Structures of tRNA-bound CRISPR-Cas13 reveal universal HEPN RNase mechanisms

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Abstract

Ribonucleases (RNases) are ubiquitous drivers of RNA metabolism across life. Higher eukaryotes and prokaryotes nucleotide-binding (HEPN) domain-containing RNases form a nuclease superfamily whose mechanisms of substrate selection and catalysis remain poorly understood. Here, we report substrate preferences for diverse Cas13 HEPN RNases, revealing precise cleavage of tRNA anticodons and acceptor stems. Using cryo-EM, we present a series of activated Leptotrichia buccalis Cas13a (LbuCas13a) structures engaged with substrate tRNA. We show LbuCas13a captures tRNA through shape- and sequence-specific recognition, cleaving U-rich anticodons independently of tRNA modifications. Leveraging these insights, we reprogram Cas13 specificity and engineer variants with accelerated RNase activity. These findings establish the molecular basis for Cas13 tRNase activity and indicate that the HEPN RNase superfamily obeys universally conserved mechanisms of substrate recognition and catalysis.

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