Histone metabolism during amphibian metamorphosis: Isolation, characterization, and biosynthesis

Abstract

The amino acid incorporation rates of several classes of liver protein from Rana catesbeiana tadpoles were examined at different stages of spontaneous and thyroxine-induced metamorphosis, particular attention being given to histones. Incorporation data were corrected for the specific radioactivity of the free amino acid pools in tadpole liver. Little change was observed in the overall incorporation rates for the crude mitochondrial and total liver proteins during thyroxine treatment or at selected stages of spontaneous metamorphosis, except that the incorporation rates for these proteins were approximately twofold greater for the newly metamorphosed froglet than for the other stages. However, an increase in the ratio of the specific radioactivities of the total and crude mitochondrial liver protein within each set of animals was observed during late stages of spontaneous metamorphosis, as well as during the second through sixth days of thyroxine treatment. The amino acid incorporation rates of the histones for the late metamorphic and froglet stages of spontaneous metamorphosis were three- to fourfold higher than those of premetamorphic animals, but no significant changes were observed during thyroxine treatment. Thyroxine treatment also produced no detectable changes in the relative amounts or incorporation rates of the histone fractions or subfractions. Apparently the developmental changes induced by thyroxine do not involve a reorganization of the histone complement of chromatin at this level of analysis. Furthermore, since histone and DNA syntheses are tightly coupled, our results show that the extensive metabolic changes induced in tadpole liver by thyroxine occur in the absence of significant levels of cell division.