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Amplification, Enrichment, and Sequencing of Mutagenic Methylated DNA Adduct through Specifically Pairing with Unnatural Nucleobases

3-Methylthymine (m3T) is a long-known chemically stable but strongly mutagenic DNA base adduct; however, the sequencing method to determine m3T is lacking so far. Two of the main obstacles include the capacity of m3T to stall DNA elongation and its low abundance. To address the challenges, we report...

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Bibliographic Details
Published in:Journal of the American Chemical Society 2022-11, Vol.144 (44), p.20165-20170
Main Authors: Zhu, Wuyuan, Wang, Honglei, Li, Xiaohuan, Tie, Wenchao, Huo, Bianbian, Zhu, Anlian, Li, Lingjun
Format: Article
Language:English
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Summary:3-Methylthymine (m3T) is a long-known chemically stable but strongly mutagenic DNA base adduct; however, the sequencing method to determine m3T is lacking so far. Two of the main obstacles include the capacity of m3T to stall DNA elongation and its low abundance. To address the challenges, we report an unnatural base pairing strategy in this paper. A new m3T–TPT3 base pair was developed with a Vmax/Km value 82-fold higher than that of the m3T-A pair. The TPT3 nucleobase can be specifically incorporated opposite the m3T base, and the resulting m3T–TPT3 base pair can be effectively extended to give full-length products in the presence of commercial DNA polymerases. Importantly, the feature of the m3T–TPT3 pair enables a replacement PCR amplification to transfer m3T lesions at the exact positions into unnatural base pairs, which permits Sanger sequencings as well as biotin–streptavidin-based enrichments of m3T lesions. Taken together, this work offers a simple, convenient, and practical method for amplification, enrichment, and sequencing of m3T for the first time.
ISSN:0002-7863
1520-5126
DOI:10.1021/jacs.2c06110