Insights into common fragile site instability: DNA replication challenges at DNA repeat sequences.

IF 3.4 Q2 BIOCHEMISTRY & MOLECULAR BIOLOGY
Michal Irony-Tur Sinai, Batsheva Kerem
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引用次数: 0

Abstract

Common fragile sites (CFS) are specific genomic regions prone to chromosomal instability under conditions of DNA replication stress. CFSs manifest as breaks, gaps, and constrictions on metaphase chromosomes under mild replication stress. These replication-sensitive CFS regions are preferentially unstable during cancer development, as reflected by their association with copy number variants (CNVs) frequently arise in most tumor types. Over the years, it became clear that a combination of different characteristics underlies the enhanced sensitivity of CFSs to replication stress. As of today, there is a strong evidence that the core fragility regions along CFSs overlap with actively transcribed large genes with delayed replication timing upon replication stress. Recently, the mechanistic basis for CFS instability was further extended to regions which span topologically associated domain (TAD) boundaries, generating a fragility signature composed of replication, transcription and genome organization. The presence of difficult-to-replicate AT-rich repeats was one of the early features suggested to characterize a subgroup of CFSs. These long stretches of AT-dinucleotide have the potential to fold into stable secondary structures which may impede replication fork progression, leaving the region under-replicated. Here, we focus on the molecular mechanisms underlying repeat instability at CFSs and on the proteins involved in the resolution of secondary structure impediments arising along repetitive sequence elements which are essential for the maintenance of genome stability.

对常见脆弱位点不稳定性的见解:DNA重复序列的DNA复制挑战。
常见脆弱位点(CFS)是在DNA复制应激条件下容易发生染色体不稳定的特定基因组区域。CFS表现为在轻度复制应激下中期染色体上的断裂、间隙和收缩。这些复制敏感的CFS区域在癌症发展过程中优先不稳定,这反映在它们与大多数肿瘤类型中经常出现的拷贝数变异(CNVs)的关联上。多年来,很明显,不同特征的结合是CFS对复制应激敏感性增强的基础。截至目前,有强有力的证据表明,CFS沿线的核心脆性区域与主动转录的大基因重叠,在复制压力下复制时间延迟。最近,CFS不稳定的机制基础进一步扩展到跨越拓扑相关结构域(TAD)边界的区域,产生了由复制、转录和基因组组织组成的脆弱性特征。存在难以复制的富含AT的重复序列是表征CFS亚组的早期特征之一。AT二核苷酸的这些长片段有可能折叠成稳定的二级结构,这可能会阻碍复制叉的进展,使该区域复制不足。在这里,我们关注CFS重复不稳定性的分子机制,以及参与解决重复序列元件引起的二级结构障碍的蛋白质,这对维持基因组稳定性至关重要。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
7.70
自引率
0.00%
发文量
94
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