Turnover of basic chromosomal proteins in fertilized eggs: a cytoimmunochemical study of events in vivo

doi:10.1083/jcb.90.2.351

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Turnover of basic chromosomal proteins in fertilized eggs: a cytoimmunochemical study of events in vivo

TC Rodman, FH Pruslin, HP Hoffmann and VG Allfrey

The chromosomal complements of mouse oocytes, ova, and fertilizing sperm have been studied by immunofluorescence with specific antisera to the basic protein fraction of sperm nuclei and to histones H2b and H4, and by staining with ethidium bromide. These studies support the hypothesis, previously proposed (Rodman and Barth, 1979, Dev. Biol. 68:82-95), that the chromosomes of the oocyte in maturation incorporate unique basic protein(s) similar to those incorporated during spermiogenesis. That similarity is characterized, here, by immunologic cross-reactivity. The basic proteins of the fertilizing sperm nucleus and the cross-reactive moiety of the two haploid complements of the ovum are displaced simultaneously, shortly after sperm entry. However, because the unique basic proteins incorporated into the oocyte chromosomes do not, as in the spermatogenic sequence, entirely replace the histones, the maternal chromosomes display histones H2b and H4 at all postfertilization stages examined, whereas the decondensing paternal complement, for an interval before maturation of the pronuclei, contains neither sperm basic chromosomal proteins nor histones. Sequential staining of the same specimens with ethidium bromide revealed well-organized nuclear morphology of the residual DNA complex. Those observations suggest that, for an as yet undefined period in the transformation from spermatozoal to embryonic genome, the chromatin is devoid of a complement of basic proteins.
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