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Structure-guided discovery of highly efficient cytidine deaminases with sequence-context independence

Kui Xu, Feng Hu, Haihang Zhang, Chenfei He, Huifang Kang, Tanglong Yuan, Lei Shi, Chikai Zhou, Guoying Hua, Yaqi Cao, Zhenrui Zuo, Erwei Zuo

2024Nature Biomedical Engineering31 citationsDOIOpen Access PDF

Abstract

The applicability of cytosine base editors is hindered by their dependence on sequence context and by off-target effects. Here, by using AlphaFold2 to predict the three-dimensional structure of 1,483 cytidine deaminases and by experimentally characterizing representative deaminases (selected from each structural cluster after categorizing them via partitional clustering), we report the discovery of a few deaminases with high editing efficiencies, diverse editing windows and increased ratios of on-target to off-target effects. Specifically, several deaminases induced C-to-T conversions with comparable efficiency at AC/TC/CC/GC sites, the deaminases could introduce stop codons in single-copy and multi-copy genes in mammalian cells without double-strand breaks, and some residue conversions at predicted DNA-interacting sites reduced off-target effects. Structure-based generative machine learning could be further leveraged to expand the applicability of base editors in gene therapies.

Topics & Concepts

CytidineCytosineContext (archaeology)BiologyDNAComputational biologyGeneticsBiochemistryEnzymePaleontologyCRISPR and Genetic EngineeringAdvanced biosensing and bioanalysis techniquesRNA and protein synthesis mechanisms
Structure-guided discovery of highly efficient cytidine deaminases with sequence-context independence | Litcius