Abstract
Newly synthesized DNA-binding proteins were isolated from the nuclei and, separately, from the cytoplasm of sea urchin morula stage embryos. The presence of 5-bromode-oxyuridine during embryogenesis did not appear to alter the synthesis of either class of DNA-binding proteins. This result tends to argue that cell differentiation in early embryos is not regulated by differential synthesis of DNA-binding proteins. Sea urchin morulae synthesize a broad range, by molecular weight, of cytoplasmic DNA-binding proteins which dissociate from sea urchin DNA-cellulose at relatively high salt concentrations (0.6–2.0 M NaCl). The most prominant of these apparently high-binding-affinity proteins has an approximate molecular weight of 33,000.
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