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Items: 1 to 20 of 40

1.

Amino acid mutations in the caldesmon COOH-terminal functional domain increase force generation in bladder smooth muscle.

Deng M, Boopathi E, Hypolite JA, Raabe T, Chang S, Zderic S, Wein AJ, Chacko S.

Am J Physiol Renal Physiol. 2013 Nov 15;305(10):F1455-65. doi: 10.1152/ajprenal.00174.2013. Epub 2013 Aug 28.

2.

Ablation of smooth muscle caldesmon affects the relaxation kinetics of arterial muscle.

Guo H, Huang R, Semba S, Kordowska J, Huh YH, Khalina-Stackpole Y, Mabuchi K, Kitazawa T, Wang CL.

Pflugers Arch. 2013 Feb;465(2):283-94. doi: 10.1007/s00424-012-1178-8. Epub 2012 Nov 14.

3.

Specific disruption of smooth muscle caldesmon expression in mice.

Guo H, Wang CL.

Biochem Biophys Res Commun. 2005 May 20;330(4):1132-7.

PMID:
15823561
4.

Sox4-mediated caldesmon expression facilitates differentiation of skeletal myoblasts.

Jang SM, Kim JW, Kim D, Kim CH, An JH, Choi KH, Rhee S.

J Cell Sci. 2013 Nov 15;126(Pt 22):5178-88. doi: 10.1242/jcs.131581. Epub 2013 Sep 17.

5.

Diversification of caldesmon-linked actin cytoskeleton in cell motility.

Mayanagi T, Sobue K.

Cell Adh Migr. 2011 Mar-Apr;5(2):150-9. Epub 2011 Mar 1. Review.

7.

Regulation of microfilament organization by Kaposi sarcoma-associated herpes virus-cyclin.CDK6 phosphorylation of caldesmon.

Cuomo ME, Knebel A, Platt G, Morrice N, Cohen P, Mittnacht S.

J Biol Chem. 2005 Oct 28;280(43):35844-58. Epub 2005 Aug 22.

8.

The role of caldesmon in the regulation of receptor capping in mouse T-lymphoma cell.

Walker G, Kerrick WG, Bourguignon LY.

J Biol Chem. 1989 Jan 5;264(1):496-500.

9.

Chromosomal assignment of six muscle-specific genes in cattle.

Ryan AM, Schelling CP, Womack JE, Gallagher DS Jr.

Anim Genet. 1997 Apr;28(2):84-7.

PMID:
9172305
10.

Subcellular distribution and relative expression of fibrocyte markers in the CD/1 mouse cochlea assessed by semiquantitative immunogold electron microscopy.

Mahendrasingam S, Bebb C, Shepard E, Furness DN.

J Histochem Cytochem. 2011 Nov;59(11):984-1000. doi: 10.1369/0022155411421801.

11.

Unique vascular morphology of the fourth aortic arches: possible implications for pathogenesis of type-B aortic arch interruption and anomalous right subclavian artery.

Bergwerff M, DeRuiter MC, Hall S, Poelmann RE, Gittenberger-de Groot AC.

Cardiovasc Res. 1999 Oct;44(1):185-96.

PMID:
10615402
12.

p53 suppresses Src-induced podosome and rosette formation and cellular invasiveness through the upregulation of caldesmon.

Mukhopadhyay UK, Eves R, Jia L, Mooney P, Mak AS.

Mol Cell Biol. 2009 Jun;29(11):3088-98. doi: 10.1128/MCB.01816-08. Epub 2009 Apr 6.

13.

Serum response factor, its cofactors, and epithelial-mesenchymal signaling in urinary bladder smooth muscle formation.

Li J, Shiroyanagi Y, Lin G, Haqq C, Lin CS, Lue TF, Willingham E, Baskin LS.

Differentiation. 2006 Feb;74(1):30-9.

PMID:
16466398
14.

AT2 receptor and vascular smooth muscle cell differentiation in vascular development.

Yamada H, Akishita M, Ito M, Tamura K, Daviet L, Lehtonen JY, Dzau VJ, Horiuchi M.

Hypertension. 1999 Jun;33(6):1414-9.

PMID:
10373225
15.

Acquisition of the contractile phenotype by murine arterial smooth muscle cells depends on the Mir143/145 gene cluster.

Boettger T, Beetz N, Kostin S, Schneider J, Krüger M, Hein L, Braun T.

J Clin Invest. 2009 Sep;119(9):2634-47. doi: 10.1172/JCI38864. Epub 2009 Aug 17.

16.

Evaluation of candidate markers for the peritubular myoid cell lineage in the developing mouse testis.

Jeanes A, Wilhelm D, Wilson MJ, Bowles J, McClive PJ, Sinclair AH, Koopman P.

Reproduction. 2005 Oct;130(4):509-16.

PMID:
16183868
17.

Defective paracrine signalling by TGFbeta in yolk sac vasculature of endoglin mutant mice: a paradigm for hereditary haemorrhagic telangiectasia.

Carvalho RL, Jonker L, Goumans MJ, Larsson J, Bouwman P, Karlsson S, Dijke PT, Arthur HM, Mummery CL.

Development. 2004 Dec;131(24):6237-47. Epub 2004 Nov 17.

18.

Integrin-β5 and zyxin mediate formation of ventral stress fibers in response to transforming growth factor β.

Bianchi-Smiraglia A, Kunnev D, Limoge M, Lee A, Beckerle MC, Bakin AV.

Cell Cycle. 2013 Nov 1;12(21):3377-89. doi: 10.4161/cc.26388. Epub 2013 Sep 13.

19.

Hopx and Hdac2 interact to modulate Gata4 acetylation and embryonic cardiac myocyte proliferation.

Trivedi CM, Zhu W, Wang Q, Jia C, Kee HJ, Li L, Hannenhalli S, Epstein JA.

Dev Cell. 2010 Sep 14;19(3):450-9. doi: 10.1016/j.devcel.2010.08.012.

20.

microRNA-133a regulates cardiomyocyte proliferation and suppresses smooth muscle gene expression in the heart.

Liu N, Bezprozvannaya S, Williams AH, Qi X, Richardson JA, Bassel-Duby R, Olson EN.

Genes Dev. 2008 Dec 1;22(23):3242-54. doi: 10.1101/gad.1738708. Epub 2008 Nov 17.

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