CRISPR-Cas9 trans-cleavage is hindered by a closed R-loop, an elongated spacer, and an inactive HNH domain

Cas9 can process poly(T) single-stranded DNA molecules upon activation in an RNA-guided manner. Here, we uncover key structural determinants underlying this function. First, we show that open R-loops in the PAM-distal region favor trans -cleavage activity, which occur when targeting short double-stranded or single-stranded DNA molecules. Second, we show that elongated guide RNA spacers beyond the canonical 20 bases, even by a few bases, severely impairs this collateral activity. Third, although trans -cleavage is mediated by the RuvC domain, we show that a catalytically active HNH domain contributes to an efficient process. Structural analyses of domain rearrangements provide mechanistic insight. Together, these findings illustrate a fine modulation of Cas9 function.