Fertilization of sea urchin eggs is accompanied by 40 S ribosomal subunit phosphorylation

After fertilization of sea urchin (Arbacia punctulata) eggs, there is a single prominent alteration in the pattern of protein phosphorylation. In eggs preloaded with ³²PO₄, a 31,000 M_r protein (rp31) becomes labeled within 4 min of sperm addition. A new steady-state level of rp31 labeling is achieved by 11 min. The rate of protein synthesis in sea urchin zygotes also increases at 8–10 min after fertilization. Protein rp31 corresponds to mammalian ribosomal S6 because it cosediments with 40 S subunits on high salt-sucrose gradients, it is similar to the mammalian protein in M_r and charge, and it becomes phosphorylated during an increase in protein synthesis. The specific activity of phosphorylated rp31 (relative to rRNA) is similar between free 80 S monosomes and polysomes, indicating that rp31 phosphorylation is not sufficient for ribosomal activity. A phosphatase, highly specific for rp31, is present in extracts of eggs and very early embryos. This phosphatase becomes inactive at about the same time that the degree of labeling of rp31 increases in embryos. Evidently a control system that maintains a low level of rp31 phosphorylation is active in sea urchin eggs. Inactivation of this system shortly after fertilization leads to the accumulation of phosphorylated ribosomes.