| Popis: |
The Cas9 endonuclease is broadly used for genome engineering applications by programming its single-guide RNA, where high specificity is required. Although mechanistic understanding of DNA cleavage in the CRISPR-Cas9 system has been guided by crystallographic structures and single-molecule FRET experiments, the role of conformational plasticity within its DNA recognition lobe (REC) for target accuracy remains elusive. Through NMR analysis of milliseconds-timescale dynamics, we show that the REC3 domain exchanges between a major, closed and a minor, open conformation. We find that a single mutation in the HiFi Cas9 variant (R691A) increases conformational dynamics in REC3, eliciting a global transition to the open conformation which is regulated by an intramolecular salt-bridge network. These observations suggest a mechanism for reduced off-target recognition by switching on a global conformational exchange process to allow REC3 scanning for proper base pairing. Our data establish a framework for rational engineering Cas9 variants with improved target discrimination. |
