Heterologous synapsis in C. elegans is regulated by meiotic double-strand breaks and crossovers.

IF 2.5 4区生物学 Q3 BIOCHEMISTRY & MOLECULAR BIOLOGY Chromosoma Pub Date : 2021-12-01 Epub Date: 2021-10-04 DOI:10.1007/s00412-021-00763-y

Hanwenheng Liu, Spencer G Gordon, Ofer Rog

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Abstract

Alignment of the parental chromosomes during meiotic prophase is key to the formation of genetic exchanges, or crossovers, and consequently to the successful production of gametes. In almost all studied organisms, alignment involves synapsis: the assembly of a conserved inter-chromosomal interface called the synaptonemal complex (SC). While the SC usually synapses homologous sequences, it can assemble between heterologous sequences. However, little is known about the regulation of heterologous synapsis. Here, we study the dynamics of heterologous synapsis in the nematode C. elegans. We characterize two experimental scenarios: SC assembly onto a folded-back chromosome that cannot pair with its homologous partner; and synapsis of pseudo-homologs, a fusion chromosome partnering with an unfused chromosome half its size. We observed elevated levels of heterologous synapsis when the number of meiotic double-strand breaks or crossovers were reduced, indicating that the promiscuity of synapsis is regulated by break formation or repair. In addition, our data suggests the existence of both chromosome-specific and nucleus-wide regulation on heterologous synapsis.

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秀丽隐杆线虫的异源突触受减数分裂双链断裂和交叉的调控。

亲本染色体在减数分裂前期的排列是形成基因交换或交叉的关键，因此也是成功产生配子的关键。在几乎所有研究过的生物中，配对都涉及突触：染色体间的保守界面（称为突触复合体（SC））的组装。虽然突触复合体通常突触同源序列，但它也能在异源序列之间组装。然而，人们对异源突触的调控知之甚少。在这里，我们研究了线虫 C. elegans 中异源突触的动态。我们描述了两种实验情景：SC组装到不能与其同源伙伴配对的折返染色体上；以及假同源体的突触，即融合染色体与只有其一半大小的未融合染色体配对。当减数分裂双链断裂或交叉数量减少时，我们观察到异源突触水平升高，这表明突触的杂合性受断裂形成或修复的调控。此外，我们的数据还表明，异源突触存在染色体特异性调控和全核调控。

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来源期刊

Chromosoma 生物-生化与分子生物学

CiteScore

3.30

自引率

6.20%

发文量

审稿时长

1 months

期刊介绍： Chromosoma publishes research and review articles on the functional organization of the eukaryotic cell nucleus, with a particular emphasis on the structure and dynamics of chromatin and chromosomes; the expression and replication of genomes; genome organization and evolution; the segregation of genomes during meiosis and mitosis; the function and dynamics of subnuclear compartments; the nuclear envelope and nucleocytoplasmic interactions, and more. The scope of Chromosoma encompasses genetic, biophysical, molecular and cell biological studies. Average time from receipt of contributions to first decision: 22 days Publishes research and review articles on the functional organization of the eukaryotic cell nucleus Topics include structure and dynamics of chromatin and chromosomes; the expression and replication of genomes; genome organization and evolution; the segregation of genomes during meiosis and mitosis and more Encompasses genetic, biophysical, molecular and cell biological studies.