Abstract
Meiosis is a process of importance for sexually reproducing eukaryotic organisms. In the fission yeast Schizosaccharomyces pombe, meiosis normally proceeds in a diploid zygote which is produced by conjugation of haploid cells of opposite mating types. We demonstrate that activation of the pheromone-responsive MAPK, Spk1, by the ectopic expression of a constitutively active form of Byr1 (MAPKK for Spk1) induced the cells to undergo meiosis while in the haploid state. Moreover, the induction of meiosis required Mei2 (a key positive regulator of meiosis), but did not require Mei3; Mei3 is normally required to inactivate the Pat1 kinase (a negative regulator of Mei2) thereby allowing Mei2 to drive meiosis. Therefore, expression of a constitutively active form of Byr1 activates Mei2 without the need of Mei3. In cells induced to undergo meiosis by activating the Spk1 MAPK signaling pathway, telomeres clustered at the spindle pole body (SPB) and centromeres detached normally from the SPB during meiotic prophase, and the cells showed the correct segregation of sister chromatids during meiotic divisions. In contrast, in meiosis induced by inactivation of Pat1, sister chromatids segregate precociously during the first meiotic division. Thus, these results suggest that activation of Spk1 drives meiosis in S. pombe.
Highlights
Meiosis, a process of general importance for sexually reproducing eukaryotic organisms, generates inheritable haploid gametes from a diploid cell
In cells induced to undergo meiosis by activating the Spk1 MAP kinase (MAPK) signaling pathway, telomeres clustered at the spindle pole body (SPB) and centromeres detached normally from the SPB during meiotic prophase, and the cells showed the correct segregation of sister chromatids during meiotic divisions
In meiosis induced by inactivation of Pat1, sister chromatids segregate precociously during the first meiotic division
Summary
A process of general importance for sexually reproducing eukaryotic organisms, generates inheritable haploid gametes from a diploid cell. This process of halving the chromosome number is achieved by two consecutive rounds of nuclear division following one round of DNA replication. During the first meiotic division, homologous chromosomes segregate to the opposite spindle poles while sister chromatids move together to the same spindle pole (reductional segregation). During the second meiotic division, sister chromatids segregate to the opposite poles (equational segregation). Reductional segregation in the first meiotic division is a unique feature of meiosis. The widespread appearance of telomere clustering in meiotic prophase suggests a special role for the telomere in meiosis
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