摘要
CRISPR-mediated base editors have been widely used to correct defective alleles and create novel alleles by artificial evolution for the rapid genetic improvement of crops.The editing capabilities of base editors strictly rely on the performance of various nucleotide modification enzymes.Compared with the welldeveloped adenine base editors(ABEs),cytosine base editors(CBEs)and dual base editors suffer from unstable editing efficiency and patterns at different genomic loci in rice,significantly limiting their application.Here,we comprehensively examined the base editing activities of multiple evolved TadA8e variants in rice.We found that both TadA-CDd and TadA-E27R/N46L achieved more robust C-to-T editing than previously reported hyperactive hAID*D,and TadA-CDd outperformed TadA-E27R/N46L.A C-to-G base editor(CGBE)engineered with TadA-CDd and OsUNG performed highly efficient C-to-G editing in rice compared with that of TadA-N46P.In addition,a dual base editor constructed with a single protein,TadDE,enabled simultaneous,highly efficient C-to-T and A-to-G editing in rice.Collectively,our results demonstrate that TadA8e derivatives improve both CBEs and dual base editors in rice,providing a powerful way to induce diverse nucleotide substitutions for plant genome editing.
基金
supported by the STI 2030-Major Projects(2023ZD04074)
the National Key Research and Development Program of China(2023YFD1202900)
the Nanfan special project of the Chinese Academy of Agricultural Sciences(YBXM2313)
the Hainan Seed Industry Laboratory(project of B23CJ0208)
the Agricultural Science and Technology Innovation Program of the Chinese Academy of Agricultural Sciences.
