减数分裂 I:染色体经历巨变。
Meiosis I: when chromosomes undergo extreme makeover.
机构信息
Koch Institute for Integrative Cancer Biology, Massachusetts Institute of Technology, Cambridge, MA, USA; Howard Hughes Medical Institute, USA.
出版信息
Curr Opin Cell Biol. 2013 Dec;25(6):687-96. doi: 10.1016/j.ceb.2013.07.009. Epub 2013 Aug 2.
Abstract
The ultimate success of cell division relies on the accurate partitioning of the genetic material. Errors in this process occur in nearly all tumors and are the leading cause of miscarriages and congenital birth defects in humans. Two cell divisions, mitosis and meiosis, use common as well as unique mechanisms to ensure faithful chromosome segregation. In mitosis, alternating rounds of DNA replication and chromosome segregation preserve the chromosome complement of the progenitor cell. In contrast, during meiosis two consecutive rounds of nuclear division, meiosis I and meiosis II, follow a single round of DNA replication to reduce the chromosome complement by half. Meiosis likely evolved through changes to the mitotic cell division program. This review will focus on the recent findings describing the modifications that transform mitosis into meiosis.
摘要
细胞分裂的最终成功依赖于遗传物质的精确分配。这个过程中的错误几乎存在于所有肿瘤中,是导致人类流产和先天性出生缺陷的主要原因。有丝分裂和减数分裂这两种细胞分裂都使用共同和独特的机制来确保染色体的正确分离。在有丝分裂中,DNA 复制和染色体分离的交替回合保留了前体细胞的染色体组成。相比之下,在减数分裂中,两个连续的核分裂(减数分裂 I 和减数分裂 II),在一轮 DNA 复制后,染色体组成减少一半。减数分裂可能是通过对有丝分裂细胞分裂程序的改变而进化而来的。这篇综述将重点介绍描述将有丝分裂转化为减数分裂的修饰的最新发现。
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本文引用的文献
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