减数分裂
同源染色体
同源重组
遗传学
姐妹染色单体
倍性
生物
遗传重组
染色体分离
着丝粒
染色体交叉
染色体
染色单体
减数分裂II
粘蛋白
四分体
重组
基因
作者
G. Valentin Börner,Rita S. Cha
出处
期刊:CSH Protocols
[Cold Spring Harbor Laboratory Press]
日期:2015-11-01
卷期号:2015 (11): pdb.top077636-pdb.top077636
被引量:1
标识
DOI:10.1101/pdb.top077636
摘要
Meiosis is a diploid-specific differentiation program that consists of a single round of genome duplication followed by two rounds of chromosome segregation. These events result in halving of the genetic complement, which is a requirement for formation of haploid reproductive cells (i.e., spores in yeast and gametes in animals and plants). During meiosis I, homologous maternal and paternal chromosomes (homologs) pair and separate, whereas sister chromatids remain connected at the centromeres and separate during the second meiotic division. In most organisms, accurate homolog disjunction requires crossovers, which are formed as products of meiotic recombination. For the past two decades, studies of yeast meiosis have provided invaluable insights into evolutionarily conserved mechanisms of meiosis.
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