Chromosome condensation activity in Rana pipiens eggs matured in vivo and in blastomeres arrested by cytostatic factor (CSF)

Abstract

The ability of brain nuclei to give rise to condensed chromosomes was studied in Rana pipiens eggs which had undergone meiotic maturation in vivo, in blastomeres of two-cell embryos which had been arrested at metaphase by the injection of cytostatic factor (CSF) from mature eggs, and in immature fully grown ovarian oocytes with and without prior CSF injection. Chromosomes from brain nuclei were found to condense within 4 h in mature eggs and this chromosome condensation activity was enhanced by the chelation of free Ca 2+ in the nuclear isolation medium. Chromosomes also condensed in CSF-arrested blastomeres whether they were placed in the blastomere 30 min before the CSF injection or as long as 22 h after the CSF. Both the Ca 2+-sensitive CSF, 1 ∘CSF, and the Ca 2+-insensitive CSF, 2 ∘CSF, resulted in chromosome condensation within arrested blastomeres. The condensation was accompanied by the formation of multipolar spindles and asters. However, it was found that cytoplasm in CSF-arrested blastomeres does not arrest mitosis at metaphase when transferred into a cleaving blastomere. Other experiments demonstrated that chromosome condensation does not occur in ovarian oocytes even when supplied with CSF. The results are interpreted as indicating that CSF does not directly bring about chromosome condensation, but arrests the cell cycle at metaphase and stabilizes the cytoplasmic conditions of metaphase which, in turn, induce chromosome condensation in foreign nuclei as well as spindle and aster formation.