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Increased genome instability in human DNA segments with self-chains: homology-induced structural variations via replicative mechanisms.


ABSTRACT: Environmental factors including ionizing radiation and chemical agents have been known to be able to induce DNA rearrangements and cause genomic structural variations (SVs); however, the roles of intrinsic characteristics of the human genome, such as regional genome architecture, in SV formation and the potential mechanisms underlying genomic instability remain to be further elucidated. Recently, locus-specific observations showed that 'self-chain' (SC), a group of short low-copy repeats (LCRs) in the human genome, can induce autism-associated SV mutations of the MECP2 and NRXN1 genes. In this study, we conducted a genome-wide analysis to investigate SCs and their potential roles in genomic SV formation. Utilizing a vast amount of human SV data, we observed a significant biased distribution of human germline SV breakpoints to SC regions. Notably, the breakpoint distribution pattern is different between SV types across deletion, duplication, inversion and insertion. Our observations were coincident with a mechanism of SC-induced DNA replicative errors, whereas SC may sporadically be used as substrates of nonallelic homologous recombination (NAHR). This contention was further supported by our consistent findings in somatic SV mutations of cancer genomes, suggesting a general mechanism of SC-induced genome instability in human germ and somatic cells.

SUBMITTER: Zhou W 

PROVIDER: S-EPMC3674805 | biostudies-other | 2013 Jul

REPOSITORIES: biostudies-other

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Increased genome instability in human DNA segments with self-chains: homology-induced structural variations via replicative mechanisms.

Zhou Weichen W   Zhang Feng F   Chen Xiaoli X   Shen Yiping Y   Lupski James R JR   Jin Li L  

Human molecular genetics 20130307 13


Environmental factors including ionizing radiation and chemical agents have been known to be able to induce DNA rearrangements and cause genomic structural variations (SVs); however, the roles of intrinsic characteristics of the human genome, such as regional genome architecture, in SV formation and the potential mechanisms underlying genomic instability remain to be further elucidated. Recently, locus-specific observations showed that 'self-chain' (SC), a group of short low-copy repeats (LCRs)  ...[more]

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