Adenine base editors (ABE s) have been exploited to introduce targeted adenine (A) to
guanine (G) base conversions in various plant genomes, including rice, wheat and …

Adenine base editors (ABEs), which are generally engineered adenosine deaminases and
Cas variants, introduce site‐specific A‐to‐G mutations for agronomic trait improvement …

Recently reported adenine base editors (ABEs) exhibit powerful potential for targeted gene
correction as well as developing gain-of-function mutants and novel germplasms for both …

Dear Editor, 31 Crop genetic diversity and elite agronomic traits are mainly caused by
genetic variants, 32 of which approximately half are single-nucleotide polymorphisms …

Base editing is a novel genome editing strategy that enables irreversible base conversion at
target loci without the need for double stranded break induction or homology‐directed …

Precise base editing is highly desired in plant functional genomic research and crop
molecular breeding. In this study, we constructed a rice-codon optimized adenine base …

Base editors that do not require double-stranded DNA cleavage or homology-directed repair
enable higher efficiency and cleaner substitution of targeted single nucleotides in genomic …

Precise modification of eukaryotic genomes has been accomplished mainly through
homology-directed repair (HDR) of DNA double-strand breaks (DSBs)(Hess et al., 2017) …

Cytosine and adenosine base editors (CBE and ABE) have been vigorously developed in
plants, but the base conversion types are limited (Ren et al., 2018, 2021; Xu et al., 2021). A …

Adenine base editors (ABEs) are novel genome-editing tools, and their activity has been
greatly enhanced by eight additional mutations, thus named ABE8e. However, elevated …