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Using ultra-sensitive next generation sequencing to dissect DNA damage-induced mutagenesis.


ABSTRACT: Next generation sequencing (NGS) technologies have dramatically improved studies in biology and biomedical science. However, no optimal NGS approach is available to conveniently analyze low frequency mutations caused by DNA damage treatments. Here, by developing an exquisite ultra-sensitive NGS (USNGS) platform "EasyMF" and incorporating it with a widely used supF shuttle vector-based mutagenesis system, we can conveniently dissect roles of lesion bypass polymerases in damage-induced mutagenesis. In this improved mutagenesis analysis pipeline, the initial steps are the same as in the supF mutation assay, involving damaging the pSP189 plasmid followed by its transfection into human 293T cells to allow replication to occur. Then "EasyMF" is employed to replace downstream MBM7070 bacterial transformation and other steps for analyzing damage-induced mutation frequencies and spectra. This pipeline was validated by using UV damaged plasmid after its replication in lesion bypass polymerase-deficient 293T cells. The increased throughput and reduced cost of this system will allow us to conveniently screen regulators of translesion DNA synthesis pathway and monitor environmental genotoxic substances, which can ultimately provide insight into the mechanisms of genome stability and mutagenesis.

SUBMITTER: Wang K 

PROVIDER: S-EPMC4848531 | biostudies-literature | 2016 Apr

REPOSITORIES: biostudies-literature

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Using ultra-sensitive next generation sequencing to dissect DNA damage-induced mutagenesis.

Wang Kaile K   Ma Xiaolu X   Zhang Xue X   Wu Dafei D   Sun Chenyi C   Sun Yazhou Y   Lu Xuemei X   Wu Chung-I CI   Guo Caixia C   Ruan Jue J  

Scientific reports 20160428


Next generation sequencing (NGS) technologies have dramatically improved studies in biology and biomedical science. However, no optimal NGS approach is available to conveniently analyze low frequency mutations caused by DNA damage treatments. Here, by developing an exquisite ultra-sensitive NGS (USNGS) platform "EasyMF" and incorporating it with a widely used supF shuttle vector-based mutagenesis system, we can conveniently dissect roles of lesion bypass polymerases in damage-induced mutagenesis  ...[more]

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