三维基因组组织导致脆弱位点的基因组不稳定。

3D genome organization contributes to genome instability at fragile sites.

机构信息

Department of Genetics, The Life Sciences Institute, Hebrew University, Jerusalem, 9190401, Israel.

Department of Biological Science, Florida State University, Tallahassee, FL, 32306, USA.

出版信息

Nat Commun. 2020 Jul 17;11(1):3613. doi: 10.1038/s41467-020-17448-2.

DOI:10.1038/s41467-020-17448-2

PMID:32680994

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7367836/

Abstract

Common fragile sites (CFSs) are regions susceptible to replication stress and are hotspots for chromosomal instability in cancer. Several features were suggested to underlie CFS instability, however, these features are prevalent across the genome. Therefore, the molecular mechanisms underlying CFS instability remain unclear. Here, we explore the transcriptional profile and DNA replication timing (RT) under mild replication stress in the context of the 3D genome organization. The results reveal a fragility signature, comprised of a TAD boundary overlapping a highly transcribed large gene with APH-induced RT-delay. This signature enables precise mapping of core fragility regions in known CFSs and identification of novel fragile sites. CFS stability may be compromised by incomplete DNA replication and repair in TAD boundaries core fragility regions leading to genomic instability. The identified fragility signature will allow for a more comprehensive mapping of CFSs and pave the way for investigating mechanisms promoting genomic instability in cancer.

摘要

常见脆弱部位（CFS）是易受复制应激影响的区域，也是癌症中染色体不稳定性的热点。有几个特征被认为是 CFS 不稳定性的基础，但这些特征在整个基因组中都很普遍。因此，CFS 不稳定性的分子机制仍不清楚。在这里，我们在 3D 基因组组织的背景下，探讨了轻度复制应激下的转录谱和 DNA 复制时间（RT）。结果揭示了一个脆弱性特征，由一个 TAD 边界与一个高度转录的大基因重叠组成，该基因具有 APH 诱导的 RT 延迟。该特征可精确映射已知 CFS 中的核心脆弱区域，并鉴定新的脆弱部位。TAD 边界核心脆弱区域中不完全的 DNA 复制和修复可能会破坏 CFS 的稳定性，导致基因组不稳定。所确定的脆弱性特征将允许更全面地绘制 CFS 图谱，并为研究促进癌症中基因组不稳定性的机制铺平道路。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/17ba/7367836/ca7b6c33a701/41467_2020_17448_Fig1_HTML.jpg

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三维基因组组织导致脆弱位点的基因组不稳定。

3D genome organization contributes to genome instability at fragile sites.

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