Publication in Nature Communications by Professor ZHAO Ye's Laboratory, Institute of Biophysics

Title: Mechanism of genome instability mediated by human DNA polymerase mu misincorporation

Miao Guo, Yina Wang, Yuyue Tang, Zijing Chen, Jinfeng Hou, Jingli Dai, Yudong Wang, Liangyan Wang, Hong Xu, Bing Tian, Yuejin Hua & Ye Zhao

Abstract

Pol μ is capable of performing gap-filling repair synthesis in the nonhomologous end joining (NHEJ) pathway. Together with DNA ligase, misincorporation of dGTP opposite the templating T by Pol μ results in a promutagenic T:G mispair, leading to genomic instability. Here, crystal structures and kinetics of Pol μ substituting dGTP for dATP on gapped DNA substrates containing templating T were determined and compared. Pol μ is highly mutagenic on a 2-nt gapped DNA substrate, with T:dGTP base pairing at the 3ʹ end of the gap. Two residues (Lys438 and Gln441) interact with T:dGTP and fine tune the active site microenvironments. The in-crystal misincorporation reaction of Pol μ revealed an unexpected second dGTP in the active site, suggesting its potential mutagenic role among human X family polymerases in NHEJ.

Link:  https://www.nature.com/articles/s41467-021-24096-7

More: ZJU scientists unravel mechanism of genome instability by DNA Pol μ misincorporatio

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