipocyte differentiation | Q35205402 | ||
| The mesengenic process | Q40631427 | ||
| Regulating adipogenesis | Q41431329 | ||
| Expression of human bone morphogenetic proteins-2 or -4 in murine mesenchymal progenitor C3H10T1/2 cells induces differentiation into distinct mesenchymal cell lineages | Q41510547 | ||
| Mitotic clonal expansion during preadipocyte differentiation: calpain-mediated turnover of p27. | Q42803586 | ||
| An established pre-adipose cell line and its differentiation in culture | Q52826449 | ||
| Adipose tissue cellularity in human obesity | Q66886876 | ||
| Mesenchymal stem cells reside within the connective tissues of many organs | Q72202802 | ||
| Preadipocyte recruitment in stromal vascular cultures after depletion of committed preadipocytes by immunocytotoxicity | Q73134694 | ||
| P433 | issue | 26 | |
| P407 | language of work or name | English | Q1860 |
| P921 | main subject | adipocyte | Q357519 |
| pluripotency | Q1894941 | ||
| P1104 | number of pages | 5 | |
| P304 | page(s) | 9607-9611 | |
| P577 | publication date | 2004-06-21 | |
| P1433 | published in | Proceedings of the National Academy of Sciences of the United States of America | Q1146531 |
| P1476 | title | Commitment of C3H10T1/2 pluripotent stem cells to the adipocyte lineage | |
| P478 | volume | 101 |
| Q37208047 | A Functional Link between AMPK and Orexin Mediates the Effect of BMP8B on Energy Balance. |
| Q90465698 | A Lox/CHOP-10 crosstalk governs osteogenic and adipogenic cell fate by MSCs |
| Q37769112 | A chromatin perspective of adipogenesis. |
| Q37413328 | A review of stem cell translation and potential confounds by cancer stem cells. |
| Q37110943 | A role for phosphodiesterase 3B in acquisition of brown fat characteristics by white adipose tissue in male mice. |
| Q29615690 | Adipocyte differentiation from the inside out |
| Q26828614 | Adipogenesis |
| Q37998565 | Adipogenesis: From Stem Cell to Adipocyte |
| Q36304460 | Adipose tissue Mest and Sfrp5 are concomitant with variations of adiposity among inbred mouse strains fed a non-obesogenic diet |
| Q38154504 | Adipose tissue browning and metabolic health |
| Q37317464 | Adipose tissue expression and genetic variants of the bone morphogenetic protein receptor 1A gene (BMPR1A) are associated with human obesity |
| Q35715553 | Adipose tissue stem cells meet preadipocyte commitment: going back to the future |
| Q34371949 | Aging activates adipogenic and suppresses osteogenic programs in mesenchymal marrow stroma/stem cells: the role of PPAR-gamma2 transcription factor and TGF-beta/BMP signaling pathways |
| Q47097132 | Alterations of protein glycosylation in embryonic stem cells during adipogenesis |
| Q90409945 | Altered adipose tissue and adipocyte function in the pathogenesis of metabolic syndrome |
| Q28854368 | Amplification of Adipogenic Commitment by VSTM2A |
| Q42833567 | An essential role for Ewing sarcoma gene (EWS) in early white adipogenesis |
| Q39439179 | Apert syndrome mutant FGFR2 and its soluble form reciprocally alter osteogenesis of primary calvarial osteoblasts |
| Q41637054 | Artemisinin derivatives prevent obesity by inducing browning of WAT and enhancing BAT function |
| Q42181656 | Association of genetic variants of BMP4 with type 2 diabetes mellitus and clinical traits in a Chinese Han population |
| Q38602968 | BBS4 regulates the expression and secretion of FSTL1, a protein that participates in ciliogenesis and the differentiation of 3T3-L1. |
| Q37293278 | BMP signaling pathway is required for commitment of C3H10T1/2 pluripotent stem cells to the adipocyte lineage |
| Q33917485 | BMP-TAK1 (MAP3K7) Induces Adipocyte Differentiation Through PPARγ Signaling |
| Q43911045 | BMP4 and BMP7 induce the white-to-brown transition of primary human adipose stem cells |
| Q55026068 | BMP4 mediates the interplay between adipogenesis and angiogenesis during expansion of subcutaneous white adipose tissue. |
| Q36653911 | BMP4-mediated brown fat-like changes in white adipose tissue alter glucose and energy homeostasis |
