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Items: 15

1.

Disruption of a GATA4/Ankrd1 signaling axis in cardiomyocytes leads to sarcomere disarray: implications for anthracycline cardiomyopathy.

Chen B, Zhong L, Roush SF, Pentassuglia L, Peng X, Samaras S, Davidson JM, Sawyer DB, Lim CC.

PLoS One. 2012;7(4):e35743. doi: 10.1371/journal.pone.0035743. Epub 2012 Apr 20.

2.

The enigmatic role of the ankyrin repeat domain 1 gene in heart development and disease.

Mikhailov AT, Torrado M.

Int J Dev Biol. 2008;52(7):811-21. doi: 10.1387/ijdb.082655am. Review.

3.

CARP: fishing for novel mechanisms of neovascularization.

Samaras SE, Shi Y, Davidson JM.

J Investig Dermatol Symp Proc. 2006 Sep;11(1):124-31. Review.

4.

Mechanisms of anthracycline cardiac injury: can we identify strategies for cardioprotection?

Sawyer DB, Peng X, Chen B, Pentassuglia L, Lim CC.

Prog Cardiovasc Dis. 2010 Sep-Oct;53(2):105-13. doi: 10.1016/j.pcad.2010.06.007. Review.

5.

Molecular and cellular mechanisms of anthracycline cardiotoxicity.

Chen B, Peng X, Pentassuglia L, Lim CC, Sawyer DB.

Cardiovasc Toxicol. 2007;7(2):114-21. Review.

PMID:
17652815
6.

Activation of the ubiquitin-proteasome system in doxorubicin cardiomyopathy.

Ranek MJ, Wang X.

Curr Hypertens Rep. 2009 Dec;11(6):389-95. Review.

7.

Regulation of Cardiac Transcription Factor GATA4 by Post-Translational Modification in Cardiomyocyte Hypertrophy and Heart Failure.

Katanasaka Y, Suzuki H, Sunagawa Y, Hasegawa K, Morimoto T.

Int Heart J. 2016 Dec 2;57(6):672-675. Epub 2016 Nov 4. Review.

8.

Muscle ankyrin repeat proteins: their role in striated muscle function in health and disease.

Kojic S, Radojkovic D, Faulkner G.

Crit Rev Clin Lab Sci. 2011 Sep-Dec;48(5-6):269-94. doi: 10.3109/10408363.2011.643857. Review.

PMID:
22185618
9.

Cell biology of sarcomeric protein engineering: disease modeling and therapeutic potential.

Thompson BR, Metzger JM.

Anat Rec (Hoboken). 2014 Sep;297(9):1663-9. doi: 10.1002/ar.22966. Review.

10.

[Functional Analysis of GATA4 Complex, a Cardiac Hypertrophy-response Transcriptional Factor, Using a Proteomics Approach].

Sunagawa Y, Katanasaka Y, Wada H, Hasegawa K, Morimoto T.

Yakugaku Zasshi. 2016;136(2):151-6. doi: 10.1248/yakushi.15-00226-2. Review. Japanese.

11.

Targets for therapy in sarcomeric cardiomyopathies.

Tardiff JC, Carrier L, Bers DM, Poggesi C, Ferrantini C, Coppini R, Maier LS, Ashrafian H, Huke S, van der Velden J.

Cardiovasc Res. 2015 Apr 1;105(4):457-70. doi: 10.1093/cvr/cvv023. Epub 2015 Jan 29. Review.

12.

Transcriptional networks regulating the costamere, sarcomere, and other cytoskeletal structures in striated muscle.

Estrella NL, Naya FJ.

Cell Mol Life Sci. 2014 May;71(9):1641-56. doi: 10.1007/s00018-013-1512-0. Epub 2013 Nov 12. Review.

13.

Sarcomere imaging by quantum dots for the study of cardiac muscle physiology.

Kobirumaki-Shimozawa F, Oyama K, Serizawa T, Mizuno A, Kagemoto T, Shimozawa T, Ishiwata S, Kurihara S, Fukuda N.

J Biomed Biotechnol. 2012;2012:313814. doi: 10.1155/2012/313814. Epub 2012 Apr 11. Review.

14.

Research priorities in sarcomeric cardiomyopathies.

van der Velden J, Ho CY, Tardiff JC, Olivotto I, Knollmann BC, Carrier L.

Cardiovasc Res. 2015 Apr 1;105(4):449-56. doi: 10.1093/cvr/cvv019. Epub 2015 Jan 28. Review.

15.

The sarcomeric Z-disc and Z-discopathies.

Knöll R, Buyandelger B, Lab M.

J Biomed Biotechnol. 2011;2011:569628. doi: 10.1155/2011/569628. Epub 2011 Oct 18. Review.

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