联会复合体成分C(2)M调控果蝇减数分裂中的交叉互换。

The Synaptonemal complex component C(2)M regulates meiotic crossing over in Drosophila.

作者信息

Manheim Elizabeth A, McKim Kim S

机构信息

Waksman Institute and Department of Genetics, Rutgers, The State University of New Jersey, Piscataway, NJ 08854-8020, USA.

出版信息

Curr Biol. 2003 Feb 18;13(4):276-85. doi: 10.1016/s0960-9822(03)00050-2.

DOI:10.1016/s0960-9822(03)00050-2

PMID:12593793

Abstract

BACKGROUND

The synaptonemal complex (SC) is a proteinaceous structure that forms between homologously paired meiotic chromosomes. Previous studies have suggested that the SC is required for meiotic crossing over in Drosophila. However, only one component of this structure, C(3)G, has been identified in Drosophila.

RESULTS

Mutations in c(2)M cause a reduced frequency of meiotic crossing over due, in part, to how recombination events are resolved. Cytological evidence suggests that C(2)M is a component of the SC and is required for the assembly of C(3)G (a putative transverse filament of the SC) along the chromosomes. Additionally, C(2)M localizes along the chromosomes in the absence of C(3)G. Despite having a defect in C(3)G localization, c(2)M mutants unexpectedly affect crossing over less severely than a c(3)G mutant. There is virtually no crossing over in a c(3)G mutant, but c(2)M or c(2)M; c(3)G double mutants produce a substantial number of crossovers. The appearance of C(3)G-independent crossovers in c(2)M mutants suggests that C(2)M prevents recombination in the absence of complete SC formation.

CONCLUSIONS

We have identified a new Drosophila SC component, C(2)M, that promotes the formation of crossovers. Furthermore, the appearance of C(3)G-independent crossovers in c(2)M mutants suggests a novel role in preventing recombination in the absence of complete SC.

摘要

背景

联会复合体（SC）是在减数分裂中同源配对染色体之间形成的一种蛋白质结构。先前的研究表明，果蝇减数分裂中的交叉互换需要SC。然而，在果蝇中仅鉴定出该结构的一个组分，即C(3)G。

结果

c(2)M中的突变导致减数分裂交叉互换频率降低，部分原因在于重组事件的解决方式。细胞学证据表明，C(2)M是SC的一个组分，并且是C(3)G（SC的一种假定横向细丝）沿染色体组装所必需的。此外，在没有C(3)G的情况下，C(2)M也沿染色体定位。尽管c(2)M突变体在C(3)G定位方面存在缺陷，但出乎意料的是，其对交叉互换的影响比c(3)G突变体要轻。c(3)G突变体中几乎没有交叉互换，但c(2)M或c(2)M; c(3)G双突变体产生了大量的交叉互换。c(2)M突变体中出现不依赖C(3)G的交叉互换表明，在没有完整SC形成的情况下，C(2)M可阻止重组。

结论

我们鉴定出一种促进交叉互换形成的新的果蝇SC组分，即C(2)M。此外，c(2)M突变体中不依赖C(3)G的交叉互换的出现表明，在没有完整SC的情况下，它在阻止重组方面具有新作用。

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联会复合体成分C(2)M调控果蝇减数分裂中的交叉互换。

The Synaptonemal complex component C(2)M regulates meiotic crossing over in Drosophila.

作者信息

机构信息

出版信息

BACKGROUND

RESULTS

CONCLUSIONS

背景

结果

结论

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