减数分裂染色体运动:纤层蛋白与它有什么关系?

Dimitra Paouneskou, Verena Jantsch
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引用次数: 5

摘要

活跃的减数分裂染色体运动是一个普遍保守的特征。它们发生在第一次减数分裂前期的早期阶段,通过(1)有效地在同源染色体之间安装突触复合体,(2)阻止无意的染色体相互作用,(3)使同源染色体靠近,支持染色体配对过程。染色体运动是由细胞质中的力驱动的,这些力通过核膜跨越蛋白模块传递到附着在核外周的染色体末端。在这个额外的观点中,我们强调了我们最近对核层在这个过程中的作用的研究,以强调它是后生动物中高度保守的结构。核膜形成一个坚硬的蛋白质网络,它位于核膜下面,为细胞核提供稳定性。减数分裂期间核板的不当行为对后代的生存能力和健康有有害的后果,突出了在这个细胞周期阶段功能核板的重要性。DSB: DNA双链断裂;LEM: LAP2, Emerin, MAN1;LINC:核骨架和细胞骨架的连接物;RPM:前期快速运动;SUN/KASH: Sad1p, UNC-84/Klarsicht, ac -1, Syne Homology。
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Meiotic chromosome movement: what's lamin got to do with it?

Active meiotic chromosome movements are a universally conserved feature. They occur at the early stages of prophase of the first meiotic division and support the chromosome pairing process by (1) efficiently installing the synaptonemal complex between homologous chromosomes, (2) discouraging inadvertent chromosome interactions and (3) bringing homologous chromosomes into proximity. Chromosome movements are driven by forces in the cytoplasm, which are passed on to chromosome ends attached to the nuclear periphery by nuclear-membrane-spanning protein modules. In this extra view, we highlight our recent studies into the role of the nuclear lamina during this process to emphasize that it is a highly conserved structure in metazoans. The nuclear lamina forms a rigid proteinaceous network that underlies the inner nuclear membrane to provide stability to the nucleus. Misdemeanors of the nuclear lamina during meiosis has deleterious consequences for the viability and health of the offspring, highlighting the importance of a functional nuclear lamina during this cell cycle stage. Abbreviations: DSB: DNA double strand break; LEM: LAP2, Emerin, MAN1; LINC: LInker of the Nucleoskeleton and Cytoskeleton; RPM: rapid prophase movement; SUN/KASH: Sad1p, UNC-84/Klarsicht, ANC-1, Syne Homology.

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