Yao He

TL;DR: In this paper, two recently engineered SpCas9 variants, namely xCas9 and Cas9-NG, showed promising potential in improving targeting specificity and broadening the targeting range.

TL;DR: Significant yield increase has been achieved by simultaneous introduction of three trait-related QTLs in three rice varieties with multiplex editing by CRISPR–Cas9, demonstrating a promising genome editing approach for rapid breeding of QTLS in elite crop varieties.

TL;DR: This work establishes Cas12b as the third promising CRISPR system, after Cas9 and Cas12a, for plant genome engineering, and finds AaCas12b was more efficient than AacCas 12b and BthCas12B for targeted mutagenesis, which was further demonstrated in multiplexed genome editing.

TL;DR: Two new STU CRISPR 2.0 systems for genome editing in rice showed more robust genome editing efficiencies than the first‐generation STU‐Cas9‐RZ system and the conventional mixed dual promoter system, and theSTU‐based PmCDA1 base editor system is highly efficient in rice.