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Acetylation of PAX7 controls muscle stem cell self-renewal and differentiation potential in mice
2021
Nature Communications
AbstractMuscle stem cell function has been suggested to be regulated by Acetyl-CoA and NAD+ availability, but the mechanisms remain unclear. Here we report the identification of two acetylation sites on PAX7 that positively regulate its transcriptional activity. Lack of PAX7 acetylation reduces DNA binding, specifically to the homeobox motif. The acetyltransferase MYST1 stimulated by Acetyl-CoA, and the deacetylase SIRT2 stimulated by NAD +, are identified as direct regulators of PAX7
doi:10.1038/s41467-021-23577-z
pmid:34059674
fatcat:ueqqgdgqjve3rbrcd6lqyb6s3i