| Q24321265 | BMP8B increases brown adipose tissue thermogenesis through both central and peripheral actions |
| Q47103852 | BMP9 induces osteogenesis and adipogenesis in the immortalized human cranial suture progenitors from the patent sutures of craniosynostosis patients |
| Q26824827 | BMPs and their clinical potentials |
| Q60961761 | Beyond the bone: Bone morphogenetic protein signaling in adipose tissue |
| Q41885469 | Bisphenol A increases aP2 expression in 3T3L1 by enhancing the transcriptional activity of nuclear receptors at the promoter |
| Q39116293 | Bmp4 expressed in preadipocytes is required for the onset of adipocyte differentiation |
| Q39497817 | Bone morphogenetic protein 2 (BMP2) may contribute to partition of energy storage into visceral and subcutaneous fat depots |
| Q91932763 | Bone morphogenetic protein 4 (BMP4) alleviates hepatic steatosis by increasing hepatic lipid turnover and inhibiting the mTORC1 signaling axis in hepatocytes |
| Q35913048 | Bone morphogenetic protein 7 (BMP7) reverses obesity and regulates appetite through a central mTOR pathway |
| Q37293132 | Bone morphogenetic protein 9 (BMP9) induces effective bone formation from reversibly immortalized multipotent adipose-derived (iMAD) mesenchymal stem cells |
| Q38117395 | Brown adipose tissue: development, metabolism and beyond |
| Q38312239 | Brown and beige fat: the metabolic function, induction, and therapeutic potential |
| Q24544140 | CCN1/Cyr61 is regulated by the canonical Wnt signal and plays an important role in Wnt3A-induced osteoblast differentiation of mesenchymal stem cells |
| Q38110443 | Cell transplantation therapy for diabetes mellitus: endocrine pancreas and adipocyte [Review] |
| Q34513293 | Cells derived from murine induced pluripotent stem cells (iPSC) by treatment with members of TGF-beta family give rise to osteoblasts differentiation and form bone in vivo. |
| Q38300332 | Characterization of ScAP-23, a new cell line from murine subcutaneous adipose tissue, identifies genes for the molecular definition of preadipocytes |
| Q43077735 | Characterization of the adipocyte cellular lineage in vivo |
| Q36916637 | Chromatin and chromatin-modifying proteins in adipogenesis. |
| Q38552228 | Could burning fat start with a brite spark? Pharmacological and nutritional ways to promote thermogenesis |
| Q64060804 | Current Research Approaches and Challenges in the Obesogen Field |
| Q38758497 | Defining human insulin-like growth factor I gene regulation |
| Q37848703 | Developmental origins of the adipocyte lineage: new insights from genetics and genomics studies. |
| Q34546872 | Distinct adipogenic differentiation phenotypes of human umbilical cord mesenchymal cells dependent on adipogenic conditions. |
| Q39907392 | Downregulated expression of the secreted glycoprotein follistatin-like 1 (Fstl1) is a robust hallmark of preadipocyte to adipocyte conversion |
| Q50130176 | Downregulation of β1,4-galactosyltransferase 5 improves insulin resistance by promoting adipocyte commitment and reducing inflammation. |
| Q36515904 | Dual functions of TAF7L in adipocyte differentiation |
| Q41846656 | Dual-stage growth factor release within 3D protein-engineered hydrogel niches promotes adipogenesis |
| Q35894025 | Effect of Diabetes Mellitus on Adipocyte-Derived Stem Cells in Rat |
| Q98164843 | Effect of microenvironment on adhesion and differentiation of murine C3H10T1/2 cells cultured on multilayers containing collagen I and glycosaminoglycans |
| Q47976856 | Effects of bone morphogenetic protein-4 (BMP-4) on adipocyte differentiation from mouse adipose-derived stem cells. |
| Q39747803 | Effects of cartilage-derived morphogenetic protein-3 on the expression of chondrogenic and osteoblastic markers in the pluripotent mesenchymal C3H10T1/2 cell line |
| Q35281711 | Effects of culture on PAMPS/PDMAAm double-network gel on chondrogenic differentiation of mouse C3H10T1/2 cells: in vitro experimental study |
| Q46959630 | Elucidating the Preadipocyte and Its Role in Adipocyte Formation: a Comprehensive Review |
