A kinetochore-associated kinesin-7 motor cooperates with BUB3.3 to regulate mitotic chromosome congression in Arabidopsis thaliana

IF 15.8 1区 生物学 Q1 PLANT SCIENCES
Xiaoya Tang, Ying He, Yihang Tang, Keqi Chen, Honghui Lin, Bo Liu, Xingguang Deng
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引用次数: 0

Abstract

Faithful genome partition during cell division relies on proper congression of chromosomes to the spindle equator before sister chromatid segregation. Here we uncover a kinesin-7 motor, kinetochore-associated kinesin 1 (KAK1), that is required for mitotic chromosome congression in Arabidopsis. KAK1 associates dynamically with kinetochores throughout mitosis. Loss of KAK1 results in severe defects in chromosome congression at metaphase, yet segregation errors at anaphase are rarely observed. KAK1 specifically interacts with the spindle assembly checkpoint protein BUB3.3 and both proteins show interdependent kinetochore localization. Chromosome misalignment in BUB3.3-depleted plants can be rescued by artificial tethering of KAK1 to kinetochores but not vice versa, demonstrating that KAK1 acts downstream of BUB3.3 to orchestrate microtubule-based chromosome transport at kinetochores. Moreover, we show that KAK1’s motor activity is essential for driving chromosome congression to the metaphase plate. Thus, our findings reveal that plants have repurposed BUB3.3 to interface with a specialized kinesin adapted to integrate proper chromosome congression and checkpoint control through a distinct kinetochore design. This study identifies a kinesin motor at kinetochores that teams up with a key mitotic checkpoint protein to orchestrate proper chromosome movement during plant cell division, revealing a plant-specific mechanism for maintaining genetic integrity.

Abstract Image

Abstract Image

拟南芥中与着丝点相关的驱动蛋白-7 马达与 BUB3.3 合作调控有丝分裂染色体的聚集
细胞分裂过程中忠实的基因组分离有赖于染色体在姐妹染色单体分离前与纺锤体赤道点的正确结合。在这里,我们发现了拟南芥有丝分裂染色体整合所需的驱动蛋白-7 马达--动点相关驱动蛋白 1(KAK1)。KAK1 在整个有丝分裂过程中动态地与着丝点结合。缺失 KAK1 会导致染色体在有丝分裂期出现严重的聚集缺陷,但在无丝分裂期却很少观察到分离错误。KAK1 与纺锤体装配检查点蛋白 BUB3.3 有特异性相互作用,两种蛋白的动点定位相互依赖。通过人工将 KAK1 与动点拴系,可以挽救 BUB3.3 缺失植株的染色体错位,反之亦然,这表明 KAK1 在 BUB3.3 的下游发挥作用,在动点协调基于微管的染色体运输。此外,我们还发现,KAK1 的运动活性对于推动染色体向移相平板聚集至关重要。因此,我们的研究结果表明,植物已重新利用 BUB3.3 与一种专门的驱动蛋白连接,从而通过独特的动点设计将适当的染色体聚集与检查点控制结合起来。
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来源期刊
Nature Plants
Nature Plants PLANT SCIENCES-
CiteScore
25.30
自引率
2.20%
发文量
196
期刊介绍: Nature Plants is an online-only, monthly journal publishing the best research on plants — from their evolution, development, metabolism and environmental interactions to their societal significance.
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