Molecular Mechanisms of Homologous Chromosome Pairing and Segregation in Plants

In most eukaryotic species, three basic steps of pairing, recombination and synapsis occur during prophase of meiosis I. Homologous chromosomal pairing and recombination are essential for accurate segregation of chromosomes. In contrast to the well-studied processes such as recombination and synapsi...

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Published inJournal of genetics and genomics Vol. 41; no. 3; pp. 117 - 123
Main Authors Zhang, Jing, Zhang, Bing, Su, Handong, Birchler, James A., Han, Fangpu
Format Journal Article
LanguageEnglish
Published China Elsevier Ltd 20.03.2014
Subjects
Cell Cycle Proteins - metabolism
Centromere - physiology
Chromosomal Proteins, Non-Histone - metabolism
Chromosome Pairing
Chromosome Segregation
Chromosomes, Plant - genetics
Cohesins
Homologous chromosome pairing
Homologous Recombination - genetics
Meiosis
Meiosis - physiology
Microtubules - metabolism
Orientation and segregation
Plants - genetics
RNA, Untranslated - metabolism
Telomere - physiology
减数分裂
分子机制
分离机制
同源染色体配对
姐妹染色单体
植物
真核生物
遗传物质
Orientation and segregation
Meiosis
Homologous chromosome pairing
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Summary:In most eukaryotic species, three basic steps of pairing, recombination and synapsis occur during prophase of meiosis I. Homologous chromosomal pairing and recombination are essential for accurate segregation of chromosomes. In contrast to the well-studied processes such as recombination and synapsis, many aspects of chromosome pairing are still obscure. Recent progress in several species indicates that the telomere bouquet formation can facilitate homologous chromosome pairing by bringing chromosome ends into close proximity, but the sole presence of telomere clustering is not sufficient for recognizing homologous pairs. On the other hand, accurate segregation of the genetic material from parent to offspring during meiosis is dependent on the segregation of homologs in the reductional meiotic division (MI) with sister kinetochores exhibiting mono-orientation from the same pole, and the segregation of sister chromatids during the equational meiotic division (MII) with kinetochores showing bi-orientation from the two poles. The underlying mechanism of orientation and segregation is still unclear. Here we focus on recent studies in plants and other species that provide insight into how chromosomes find their partners and mechanisms mediating chromosomal segregation.
Bibliography:Homologous chromosome pairing; Orientation and segregation; Meiosis
In most eukaryotic species, three basic steps of pairing, recombination and synapsis occur during prophase of meiosis I. Homologous chromosomal pairing and recombination are essential for accurate segregation of chromosomes. In contrast to the well-studied processes such as recombination and synapsis, many aspects of chromosome pairing are still obscure. Recent progress in several species indicates that the telomere bouquet formation can facilitate homologous chromosome pairing by bringing chromosome ends into close proximity, but the sole presence of telomere clustering is not sufficient for recognizing homologous pairs. On the other hand, accurate segregation of the genetic material from parent to offspring during meiosis is dependent on the segregation of homologs in the reductional meiotic division (MI) with sister kinetochores exhibiting mono-orientation from the same pole, and the segregation of sister chromatids during the equational meiotic division (MII) with kinetochores showing bi-orientation from the two poles. The underlying mechanism of orientation and segregation is still unclear. Here we focus on recent studies in plants and other species that provide insight into how chromosomes find their partners and mechanisms mediating chromosomal segregation.
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ISSN:1673-8527
DOI:10.1016/j.jgg.2013.12.003