| Q24652412 | Emerging role of bone morphogenetic proteins in adipogenesis and energy metabolism |
| Q36003155 | Emerging roles for the transforming growth factor-{beta} superfamily in regulating adiposity and energy expenditure |
| Q28307782 | Endocrine disrupting chemicals and the developmental programming of adipogenesis and obesity |
| Q64241149 | Endocrine-Mediated Mechanisms of Metabolic Disruption and New Approaches to Examine the Public Health Threat |
| Q38187493 | Endogenous ways to stimulate brown adipose tissue in humans |
| Q53449208 | Enhanced adipogenic differentiation and reduced collagen synthesis induced by human periodontal ligament stem cells might underlie the negative effect of recombinant human bone morphogenetic protein-2 on periodontal regeneration. |
| Q42795840 | Epigenetic modifications of the Zfp/ZNF423 gene control murine adipogenic commitment and are dysregulated in human hypertrophic obesity. |
| Q26766574 | Fate decision of mesenchymal stem cells: adipocytes or osteoblasts? |
| Q38151178 | Feeding the heat on brown fat. |
| Q34393763 | G0/G1 switch gene 2 has a critical role in adipocyte differentiation. |
| Q42824339 | G9a is transactivated by C/EBPβ to facilitate mitotic clonal expansion during 3T3-L1 preadipocyte differentiation |
| Q39176003 | Gdf6 induces commitment of pluripotent mesenchymal C3H10T1/2 cells to the adipocyte lineage |
| Q62017019 | HDAC3-Selective Inhibition Activates Brown and Beige Fat Through PRDM16 |
| Q27000360 | Historical perspectives in fat cell biology: the fat cell as a model for the investigation of hormonal and metabolic pathways |
| Q34298015 | ISL1 regulates peroxisome proliferator-activated receptor γ activation and early adipogenesis via bone morphogenetic protein 4-dependent and -independent mechanisms. |
| Q35612446 | Identification of BMP and activin membrane-bound inhibitor (BAMBI) as a potent negative regulator of adipogenesis and modulator of autocrine/paracrine adipogenic factors |
| Q34472039 | Identification of inducible brown adipocyte progenitors residing in skeletal muscle and white fat. |
| Q35176549 | Identification of the transcription factor ZEB1 as a central component of the adipogenic gene regulatory network |
| Q37058147 | Identification of zinc finger protein Bcl6 as a novel regulator of early adipose commitment |
| Q37665422 | Improved methodologies for the study of adipose biology: insights gained and opportunities ahead |
| Q38724549 | In Vitro and in Vivo Analyses Reveal Profound Effects of Fibroblast Growth Factor 16 as a Metabolic Regulator |
| Q39673628 | Indomethacin promotes adipogenesis of mesenchymal stem cells through a cyclooxygenase independent mechanism |
| Q39783162 | Inhibitory effect of evodiamine alone and in combination with rosiglitazone on in vitro adipocyte differentiation and in vivo obesity related to diabetes |
| Q37808266 | Integrative physiology of the aging bone: insights from animal and cellular models |
| Q34454920 | Involvement of cytoskeleton-associated proteins in the commitment of C3H10T1/2 pluripotent stem cells to adipocyte lineage induced by BMP2/4 |
| Q47101513 | Lack of Adipocyte-Fndc5/Irisin Expression and Secretion Reduces Thermogenesis and Enhances Adipogenesis |
| Q38810222 | Lsd1 prevents age-programed loss of beige adipocytes |
| Q36828792 | Macrophage-induced adipose tissue dysfunction and the preadipocyte: should I stay (and differentiate) or should I go? |
| Q39529568 | Mediator MED23 links insulin signaling to the adipogenesis transcription cascade |
| Q48166426 | Mesenchymal Stem Cells: Cell Fate Decision to Osteoblast or Adipocyte and Application in Osteoporosis Treatment |
| Q38729746 | Mesenchymal stem cells in obesity: insights for translational applications |
| Q37060793 | MiR-503 inhibits adipogenesis by targeting bone morphogenetic protein receptor 1a. |
| Q36708530 | MicroRNA-140 Promotes Adipocyte Lineage Commitment of C3H10T1/2 Pluripotent Stem Cells via Targeting Osteopetrosis-associated Transmembrane Protein 1 |
| Q37210859 | Mitochondrial dysfunction in obesity |
