人类种系 CNV 断点测序揭示的突变谱。
Mutation spectrum revealed by breakpoint sequencing of human germline CNVs.
机构信息
Wellcome Trust Sanger Institute, Hinxton, Cambridge, UK.
出版信息
Nat Genet. 2010 May;42(5):385-91. doi: 10.1038/ng.564. Epub 2010 Apr 4.
Abstract
Precisely characterizing the breakpoints of copy number variants (CNVs) is crucial for assessing their functional impact. However, fewer than 10% of known germline CNVs have been mapped to the single-nucleotide level. We characterized the sequence breakpoints from a dataset of all CNVs detected in three unrelated individuals in previous array-based CNV discovery experiments. We used targeted hybridization-based DNA capture and 454 sequencing to sequence 324 CNV breakpoints, including 315 deletions. We observed two major breakpoint signatures: 70% of the deletion breakpoints have 1-30 bp of microhomology, whereas 33% of deletion breakpoints contain 1-367 bp of inserted sequence. The co-occurrence of microhomology and inserted sequence is low (10%), suggesting that there are at least two different mutational mechanisms. Approximately 5% of the breakpoints represent more complex rearrangements, including local microinversions, suggesting a replication-based strand switching mechanism. Despite a rich literature on DNA repair processes, reconstruction of the molecular events generating each of these mutations is not yet possible.
摘要
准确描述拷贝数变异 (CNV) 的断点对于评估其功能影响至关重要。然而,已知的种系 CNV 中只有不到 10% 被映射到单核苷酸水平。我们对之前基于阵列的 CNV 发现实验中在三个无关个体中检测到的所有 CNV 的数据集的序列断点进行了特征描述。我们使用基于靶向杂交的 DNA 捕获和 454 测序对 324 个 CNV 断点进行了测序,其中包括 315 个缺失。我们观察到两个主要的断点特征:70%的缺失断点有 1-30bp 的微同源性,而 33%的缺失断点包含 1-367bp 的插入序列。微同源性和插入序列的共存率较低(10%),表明存在至少两种不同的突变机制。大约 5%的断点代表更复杂的重排,包括局部微倒位,表明存在基于复制的链交换机制。尽管有丰富的 DNA 修复过程文献,但仍无法重建产生这些突变的分子事件。
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