后期
染色体分离
细胞生物学
安全素
生物
分离酶
主轴装置
主轴检查点
后期促进复合物
染色体
动细胞
有丝分裂
粘蛋白
极光激酶B
遗传学
星体微管
化学
入侵
作者
A. Henriques,Tim Davies,Serge Dmitrieff,Nicolas Minc,Julie C. Canman,Julien Dumont,Gilliane Maton
标识
DOI:10.1083/jcb.202505038
摘要
Chromosome segregation during anaphase occurs through two mechanistically distinct processes: anaphase A, in which chromosomes move toward spindle poles, and anaphase B, in which the anaphase spindle elongates through cortical astral microtubule pulling forces. Caenorhabditis elegans embryos have been thought to rely primarily on anaphase B, with little to no contribution from anaphase A. Here, we uncover a novel anaphase A mechanism in C. elegans embryos, driven by the kinesin-13 KLP-7MCAK and opposed by the kinesin-12 KLP-18. We found that the extent of chromosome segregation during anaphase A is asymmetrically regulated by cell polarity cues and modulated by mechanical tension within the spindle, generated by opposing forces acting on chromosomes and spindle poles. Additionally, we found that the contribution of anaphase A to chromosome segregation increases progressively across early embryonic divisions. These findings uncover an unexpected role for anaphase A in early C. elegans development and reveal a KLP-7MCAK-dependent mechanical coordination between anaphase A- and anaphase B-driven chromosome segregation.
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