Abstract
Changes in cyclic AMP, protein kinase, phosphorylase kinase, and phosphorylase levels were examined during development in the rat. In liver, cyclic AMP increased prenatally and for the first 10 postnatal days; protein kinase levels (both cyclic AMP-dependent and independent activities) were high prenatally and declined during the first 10 postnatal days. Both phosphorylase and phosphorylase kinase in liver increased rapidly prenatally and more slowly postnatally. In heart and skeletal muscle cyclic AMP increased prenatally and for the first 10 days after birth, then declined. Protein kinase in both these tissues was highest prenatally and declined perinatally. In heart and skeletal muscle phosphorylase and phosphorylase kinase activities were extremely low prenatally although both enzymes were largely in their activated forms. Postnatally the nonactive form of both enzymes increased greatly throughout 30 postnatal days. In all three tissues, particularly heart and skeletal muscle, these changes could not be correlated with levels of tissue glycogen.
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