Open AccessZBTB17 ( MIZ1 ) Is Important for the Cardiac Stress Response and a Novel Candidate Gene for Cardiomyopathy and Heart Failure
Author(s) -
Byambajav Buyandelger,
Catherine Mansfield,
Sawa Kostin,
Onjee Choi,
Angharad M. Roberts,
James S. Ware,
Francesco Mazzarotto,
Francesco Pesce,
Rachel Buchan,
Rivka L. Isaacson,
Josée Vouffo,
Sylvia Gunkel,
Gudrun Knöll,
Sara J. McSweeney,
Heming Wei,
Andreas Perrot,
Conny Pfeiffer,
Mohammad R. Toliat,
Kristina M. Ilieva,
E. Krysztofinska,
Marina LópezOlañeta,
Jesús M. Gómez-Salinero,
Albrecht Schmidt,
KeatEng Ng,
Niels Teucher,
Ju Chen,
Martin Teichmann,
Martin Eilers,
Wilhelm Haverkamp,
Vera RegitzZagrosek,
Gerd Hasenfuß,
Thomas Braun,
Dudley J. Pennell,
Ian R. Gould,
Paul J.R. Barton,
Enrique LaraPezzi,
Sebastian Schäfer,
Norbert Hübner,
Leanne E. Felkin,
Declan P. O’Regan,
Thomas Brand,
Hendrik Milting,
Peter Nürnberg,
Michael Schneider,
Sanjay Prasad,
Enrico Petretto,
Ralph Knöll
Publication year - 2015
Publication title -
circulation cardiovascular genetics
Language(s) - English
Resource type - Journals
eISSN - 1942-325X
pISSN - 1942-3268
DOI - 10.1161/circgenetics.113.000690
Subject(s) - cardiomyopathy , cardiac myocyte , transcription factor , calcineurin , myocyte , biology , heart failure , microbiology and biotechnology , zinc finger , desmin , gene , gata4 , cancer research , genetics , medicine , immunology , immunohistochemistry , transplantation , vimentin
Mutations in sarcomeric and cytoskeletal proteins are a major cause of hereditary cardiomyopathies, but our knowledge remains incomplete as to how the genetic defects execute their effects.
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