Molecular Mechanism of Active Cas7-11 in Processing CRISPR RNA and Interfering Target RNA

Cas7-11 is a Type III-E CRISPR Cas effector that confers programmable RNA cleavage and has potential applications in RNA interference. Cas7-11 encodes a single polypeptide containing four Cas7- and one Cas11-like segments that obscures the distinction between the multi-subunit Class 1 and the single-subunit Class-2 CRISPR-Cas systems. We report a cryo-EM structure of the active Cas7-11 from Desulfonema ishimotonii (DiCas7-11) that reveals the molecular basis for RNA processing and interference activities. DiCas7-11 arranges its Cas7- and Cas11-like domains in an extended form that resembles the backbone made up by four Cas7 and one Cas11 subunits in the multi-subunit enzymes. Unlike the multi-subunit enzymes, however, the backbone of DiCas7-11 contains evolutionarily different Cas7 and Cas11 domains, giving rise to their unique functionality. The first Cas7-like domain nearly engulfs the last 15 direct repeat nucleotides and is responsible for processing and recognition of the CRISPR RNA. Whereas both the second and the third Cas7-like domains mediate target RNA cleavage, they differ in metal requirement for catalysis. The long variable insertion to the fourth Cas7-like domain has little impact to RNA processing or targeting, suggesting the possibility for engineering a compact and programmable RNA interference tool.