PubMed 34191398

PubMed ID: 34191398

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Development of an efficient plant dual cytosine and adenine editor.
Authors: Xu Rongfang, Kong Fanna, Qin Ruiying, Li Juan, Liu Xiaoshuang, Wei Pengcheng
Journal: Journal of integrative plant biology (J Integr Plant Biol), Vol.63(9), 2021‑Sep

DOI: 10.1111/jipb.13146

Abstract
An enhanced CDA-like (eCDAL) was established from Japanese lamprey CDA1-like 4 to achieve a high editing frequency in a broad region as a C-terminal cytosine base editors (CT-CBE). Then, a novel plant dual-base editor version 1(pDuBE1) was developed by integrating TadA-8e into eCDAL. The editing efficiency of pDuBE1 could reach to 87.6%, with frequencies of concurrent A-to-G and C-to-T conversions as high as 49.7% in stably transformed plant cells. Our results showed that pDuBE1 could mediate robust dual editing in plant genome, providing a powerful manipulation tool for precise crop breeding and screening platforms for in planta direct evolution.
Publication Types
Evaluation Study Journal Article
Keywords
CRISPR base editing dual-base editor genome editing rice
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