Studies on histone phosphorylation during transitions in chromatin structure occurring in vivo during spermatogenesis and early embryogenesis in sea urchins are reviewed and evaluated in the light of recent studies on histone phosphorylation occurring during chromatin synthesis in frog egg extracts in vitro and evidence that protein kinases and phosphatases play direct roles in the regulation of cellular structure. Sperm-specific histone variants Sp H1 and Sp H2B are maintained as phosphorylated derivatives N and O/P throughout spermatogenesis and early embryogenesis and egg specific histone variants CS H1 and CS H2A are phosphorylated during early embryogenesis. These developmental correlations provide clues about the roles of histone phosphorylation in control of chromatin structure in vivo and provide a basis for the interpretation of data obtained from in-vitro sperm chromatin remodeling in egg extracts and from biochemical studies on the effects of histone phosphorylation on DNA binding. The potential consequences for chromatin structure of the various histone phosphorylation events observed in sea urchins and frog egg extracts are discussed.