Abstract
Meiotic prophase has been studied by both light and electron microscopy in diploid cell lines (h+/h-) of Schizosaccharomyces pombe. One wild-type and one mutant strain were used, the latter (mei4-B2) being blocked after premeiotic DNA synthesis and after commitment to meiosis. Meiosis and sporulation were induced in liquid culture by a shift to a sporulation medium devoid of a nitrogen source. The time course was determined from light-microscopic preparations; most cells passing through meiotic prophase between 5 and 8 h after the shift. In samples from that interval, ca. 20% of the nuclei were elongate in shape, containing strands of chromatin in rough alignement with the long axis of the nucleus. This stage was found to accumulate in the mutant. A bundle of microtubules, just outside of the spindle plaque, apparently stabilized the elongated shape of the nuclei. Linear electron-dense structures were observed to populate these nuclei. They resembled unpaired lateral elements of synaptonemal complexes in other organisms. Yet, at no times did we observe a tripartite complex or any other sign of chromosomal pairing in our material.
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