端粒引导的花束形成促进裂殖酵母减数分裂中的同源染色体配对并限制异位相互作用。
Telomere-led bouquet formation facilitates homologous chromosome pairing and restricts ectopic interaction in fission yeast meiosis.
作者信息
Niwa O, Shimanuki M, Miki F
机构信息
Kazusa DNA Research Institute, 1532-3 Yana, Kisarazu, Chiba 292-0812, Japan.
出版信息
EMBO J. 2000 Jul 17;19(14):3831-40. doi: 10.1093/emboj/19.14.3831.
Abstract
A polarized chromosomal arrangement with clustered telomeres in a meiotic prophase nucleus is often called bouquet and is thought to be important for the pairing of homologous chromosomes. Fluorescence in situ hybridization in fission yeast indicated that chromosomal loci are positioned in an ordered manner as anticipated from the bouquet arrangement. Blocking the formation of the telomere cluster with the kms1 mutation created a disorganized chromosomal arrangement, not only for the regions proximal to the telomere but also for interstitial regions. The kms1 mutation also affected the positioning of a linear minichromosome. Consistent with this cytological observation, the frequency of ectopic homologous recombination between a linear minichromosome and a normal chromosome increased in the kms1 background. Intragenic recombination between allelic loci is reduced in the kms1 mutant, but those between non-allelic loci are unaffected or slightly increased. Thus, telomere-led chromosome organization facilitates homologous pairing and also restricts irregular chromosome pairing during meiosis.
摘要
在减数分裂前期细胞核中,端粒聚集形成极化的染色体排列,通常称为花束,被认为对同源染色体配对很重要。裂殖酵母中的荧光原位杂交表明,染色体位点按花束排列预期的方式有序定位。用kms1突变阻断端粒簇的形成会导致染色体排列紊乱,不仅端粒近端区域如此,中间区域也是如此。kms1突变还影响线性小染色体的定位。与这一细胞学观察结果一致,在kms1背景下,线性小染色体与正常染色体之间的异位同源重组频率增加。kms1突变体中等位基因位点之间的基因内重组减少,但非等位基因位点之间的重组不受影响或略有增加。因此,端粒引导的染色体组织促进同源配对,也限制减数分裂过程中不规则的染色体配对。
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