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Continuous evolution of base editors with expanded target compatibility and improved activity.

Nat Biotechnol. 2019; 
Thuronyi BW,,, Koblan LW,, Levy JM,, Yeh WH,,, Zheng C, Newby GA,, Wilson C,, Bhaumik M, Shubina-Oleinik O, Holt JR, Liu DR,,.
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摘要

Base editors use DNA-modifying enzymes targeted with a catalytically impaired CRISPR protein to precisely install point mutations. Here, we develop phage-assisted continuous evolution of base editors (BE-PACE) to improve their editing efficiency and target sequence compatibility. We used BE-PACE to evolve cytosine base editors (CBEs) that overcome target sequence context constraints of canonical CBEs. One evolved CBE, evoAPOBEC1-BE4max, is up to 26-fold more efficient at editing cytosine in the GC context, a disfavored context for wild-type APOBEC1 deaminase, while maintaining efficient editing in all other sequence contexts tested. Another evolved deaminase, evoFERNY, is 29% smaller than APOBEC1 and edits effi... More

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