Structure-Guided design of Cas12a variants improves detection of nucleic acids
Xiaohan Tong, Tianle Li, Kun Zhang, Dongming Zhao, Ying Zhang, Hao Yin
Abstract
CRISPR-Cas12a holds promising potential for pathogen detection. However, its performance is not optimal when combined with isothermal amplification. Hence, we engineered a mutant of LbCas12a (K595A) with reduced cis -cleavage activity, to minimize interference with isothermal amplification. Compared to wild-type Cas12a, the K595A mutant exhibited a 2–3 times faster reaction speed and a 1,000–10,000 times increase in sensitivity in a one-pot reaction. We applied this mutant for detection of African Swine Fever Virus (ASFV). This K595A mutant successfully detected all 30 ASFV samples within 20 minutes. Our study suggests a universal approach to improve the performance of Cas12a for pathogen detection. • We developed LbCas12a variants to enhance performance in CRISPR-based one-pot reactions by targeting its canonical PAM. • This mutation is conserved across various Cas12a family members. • The conserved mutation suggests that this approach could universally enhance one-pot reactions involving Cas12a.