Change in a nuclear phosphoprotein during in vitro myogenesis

Synthesis and phosphorylation of total myoblast nuclear proteins have been studied during three stages of in vitro myogenesis: myoblast proliferation (22 h), pre-fusion mitotic arrest (44 h), and in myotubes (68 h). Phosphorylation in intact cells with ³²P]orthophosphate followed by SDS slab gel electrophoresis and radioautography of nuclear proteins reveals a striking decline in phosphorylation of a 100 000 D band at 44 h. This phosphoprotein band is not detectable at 68 h. Phosphorylation of isolated nuclei with γ-³²P]ATP reveals the 100 000 D band as the major phosphoprotein which declines to 40% by 68 h. Assessment of content and synthesis of individual nuclear proteins by Coomassie Blue staining and -³⁵S]methionine labelling reveals no appreciable changes in co-migrating 100 000 D bands, suggesting that the decline in phosphorylation is caused by either decreased kinase or increased phosphatase activity.