Anti-Calponin antibody [EP798Y] (ab46794)

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ab46794 has been referenced in 49 publications.

  • Wang D  et al. Sox10(+) adult stem cells contribute to biomaterial encapsulation and microvascularization. Sci Rep 7:40295 (2017). ICC/IF ; Mouse . PubMed: 28071739
  • Fernández-Laso V  et al. TWEAK blockade decreases atherosclerotic lesion size and progression through suppression of STAT1 signaling in diabetic mice. Sci Rep 7:46679 (2017). IHC ; Mouse . PubMed: 28447667
  • Wu Y  et al. MicroRNA-214 regulates smooth muscle cell differentiation from stem cells by targeting RNA-binding protein QKI. Oncotarget 8:19866-19878 (2017). PubMed: 28186995
  • Guo Q  et al. Physiologically activated mammary fibroblasts promote postpartum mammary cancer. JCI Insight 2:e89206 (2017). IF ; Mouse . PubMed: 28352652
  • Zhu B  et al. Similar regulatory mechanisms of caveolins and cavins by myocardin family coactivators in arterial and bladder smooth muscle. PLoS One 12:e0176759 (2017). WB . PubMed: 28542204
  • Chen PY  et al. Fibroblast growth factor (FGF) signaling regulates transforming growth factor beta (TGFß)-dependent smooth muscle cell phenotype modulation. Sci Rep 6:33407 (2016). WB ; Mouse . PubMed: 27634335
  • Moser J  et al. Distinct Differences on Neointima Formation in Immunodeficient and Humanized Mice after Carotid or Femoral Arterial Injury. Sci Rep 6:35387 (2016). ICC/IF ; Mouse . PubMed: 27759053
  • Labrousse-Arias D  et al. HIF-2a-mediated induction of pulmonary thrombospondin-1 contributes to hypoxia-driven vascular remodelling and vasoconstriction. Cardiovasc Res 109:115-30 (2016). PubMed: 26503986
  • Saboor F  et al. Nestin-expressing vascular wall cells drive development of pulmonary hypertension. Eur Respir J 47:876-88 (2016). PubMed: 26699726
  • Xu B  et al. A proportion of primary squamous cell carcinomas of the parotid gland harbour high-risk human papillomavirus. Histopathology N/A:N/A (2016). PubMed: 27374168
  • Krawczyk KK  et al. Assessing the contribution of thrombospondin-4 induction and ATF6a activation to endoplasmic reticulum expansion and phenotypic modulation in bladder outlet obstruction. Sci Rep 6:32449 (2016). WB ; Mouse . PubMed: 27581066
  • Song H  et al. Irisin reverses platelet derived growth factor-BB-induced vascular smooth muscle cells phenotype modulation through STAT3 signaling pathway. Biochem Biophys Res Commun 479:139-145 (2016). PubMed: 27416763
  • Rothdiener M  et al. Stretching human mesenchymal stromal cells on stiffness-customized collagen type I generates a smooth muscle marker profile without growth factor addition. Sci Rep 6:35840 (2016). WB, IHC-P ; Human . PubMed: 27775041
  • Okada H  et al. Phenotype and physiological significance of the endocardial smooth muscle cells in human failing hearts. Circ Heart Fail 8:149-55 (2015). IHC-P ; Human . PubMed: 25466765
  • Battiston KG  et al. Monocyte/macrophage cytokine activity regulates vascular smooth muscle cell function within a degradable polyurethane scaffold. Acta Biomater 10:1146-55 (2014). PubMed: 24361424
  • Nyp MF  et al. TRIP-1 via AKT modulation drives lung fibroblast/myofibroblast trans-differentiation. Respir Res 15:19 (2014). WB ; Human . PubMed: 24528651
  • Chaterji S  et al. Syndecan-1 regulates vascular smooth muscle cell phenotype. PLoS One 9:e89824 (2014). Mouse . PubMed: 24587062
