Fractionation of cricket testis nuclei on gradients of colloidal silica for study of basic protein changes during spermiogenesis

Abstract

Nuclei isolated from testes of the house cricket were centrifuged in a gradient of colloidal silica with a density range of about 1.12 to 1.18 g/ml. Fractions were collected from the bottom to the top of the gradient, and the types of nuclei in them were classified by phase microscopy. The distribution of nuclear types in the gradient indicated relatively large increases in nuclear density during spermatogenesis, and that silica-gradient centrifugation can readily yield fractions enriched for nuclei of specific developmental stages needed to study basic protein changes during sperm development. Basic proteins could be extracted from nuclei spun through silica if they were washed with polyvinylpyrrolidone. The histones in different fractions of nuclei were analysed electrophoretically. Fractions of spermatocyte and early spermatid nuclei contained histones of the somatic types as their only basic proteins. Fractions with mixtures of mid-spermatid and earlier nuclei also yielded somatic histones primarily. Essentially pure samples of late spermatid nuclei were obtained. They lacked somatic histones. In one fraction of late nuclei, the spermatid-specific histones TH1 and TH2 were the major proteins present. In another, two additional histone-like components, not detected in previous studies, were also prominent.