| Abstract: | Both sperm and eggs of the sea urchin Strongylocentrotus purpuratus contain specific histones in place of some of the histones found during later development. Whether these specific histones are lost upon fertilization or are retained is not known. Therefore, we have examined the histones present in the zygote nucleus to determine the fate of the gamete histones. Nuclei of zygotes which have completed DNA replication in preparation for the first mitosis were isolated by sucrose density gradient centrifugation. Histones were extracted from the isolated nuclei, and were analyzed by acid-urea and SDS polyacrylamide gel electrophoreses, and by two-dimensional electrophoresis in which both gel electrophoresis systems were combined. Electrophoretic patterns of the zygote histones were compared with those of sperm, unfertilized eggs and embryos. The results show that the zygote histone pattern is identical with the unfertilized egg histone pattern. Neither the sperm histones H1, H2A, or H2B, nor the embryonic H1, H2A, or H2B, are present in the zygote pattern. The egg and the zygote do contain a unique H2A and H2B, but not an H1. After fertilization, sperm specific histones are not present on the DNA. Egg histones become associated with both the sperm DNA and the newly replicated DNA. The association of the embryonic histones with the DNA, therefore, occurs sometime later in development. |