| Q98735917 | Molecular Mechanism of Stem Cell Differentiation into Adipocytes and Adipocyte Differentiation of Malignant Tumor |
| Q26770105 | Molecular Regulation of Adipogenesis and Potential Anti-Adipogenic Bioactive Molecules |
| Q38241502 | Molecular pathways regulating the formation of brown-like adipocytes in white adipose tissue |
| Q43215836 | Myocardin-related transcription factor A regulates conversion of progenitors to beige adipocytes |
| Q35070319 | Myostatin modulates adipogenesis to generate adipocytes with favorable metabolic effects |
| Q37879255 | Myostatin: A novel insight into its role in metabolism, signal pathways, and expression regulation |
| Q24652521 | New role of bone morphogenetic protein 7 in brown adipogenesis and energy expenditure |
| Q38686350 | Non-viral approaches for direct conversion into mesenchymal cell types: Potential application in tissue engineering |
| Q42107342 | Nuclear localization of DMP1 proteins suggests a role in intracellular signaling |
| Q35806814 | Obesity Resistance and Enhanced Insulin Sensitivity in Ahnak-/- Mice Fed a High Fat Diet Are Related to Impaired Adipogenesis and Increased Energy Expenditure |
| Q40119662 | Osteogenic and adipogenic potential of porcine adipose mesenchymal stem cells |
| Q47711942 | Osteogenic potential of adipogenic predifferentiated human bone marrow-derived multipotent stromal cells for bone tissue-engineering |
| Q26864900 | Overactive bone morphogenetic protein signaling in heterotopic ossification and Duchenne muscular dystrophy |
| Q41991392 | Oxidative stress induces imbalance of adipogenic/osteoblastic lineage commitment in mesenchymal stem cells through decreasing SIRT1 functions |
| Q41871002 | PPARγ ligand production is tightly linked to clonal expansion during initiation of adipocyte differentiation |
| Q33965312 | Post-transcriptional regulation in osteoblasts using localized delivery of miR-29a inhibitor from nanofibers to enhance extracellular matrix deposition |
| Q38390268 | Prmt7 is dispensable in tissue culture models for adipogenic differentiation |
| Q38708579 | Probe-Dependent Negative Allosteric Modulators of the Long-Chain Free Fatty Acid Receptor FFA4. |
| Q38202879 | Redox mechanisms in regulation of adipocyte differentiation: beyond a general stress response |
| Q37220951 | Retinaldehyde dehydrogenase 1 regulates a thermogenic program in white adipose tissue |
| Q39537935 | Retinoic acid inhibits BMP4-induced C3H10T1/2 stem cell commitment to adipocyte via downregulating Smad/p38MAPK signaling |
| Q47676663 | Retinoic acid inhibits white adipogenesis by disrupting GADD45A-mediated Zfp423 DNA demethylation. |
| Q46134215 | Retinoid X Receptor Activation Alters the Chromatin Landscape To Commit Mesenchymal Stem Cells to the Adipose Lineage. |
| Q38177814 | Review of Signaling Pathways Governing MSC Osteogenic and Adipogenic Differentiation. |
| Q28085224 | Revisiting the adipocyte: a model for integration of cytokine signaling in the regulation of energy metabolism |
| Q35536339 | RhoGDIβ Inhibits Bone Morphogenetic Protein 4 (BMP4)-induced Adipocyte Lineage Commitment and Favors Smooth Muscle-like Cell Differentiation |
| Q39042452 | Role of bone morphogenetic protein 4 in the differentiation of brown fat-like adipocytes |
| Q47130478 | SCARA5 plays a critical role in the commitment of mesenchymal stem cells to adipogenesis |
| Q37718426 | SIRT1 suppresses adipogenesis by activating Wnt/β-catenin signaling in vivo and in vitro |
| Q47327411 | Sclerostin influences body composition by regulating catabolic and anabolic metabolism in adipocytes. |
| Q92705326 | Senile Osteoporosis: The Involvement of Differentiation and Senescence of Bone Marrow Stromal Cells |
| Q37164220 | Shp2 suppresses the adipogenic differentiation of preadipocyte 3T3-L1 cells at an early stage |
| Q36342092 | Smad8/BMP2‐engineered mesenchymal stem cells induce accelerated recovery of the biomechanical properties of the achilles tendon |
| Q38935993 | Sphingosine-1-phosphate inhibits differentiation of C3H10T1/2 cells into adipocyte |
