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The mammalian Sin3 proteins are required for muscle development and sarcomere specification.


ABSTRACT: The highly related mammalian Sin3A and Sin3B proteins provide a versatile platform for chromatin-modifying activities. Sin3-containing complexes play a role in gene repression through deacetylation of nucleosomes. Here, we explore a role for Sin3 in myogenesis by examining the phenotypes resulting from acute somatic deletion of both isoforms in vivo and from primary myotubes in vitro. Myotubes ablated for Sin3A alone, but not Sin3B, displayed gross defects in sarcomere structure that were considerably enhanced upon simultaneous ablation of both isoforms. Massively parallel sequencing of Sin3A- and Sin3B-bound genomic loci revealed a subset of target genes directly involved in sarcomere function that are positively regulated by Sin3A and Sin3B proteins. Both proteins were coordinately recruited to a substantial number of genes. Interestingly, depletion of Sin3B led to compensatory increases in Sin3A recruitment at certain target loci, but Sin3B was never found to compensate for Sin3A loss. Thus, our analyses describe a novel transcriptional role for Sin3A and Sin3B proteins associated with maintenance of differentiated muscle cells.

SUBMITTER: van Oevelen C 

PROVIDER: S-EPMC3004272 | biostudies-literature | 2010 Dec

REPOSITORIES: biostudies-literature

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The mammalian Sin3 proteins are required for muscle development and sarcomere specification.

van Oevelen Chris C   Bowman Christopher C   Pellegrino Jessica J   Asp Patrik P   Cheng Jemmie J   Parisi Fabio F   Micsinai Mariann M   Kluger Yuval Y   Chu Alphonse A   Blais Alexandre A   David Gregory G   Dynlacht Brian D BD  

Molecular and cellular biology 20101018 24


The highly related mammalian Sin3A and Sin3B proteins provide a versatile platform for chromatin-modifying activities. Sin3-containing complexes play a role in gene repression through deacetylation of nucleosomes. Here, we explore a role for Sin3 in myogenesis by examining the phenotypes resulting from acute somatic deletion of both isoforms in vivo and from primary myotubes in vitro. Myotubes ablated for Sin3A alone, but not Sin3B, displayed gross defects in sarcomere structure that were consid  ...[more]

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