  • Swärd K  et al. Arterial dysfunction but maintained systemic blood pressure in cavin-1-deficient mice. PLoS One 9:e92428 (2014). WB ; Human . PubMed: 24658465
  • Li H  et al. Perivascular adipose tissue-derived leptin promotes vascular smooth muscle cell phenotypic switching via p38 mitogen-activated protein kinase in metabolic syndrome rats. Exp Biol Med (Maywood) N/A:N/A (2014). PubMed: 24719379
  • Hu B  et al. Mechanical stretch suppresses microRNA-145 expression by activating extracellular signal-regulated kinase 1/2 and upregulating angiotensin-converting enzyme to alter vascular smooth muscle cell phenotype. PLoS One 9:e96338 (2014). WB ; Human . PubMed: 24848371
  • Castellanos-Rivera RM  et al. Recombination Signal Binding Protein for Ig-?J Region Regulates Juxtaglomerular Cell Phenotype by Activating the Myo-Endocrine Program and Suppressing Ectopic Gene Expression. J Am Soc Nephrol N/A:N/A (2014). PubMed: 24904090
  • Kurt B  et al. Chronic Hypoxia-Inducible Transcription Factor-2 Activation Stably Transforms Juxtaglomerular Renin Cells into Fibroblast-Like Cells In Vivo. J Am Soc Nephrol N/A:N/A (2014). Mouse . PubMed: 25071089
  • Song C  et al. DNA methylation reader MECP2: cell type- and differentiation stage-specific protein distribution. Epigenetics Chromatin 7:17 (2014). IHC-Fr ; Mouse, Rat . PubMed: 25170345
  • Chen YJ  et al. HSP70 colocalizes with PLK1 at the centrosome and disturbs spindle dynamics in cells arrested in mitosis by arsenic trioxide. Arch Toxicol 88:1711-23 (2014). Rat . PubMed: 24623308
  • Yang X  et al. Spry1 and Spry4 differentially regulate human aortic smooth muscle cell phenotype via Akt/FoxO/myocardin signaling. PLoS One 8:e58746 (2013). WB ; Human . PubMed: 23554919
  • Nunes SS  et al. Biowire: a platform for maturation of human pluripotent stem cell-derived cardiomyocytes. Nat Methods 10:781-7 (2013). PubMed: 23793239
  • Lee BL  et al. Synovial stem cells and their responses to the porosity of microfibrous scaffold. Acta Biomater 9:7264-75 (2013). PubMed: 23523935
  • Wang SS  et al. Early growth response 2 (Egr2) plays opposing roles in committing C3H10T1/2 stem cells to adipocytes and smooth muscle-like cells. Int J Biochem Cell Biol 45:1825-32 (2013). PubMed: 23751188
  • Yang J  et al. Epicardial calcineurin-NFAT signals through Smad2 to direct coronary smooth muscle cell and arterial wall development. Cardiovasc Res N/A:N/A (2013). PubMed: 23946498
  • Peng YC  et al. Sonic hedgehog signals to multiple prostate stromal stem cells that replenish distinct stromal subtypes during regeneration. Proc Natl Acad Sci U S A 110:20611-6 (2013). Mouse . PubMed: 24218555
  • Ko MK & Tan JC Contractile markers distinguish structures of the mouse aqueous drainage tract. Mol Vis 19:2561-70 (2013). Mouse . PubMed: 24357924
  • Mancarella S  et al. Targeted STIM deletion impairs calcium homeostasis, NFAT activation, and growth of smooth muscle. FASEB J 27:893-906 (2013). WB ; Mouse . PubMed: 23159931
  • Yu J  et al. The effect of stromal cell-derived factor-1a/heparin coating of biodegradable vascular grafts on the recruitment of both endothelial and smooth muscle progenitor cells for accelerated regeneration. Biomaterials 33:8062-74 (2012). IHC-Fr ; Rat . PubMed: 22884813