| Q38754121 | Sphingosine-1-phosphate-enhanced Wnt5a promotes osteogenic differentiation in C3H10T1/2 cells |
| Q35016478 | Stable stem cell commitment to the adipocyte lineage by inhibition of DNA methylation: role of the BMP-4 gene. |
| Q36647686 | TGF-b superfamily cytokine MIC-1/GDF15 is a physiological appetite and body weight regulator |
| Q39308262 | TGF-β Family Signaling in Mesenchymal Differentiation |
| Q93036211 | TGF-β/SMAD signaling regulation of mesenchymal stem cells in adipocyte commitment |
| Q28473419 | Tgf-Beta inhibition restores terminal osteoblast differentiation to suppress myeloma growth |
| Q41849781 | The Novel Secreted Adipokine WNT1-inducible Signaling Pathway Protein 2 (WISP2) Is a Mesenchymal Cell Activator of Canonical WNT. |
| Q35902839 | The WNT Inhibitor Dickkopf 1 and Bone Morphogenetic Protein 4 Rescue Adipogenesis in Hypertrophic Obesity in Humans |
| Q33521230 | The ZEB1 transcription factor is a novel repressor of adiposity in female mice |
| Q39460852 | The actin-binding domain of actin filament-associated protein (AFAP) is involved in the regulation of cytoskeletal structure |
| Q46142386 | The activin-βA/BMP-2 chimera AB204 is a strong stimulator of adipogenesis |
| Q47326297 | The dual role of BMP4 in adipogenesis and metabolism |
| Q42809852 | The forkhead transcription factor FOXO1 stimulates the expression of the adipocyte resistin gene. |
| Q38608775 | The fusion protein SS18-SSX1 employs core Wnt pathway transcription factors to induce a partial Wnt signature in synovial sarcoma |
| Q37369119 | The human lipodystrophy gene product Berardinelli-Seip congenital lipodystrophy 2/seipin plays a key role in adipocyte differentiation |
| Q31120243 | The immunoglobulin superfamily protein differentiation of embryonic stem cells 1 (dies1) has a regulatory role in preadipocyte to adipocyte conversion |
| Q42709950 | The miR-181d-regulated metalloproteinase Adamts1 enzymatically impairs adipogenesis via ECM remodeling |
| Q89022203 | The potential of brown adipogenesis and browning in porcine bone marrow-derived mesenchymal stem cells1 |
| Q90374946 | The regulatory protein SnoN antagonizes activin/Smad2 protein signaling and thereby promotes adipocyte differentiation and obesity in mice |
| Q31118490 | The role of paracrine and autocrine signaling in the early phase of adipogenic differentiation of adipose-derived stem cells |
| Q87840724 | Three-dimensional spheroid culture of adipose stromal vascular cells for studying adipogenesis in beef cattle |
| Q38947016 | Thyroid hormone acting via TRβ induces expression of browning genes in mouse bone marrow adipose tissue. |
| Q37429465 | Transcriptional control of brown adipocyte development and physiological function--of mice and men. |
| Q33753951 | Transcriptional control of preadipocyte determination by Zfp423. |
| Q92239529 | Up-regulation of bone morphogenetic protein and its signaling molecules following castration of bulls and their association with intramuscular fat content in Korean cattle |
| Q33678794 | Utility of transplantation in studying adipocyte biogenesis and function |
| Q90663628 | Vesicles Shed by Pathological Murine Adipocytes Spread Pathology: Characterization and Functional Role of Insulin Resistant/Hypertrophied Adiposomes |
| Q48301972 | Visceral and subcutaneous adipose tissue express and secrete functional alpha2hsglycoprotein (fetuin a) especially in obesity |
| Q92257387 | Vulpinic Acid Controls Stem Cell Fate toward Osteogenesis and Adipogenesis |
| Q36616934 | WISP2 regulates preadipocyte commitment and PPARγ activation by BMP4. |
| Q48603044 | WITHDRAWN: Modulation of adipocyte function by the TGF-β family |
| Q47624355 | miR-27 impairs the adipogenic lineage commitment via targeting lysyl oxidase |
| Q38090591 | microRNAs regulate adipocyte differentiation |
| Q47927399 | p107 is a crucial regulator for determining the adipocyte lineage fate choices of stem cells |
| Q57161298 | p53 Functions in Adipose Tissue Metabolism and Homeostasis |
Search more.