Synthesis and amino acid composition of basic proteins in mammalian sperm nuclei

Abstract

The basic chromosomal proteins (SCP) of human, mouse, rabbit and guinea pig sperm nuclei were characterized by polyacrylamide gel electrophoresis and amino acid analysis. Spermatozoa were decapitated with 1% SDS and the nuclei recovered by density gradient centrifugation. Examination by Nomarski and electron microscopy revealed the nuclei to be intact and 99% pure. The basic proteins were extracted from nuclei, aminoethylated and purified by ion exchange chromatography and gel filtration chromatography. The SCP of human, rabbit and guinea pig gave single protein bands with similar mobilities when subjected to polyacrylamide gel electrophoresis. In contrast, aminoethylated mouse SCP consisted of two proteins, SCP·AE 1 and SCP·AE 2, which had different electrophoretic mobilities. The SCP of these mammalian species were characteristically rich in arginine (47–54.4%) and cysteine (7.7–12.2%). Major differences existed in the amino acid compositions of these proteins. Mouse and human SCP were rich in histidine (12.2 and 7.7%, respectively) and guinea pig was high in tyrosine (11.7%) and phenylalanine (3.5%). Valine was detected only in rabbit SCP and proline in human and guinea pig. Aspartic acid, methionine and tryptophan were not detected in all four species. Studies on the incorporation of [ 3H]arginine into mouse SCP demonstrated that these basic proteins are synthesized during the terminal stages of spermatogenesis and are subsequently conserved.