| scholarly article | Q13442814 |
| P2093 | author name string | Deena Small | |
| Lucy Liaw | |||
| Bahman Rostama | |||
| Yuefeng Tang | |||
| Sumithra Urs | |||
| Bryce Turner | |||
| P2860 | cites work | A non-transmembrane form of Jagged-1 regulates the formation of matrix-dependent chord-like structures | Q22253207 |
| Soluble Jagged 1 represses the function of its transmembrane form to induce the formation of the Src-dependent chord-like phenotype | Q24291369 | ||
| Members of the Jagged/Notch gene families are expressed in injured arteries and regulate cell phenotype via alterations in cell matrix and cell-cell interaction | Q24291667 | ||
| Obese gene expression at in vivo levels by fat pads derived from s.c. implanted 3T3-F442A preadipocytes | Q24681106 | ||
| Regulation of human skeletal stem cells differentiation by Dlk1/Pref-1 | Q28255069 | ||
| Adipsin, a biomarker of gastrointestinal toxicity mediated by a functional gamma-secretase inhibitor | Q28573596 | ||
| The EGF-like protein dlk1 inhibits notch signaling and potentiates adipogenesis of mesenchymal cells | Q28592382 | ||
| Dual roles for the Notch target gene Hes-1 in the differentiation of 3T3-L1 preadipocytes | Q28593674 | ||
| Notch signalling: a simple pathway becomes complex | Q29555851 | ||
| Obesity, metabolic syndrome, adipocytes and vascular function: A holistic viewpoint | Q30396337 | ||
| Chemerin, a novel adipokine in the regulation of angiogenesis | Q33849505 | ||
| Sprouty1 is a critical regulatory switch of mesenchymal stem cell lineage allocation | Q34072235 | ||
| Cyclin D3 promotes adipogenesis through activation of peroxisome proliferator-activated receptor gamma | Q34124151 | ||
| Formation of normally differentiated subcutaneous fat pads by an established preadipose cell line | Q34233127 | ||
| Notch signaling in vascular development | Q35077358 | ||
| Adiponectin stimulates angiogenesis by promoting cross-talk between AMP-activated protein kinase and Akt signaling in endothelial cells | Q35218922 | ||
| Adipose tissue angiogenesis | Q35698318 | ||
| Notch signaling. | Q36401283 | ||
| Cardioprotection by adiponectin | Q36510181 | ||
| Notch signaling in blood vessels: who is talking to whom about what? | Q36843651 | ||
| Soluble forms of the Notch ligands Delta1 and Jagged1 promote in vivo tumorigenicity in NIH3T3 fibroblasts with distinct phenotypes | Q36855712 | ||
| Angiogenesis and obesity | Q37002274 | ||
| Cardiovascular and hematopoietic defects associated with Notch1 activation in embryonic Tie2-expressing populations | Q37124971 | ||
| Enhanced proliferation of human umbilical vein endothelial cells and differentiation of 3T3-L1 adipocytes in coculture | Q37399535 | ||
| Minireview: Pref-1: role in adipogenesis and mesenchymal cell fate | Q37418152 | ||
| Presenilin enhancer-2 (PSENEN), a component of the gamma-secretase complex, is involved in adipocyte differentiation | Q37547503 | ||
| Notch Targets and Their Regulation | Q37785199 | ||
| Cell line models for differentiation: preadipocytes and adipocytes. | Q37791765 | ||
| Modulation of angiogenesis during adipose tissue development in murine models of obesity | Q38323635 | ||
| Biological action of leptin as an angiogenic factor | Q38333557 | ||
| Notch signaling enhances osteogenic differentiation while inhibiting adipogenesis in primary human bone marrow stromal cells | Q38353026 | ||
| Paracrine Regulation of Angiogenesis and Adipocyte Differentiation During In Vivo Adipogenesis | Q42574886 | ||
| Notch 1 impairs osteoblastic cell differentiation | Q42796277 | ||
| The spatiotemporal development of adipose tissue | Q42803974 | ||
| Notch activation suppresses fibroblast growth factor-dependent cellular transformation | Q42804897 | ||
| Functional analysis of Hes-1 in preadipocytes | Q42808153 | ||
| dlk1 specifically interacts with insulin-like growth factor binding protein 1 to modulate adipogenesis of 3T3-L1 cells | Q42813317 | ||
| Generation of mature fat pads in vitro and in vivo utilizing 3-D long-term culture of 3T3-L1 preadipocytes | Q42825227 | ||
| Consequences of Notch-mediated induction of Jagged1. | Q42828884 | ||
