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Satellite cells were isolated from leg skeletal muscles of adult mice and grown in culture. During the first few days in culture, satellite cells actively proliferated and starting on day 4 began to fuse into multinucleated myotubes. At various time points during the culture period, the biosynthesis of total cellular proteins and glycoproteins was analysed by pulse-labelling with radioactive leucine or sugars followed by electrophoretic analysis on two-dimensional gels. Our findings are: (1) Replicating mononucleated satellite cells on day 1 of culture did not synthesize detectable amounts of α and β tropomyosins, α-actin, and myosin light chains 1 and 2; (2) the synthesis of these polypeptides was readily detectable in multinucleated myotubes that formed by day 5–6 of culture; (3) other qualitative and quantitative differences in as yet unidentified proteins were observed in replicating cells as compared with multinucleated myotubes as well as to muscle fibroblasts; and (4) at least two distinct glucosamine-containing acidic glycoproteins of about 70 000 D and pI 5 were synthesized by myotubes, but not by replicating satellite cells.These data demonstrate that the biosynthetic programs for proteins and glycoproteins of cultured replicating satellite cells can be distinguished from those of multinucleated myotubes and from those of muscle fibroblasts. These data are interpreted to indicate that during muscle histogenesis in vivo, satellite cells become arrested prior to the expression of terminally differentiated traits.