Mitosis and checkpoints that control progression through mitosis in vertebrate somatic cells.

Progress in cell cycle research Pub Date : 1997-01-01 DOI:10.1007/978-1-4615-5371-7_24
C L Rieder, A Khodjakov
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引用次数: 38

Abstract

During mitosis in vertebrates the sister kinetochores on each replicated chromosome interact with two separating arrays of astral microtubules to form a bipolar spindle that produces and/or directs the forces for chromosome motion. In order to ensure faithful chromosome segregation cells have evolved mechanisms that delay progress into and out of mitosis until certain events are completed. At least two of these mitotic "checkpoint controls" can be identified in vertebrates. The first prevents nuclear envelope breakdown, and thus spindle formation, when the integrity of some nuclear component(s) is compromised. The second prevents chromosome disjunction and exit from mitosis until all of the kinetochores are attached to the spindle.

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脊椎动物体细胞中有丝分裂和控制有丝分裂进程的检查点。
在脊椎动物的有丝分裂过程中,每条复制染色体上的姐妹着丝点与两个分离的星状微管阵列相互作用,形成双极纺锤体,产生和/或指导染色体运动的力量。为了确保忠实的染色体分离,细胞进化出了延迟进入和退出有丝分裂的机制,直到某些事件完成。这些有丝分裂“检查点控制”中至少有两个可以在脊椎动物中被识别出来。当某些核成分的完整性受到损害时,第一个防止核膜破裂,从而防止纺锤体形成。第二种防止染色体分离并退出有丝分裂,直到所有着丝点都附着在纺锤体上。
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Progress in cell cycle research
Progress in cell cycle research
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