| Angiogenesis in an in vivo model of adipose tissue development | Q42829775 | ||
| The non-transmembrane form of Delta1, but not of Jagged1, induces normal migratory behavior accompanied by fibroblast growth factor receptor 1-dependent transformation | Q42831577 | ||
| Notch-1 controls the expression of fatty acid-activated transcription factors and is required for adipogenesis | Q42833823 | ||
| Adipose tissue growth and regression are regulated by angiopoietin-1 | Q42833996 | ||
| Coculture of endothelial cells and mature adipocytes actively promotes immature preadipocyte development in vitro. | Q44374637 | ||
| Adipokine resistin promotes in vitro angiogenesis of human endothelial cells | Q46974364 | ||
| The non-canonical NOTCH ligand DLK1 exhibits a novel vascular role as a strong inhibitor of angiogenesis. | Q47073688 | ||
| Globular adiponectin improves high glucose-suppressed endothelial progenitor cell function through endothelial nitric oxide synthase dependent mechanisms | Q48886329 | ||
| gamma-secretase inhibitor induces adipogenesis of adipose-derived stem cells by regulation of Notch and PPAR-gamma. | Q50578564 | ||
| Angiogenic role of LYVE-1-positive macrophages in adipose tissue. | Q51995490 | ||
| Direct response to Notch activation: signaling crosstalk and incoherent logic. | Q52696109 | ||
| Soluble Jagged-1 inhibits neointima formation by attenuating Notch-Herp2 signaling | Q64379932 | ||
| The influence of extracellular matrix substrata on preadipocyte development in serum-free cultures of stromal-vascular cells | Q71704303 | ||
| Extracellular matrix components secreted by microvascular endothelial cells stimulate preadipocyte differentiation in vitro | Q72054192 | ||
| Newly recruited and pre-existing preadipocytes in cultures of porcine stromal-vascular cells: morphology, expression of extracellular matrix components, and lipid accretion | Q74179569 | ||
| Notch pathway is dispensable for adipocyte specification | Q80539070 | ||
| Soluble Jagged1 attenuates lateral inhibition, allowing for the clonal expansion of neural crest stem cells | Q80970246 | ||
| P433 | issue | 1 | |
| P921 | main subject | adipocyte | Q357519 |
| P304 | page(s) | 46-57 | |
| P577 | publication date | 2012-01-01 | |
| P1433 | published in | Adipocyte | Q26853830 |
| P1476 | title | Effect of soluble Jagged1-mediated inhibition of Notch signaling on proliferation and differentiation of an adipocyte progenitor cell model | |
| P478 | volume | 1 |
| Q30384852 | Adipocyte-specific blockade of gamma-secretase, but not inhibition of Notch activity, reduces adipose insulin sensitivity. |
| Q59337083 | DLK proteins modulate NOTCH signaling to influence a brown or white 3T3-L1 adipocyte fate |
| Q58573687 | Female Mice Have Higher Angiogenesis in Perigonadal Adipose Tissue Than Males in Response to High-Fat Diet |
| Q38087992 | Implications of multipotent mesenchymal stromal cell aging |
| Q34275062 | Inhibition of Notch signaling promotes browning of white adipose tissue and ameliorates obesity |
| Q35062669 | Jagged-Delta asymmetry in Notch signaling can give rise to a Sender/Receiver hybrid phenotype |
| Q38393672 | Mass spectrometry analysis of adipose-derived stem cells reveals a significant effect of hypoxia on pathways regulating extracellular matrix. |
| Q34712757 | Notch signaling pathway activation in normal and hyperglycemic rats differs in the stem cells of visceral and subcutaneous adipose tissue |
| Q64060955 | Resistance to visceral obesity is associated with increased locomotion in mice expressing an endothelial cell-specific fibroblast growth factor 1 transgene |
| Q39015111 | Roles of Notch Signaling in Adipocyte Progenitor Cells and Mature Adipocytes |
| Q38746665 | Stimulation of Notch Signaling in Mouse Osteoclast Precursors. |
| Q36393023 | Total control of fat cells from adipogenesis to apoptosis using a xanthene analog |
| Q47137849 | Transcriptional changes in mesenteric and subcutaneous adipose tissue from Holstein cows in response to plane of dietary energy |
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