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引用次数: 0
摘要
在染色体分离之前完成 DNA 复制对基因组的稳定维持至关重要。在复制压力下,DNA 合成可能会持续到 S 期以后,特别是在难以进行复制过程的基因组区域。有丝分裂过程中的不完全复制表现为有丝分裂染色体上的非连接片段,导致无丝分裂桥。然而,由此产生的染色体重排并没有得到很好的描述。在这里,我们报告了由于 SMC5/6 缺乏导致的不完全复制会损害难以复制区域(包括常见的脆弱位点)的姐妹染色单体连接。这些非连接区域表现为细胞学上定义的对称间隙,造成无丝分裂桥。这些桥在间隙处断裂,导致端粒丢失、微核和分裂。随后,端粒缺失的染色体之间的融合会产生复杂的染色体重排,包括双中心染色体,这表明发生了断裂-融合-桥循环。此外,微核中的染色体被粉碎,表明发生了染色体撕裂。我们的研究结果表明,不完全复制促进了复杂的染色体重排,这可能会导致人类癌症基因组的不稳定性。
Chromosomal rearrangements associated with SMC5/6 deficiency in DNA replication
Completion of DNA replication before chromosome segregation is essential for the stable maintenance of the genome. Under replication stress, DNA synthesis may persist beyond S phase, especially in genomic regions that are difficult to proceed with the replication processes. Incomplete replication in mitosis emerges as non-disjoined segment in mitotic chromosomes leading to anaphase bridges. The resulting chromosome rearrangements are not well characterized, however. Here, we report that incomplete replication due to SMC5/6 deficiency impairs sister chromatid disjunction at difficult-to-replicate regions, including common fragile sites. These non-disjoined regions manifest as cytologically defined symmetric gaps, causing anaphase bridges. These bridges break at the gaps, leading to telomere loss, micronucleation, and fragmentation. Subsequently, fusions between telomere-deficient chromosomes generate complex chromosomal rearrangements, including dicentric chromosomes, suggesting the occurrence of breakage-fusion-bridge cycle. Additionally, chromosomes in micronuclei were pulverized, indicative of chromothripsis. Our findings suggest that incomplete replication facilitates complex chromosomal rearrangements, which may contribute to genomic instability in human cancers.
期刊介绍:
Genes to Cells provides an international forum for the publication of papers describing important aspects of molecular and cellular biology. The journal aims to present papers that provide conceptual advance in the relevant field. Particular emphasis will be placed on work aimed at understanding the basic mechanisms underlying biological events.