CRISPR-Cas12a target binding unleashes indiscriminate single-stranded DNase activity

Janice S. Chen(University of California, Berkeley), Enbo Ma(University of California, Berkeley), Lucas B. Harrington(University of California, Berkeley), Maria Da Costa(University of California, San Francisco), Xinran Tian(University of California, Berkeley), Joel M. Palefsky(University of California, San Francisco), Jennifer A. Doudna(Howard Hughes Medical Institute)
Science
February 15, 2018
10.1126/science.aar6245
Cited by 4,313

Abstract

CRISPR-Cas12a (Cpf1) proteins are RNA-guided enzymes that bind and cut DNA as components of bacterial adaptive immune systems. Like CRISPR-Cas9, Cas12a has been harnessed for genome editing on the basis of its ability to generate targeted, double-stranded DNA breaks. Here we show that RNA-guided DNA binding unleashes indiscriminate single-stranded DNA (ssDNA) cleavage activity by Cas12a that completely degrades ssDNA molecules. We find that target-activated, nonspecific single-stranded deoxyribonuclease (ssDNase) cleavage is also a property of other type V CRISPR-Cas12 enzymes. By combining Cas12a ssDNase activation with isothermal amplification, we create a method termed DNA endonuclease-targeted CRISPR trans reporter (DETECTR), which achieves attomolar sensitivity for DNA detection. DETECTR enables rapid and specific detection of human papillomavirus in patient samples, thereby providing a simple platform for molecular diagnostics.

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