  • Turczynska KM  et al. MicroRNAs Are Essential for Stretch-induced Vascular Smooth Muscle Contractile Differentiation via MicroRNA (miR)-145-dependent Expression of L-type Calcium Channels. J Biol Chem 287:19199-206 (2012). WB ; Mouse . PubMed: 22474293
  • Merl J  et al. Direct comparison of MS-based label-free and SILAC quantitative proteome profiling strategies in primary retinal Müller cells. Proteomics 12:1902-11 (2012). WB . PubMed: 22623344
  • Carthy JM  et al. WNT3A induces a contractile and secretory phenotype in cultured vascular smooth muscle cells that is associated with increased gap junction communication. Lab Invest 92:246-55 (2012). WB ; Mouse . PubMed: 22105568
  • Li X  et al. Uniaxial mechanical strain modulates the differentiation of neural crest stem cells into smooth muscle lineage on micropatterned surfaces. PLoS One 6:e26029 (2011). ICC/IF ; Human . PubMed: 22016804
  • Torrado M  et al. Targeted gene-silencing reveals the functional significance of myocardin signaling in the failing heart. PLoS One 6:e26392 (2011). PubMed: 22028870
  • Elliott DA  et al. NKX2-5(eGFP/w) hESCs for isolation of human cardiac progenitors and cardiomyocytes. Nat Methods 8:1037-40 (2011). IHC-P ; Human . PubMed: 22020065
  • Albinsson S  et al. Smooth Muscle miRNAs Are Critical for Post-Natal Regulation of Blood Pressure and Vascular Function. PLoS One 6:e18869 (2011). WB ; Mouse . PubMed: 21526127
  • Sharifpoor S  et al. Functional characterization of human coronary artery smooth muscle cells under cyclic mechanical strain in a degradable polyurethane scaffold. Biomaterials 32:4816-29 (2011). WB, IHC-P ; Human . PubMed: 21463894
  • Mamaeva D  et al. Isolation of mineralizing Nestin+ Nkx6.1+ vascular muscular cells from the adult human spinal cord. BMC Neurosci 12:99 (2011). IHC-P ; Human . PubMed: 21985235
  • Hidaka K  et al. The cellular prion protein identifies bipotential cardiomyogenic progenitors. Circ Res 106:111-9 (2010). ICC/IF ; Mouse . PubMed: 19910576
  • Acampora KB  et al. Increased synthetic phenotype behavior of smooth muscle cells in response to in vitro balloon angioplasty injury model. Ann Vasc Surg 24:116-26 (2010). PubMed: 19781909
  • Shai SY  et al. Smooth muscle cell-specific insulin-like growth factor-1 overexpression in Apoe-/- mice does not alter atherosclerotic plaque burden but increases features of plaque stability. Arterioscler Thromb Vasc Biol 30:1916-24 (2010). WB, IHC-P ; Mouse . PubMed: 20671230
  • Margariti A  et al. Splicing of HDAC7 modulates the SRF-myocardin complex during stem-cell differentiation towards smooth muscle cells. J Cell Sci 122:460-70 (2009). WB ; Mouse . PubMed: 19174469
  • Quevedo HC  et al. Allogeneic mesenchymal stem cells restore cardiac function in chronic ischemic cardiomyopathy via trilineage differentiating capacity. Proc Natl Acad Sci U S A 106:14022-7 (2009). IHC-P ; Pig . PubMed: 19666564
  • Schenke-Layland K  et al. Reprogrammed mouse fibroblasts differentiate into cells of the cardiovascular and hematopoietic lineages. Stem Cells 26:1537-46 (2008). ICC/IF ; Mouse . PubMed: 18450826
  • Narazaki G  et al. Directed and systematic differentiation of cardiovascular cells from mouse induced pluripotent stem cells. Circulation 118:498-506 (2008). ICC/IF ; Mouse . PubMed: 18625891


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