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DNA mismatch and damage patterns revealed by single-molecule sequencing

Nature. 2024-06; 
Mei Hong Liu, Benjamin M Costa, Emilia C Bianchini, Una Choi, Rachel C Bandler, Emilie Lassen, Marta Grońska-Pęski, Adam Schwing, Zachary R Murphy, Daniel Rosenkjær, Shany Picciotto, Vanessa Bianchi, Lucie Stengs, Melissa Edwards, Nuno Miguel Nunes, Caitlin A Loh, Tina K Truong, Randall E Brand, Tomi Pastinen, J Richard Wagner, Anne-Bine Skytte, Uri Tabori, Jonathan E Shoag, Gilad D Evrony
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Abstract

Mutations accumulate in the genome of every cell of the body throughout life, causing cancer and other diseases. Most mutations begin as nucleotide mismatches or damage in one of the two strands of the DNA before becoming double-strand mutations if unrepaired or misrepaired. However, current DNA-sequencing technologies cannot accurately resolve these initial single-strand events. Here we develop a single-molecule, long-read sequencing method (Hairpin Duplex Enhanced Fidelity sequencing (HiDEF-seq)) that achieves single-molecule fidelity for base substitutions when present in either one or both DNA strands. HiDEF-seq also detects cytosine deamination-a common type of DNA damage-with single-molecule fidelity. We ... More

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