Functional roles of the interaction of Moa1 with CENP-C and Rec8 in meiosis of Schizosaccharomyces pombe.

Q3 Medicine 遗传 Pub Date : 2024-08-01 DOI:10.16288/j.yczz.24-035
Yu Min, Zi-Han Ni, Ling-Ling Ma, Yoshinori Watanabe
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Abstract

The localization of the meiotic specific regulatory molecule Moa1 to the centromere is regulated by the kinetochore protein CENP-C, and participates in the cohesion of sister chromatids in the centromere region mediated by the cohesin Rec8. To examine the interaction of these proteins, we analyzed the interactions between Moa1 and Rec8, CENP-C by yeast two-hybrid assays and identified several amino acid residues in Moa1 required for the interaction with CENP-C and Rec8. The results revealed that the interaction between Moa1 and CENP-C is crucial for the Moa1 to participate in the regulation of monopolar attachment of sister kinetochores. However, mutation at S143 and T150 of Moa1, which are required for interaction with Rec8 in the two-hybrid assay, did not show significant defects. Mutations in amino acid residues may not be sufficient to interfere with the interaction between Moa1 and Rec8 in vivo. Further research is needed to determine the interaction domain between Moa1 and Rec8. This study revealed specific amino acid sites at which Moa1 affects the meiotic homologous chromosome segregation, providing a deeper understanding of the mechanism of meiotic chromosome segregation.

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Moa1与CENP-C和Rec8的相互作用在小鼠减数分裂中的功能作用
减数分裂特异性调控分子Moa1在中心粒的定位受到动点核蛋白CENP-C的调控,并参与由内聚蛋白Rec8介导的中心粒区域姐妹染色单体的内聚。为了研究这些蛋白之间的相互作用,我们通过酵母双杂交实验分析了Moa1与Rec8、CENP-C之间的相互作用,并确定了Moa1与CENP-C和Rec8相互作用所需的几个氨基酸残基。结果发现,Moa1与CENP-C的相互作用对于Moa1参与调控姐妹动点的单极附着至关重要。然而,在双杂交试验中,Moa1与Rec8相互作用所需的S143和T150突变并没有显示出明显的缺陷。氨基酸残基的突变可能不足以干扰 Moa1 与 Rec8 在体内的相互作用。要确定 Moa1 和 Rec8 之间的相互作用域,还需要进一步的研究。本研究揭示了Moa1影响减数分裂期同源染色体分离的特定氨基酸位点,从而加深了对减数分裂期染色体分离机制的理解。
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遗传
遗传 Medicine-Medicine (all)
CiteScore
2.50
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6699
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