Mismatch discrimination and sequence bias during end-joining by DNA ligases.

Katharina Bilotti, Vladimir Potapov, John M Pryor, Alexander T Duckworth, James L Keck, Gregory J S Lohman

Nucleic acids research 2022 May 06

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DNA ligases, critical enzymes for in vivo genome maintenance and modern molecular biology, catalyze the joining of adjacent 3'-OH and 5'-phosphorylated ends in DNA. To determine whether DNA annealing equilibria or properties intrinsic to the DNA ligase enzyme impact end-joining ligation outcomes, we used a highly multiplexed, sequencing-based assay to profile mismatch discrimination and sequence bias for several ligases capable of efficient end-joining. Our data reveal a spectrum of fidelity and bias, influenced by both the strength of overhang annealing as well as sequence preferences and mismatch tolerances that vary both in degree and kind between ligases. For example, while T7 DNA ligase shows a strong preference for ligating high GC sequences, other ligases show little GC-dependent bias, with human DNA Ligase 3 showing almost none. Similarly, mismatch tolerance varies widely among ligases, and while all ligases tested were most permissive of G:T mismatches, some ligases also tolerated bulkier purine:purine mismatches. These comprehensive fidelity and bias profiles provide insight into the biology of end-joining reactions and highlight the importance of ligase choice in application design. © The Author(s) 2022. Published by Oxford University Press on behalf of Nucleic Acids Research.

Citation

Katharina Bilotti, Vladimir Potapov, John M Pryor, Alexander T Duckworth, James L Keck, Gregory J S Lohman. Mismatch discrimination and sequence bias during end-joining by DNA ligases. Nucleic acids research. 2022 May 06;50(8):4647-4658