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Engineered IscB–ωRNA system with expanded target range for base editing

Qingquan Xiao, Guoling Li, Dingyi Han, Haoqiang Wang, Mingyu Yao, Tingting Ma, Jingxing Zhou, Yu Zhang, Xiumei Zhang, Bingbing He, Yuan Yuan, Linyu Shi, Tong Li, Hui Yang, Jinhai Huang, Hainan Zhang

2024Nature Chemical Biology35 citationsDOIOpen Access PDF

Abstract

As the evolutionary ancestor of Cas9 nuclease, IscB proteins serve as compact RNA-guided DNA endonucleases and nickases, making them strong candidates for base editing. Nevertheless, the narrow targeting scope limits the application of IscB systems; thus, it is necessary to find more IscBs that recognize different target-adjacent motifs (TAMs). Here, we identified 10 of 19 uncharacterized IscB proteins from uncultured microbes with activity in mammalian cells. Through protein and ωRNA engineering, we further enhanced the activity of IscB ortholog IscB.m16 and expanded its TAM scope from MRNRAA to NNNGNA, resulting in a variant named IscB.m16*. By fusing the deaminase domains with IscB.m16* nickase, we generated IscB.m16*-derived base editors that exhibited robust base-editing efficiency in mammalian cells and effectively restored Duchenne muscular dystrophy proteins in diseased mice through single adeno-associated virus delivery. Thus, this study establishes a set of compact base-editing tools for basic research and therapeutic applications. Xiao et al. characterize 19 previously unidentified IscB proteins, 10 of which show activity in mammalian cells. They engineer one of the proteins into a robust in vivo genome-editing tool with a broad target-adjacent motif scope and further develop it into a base editor.

Topics & Concepts

Computational biologyRNABase pairBase (topology)BiologyComputer scienceGeneticsDNAGeneMathematicsMathematical analysisCRISPR and Genetic EngineeringRNA regulation and diseaseRNA and protein synthesis mechanisms
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