Journal
NUCLEIC ACIDS RESEARCH
Volume -, Issue -, Pages -Publisher
OXFORD UNIV PRESS
DOI: 10.1093/nar/gkad1127
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Cas13a is a recent addition to the CRISPR-Cas toolkit that specifically targets RNA for detection purposes. This study reveals that target RNA acts as an allosteric effector, amplifying communication signals to control RNA cleavage activity. The findings provide a fundamental understanding of the mechanism of action of Cas13a and open up new avenues for the development of highly selective RNA-based cleavage and detection tools.
Cas13a is a recent addition to the CRISPR-Cas toolkit that exclusively targets RNA, which makes it a promising tool for RNA detection. It utilizes a CRISPR RNA (crRNA) to target RNA sequences and trigger a composite active site formed by two 'Higher Eukaryotes and Prokaryotes Nucleotide' (HEPN) domains, cleaving any solvent-exposed RNA. In this system, an intriguing form of allosteric communication controls the RNA cleavage activity, yet its molecular details are unknown. Here, multiple-microsecond molecular dynamics simulations are combined with graph theory to decipher this intricate activation mechanism. We show that the binding of a target RNA acts as an allosteric effector, by amplifying the communication signals over the dynamical noise through interactions of the crRNA at the buried HEPN1-2 interface. By introducing a novel Signal-to-Noise Ratio (SNR) of communication efficiency, we reveal critical allosteric residues-R377, N378, and R973-that rearrange their interactions upon target RNA binding. Alanine mutation of these residues is shown to select target RNA over an extended complementary sequence beyond guide-target duplex for RNA cleavage, establishing the functional significance of these hotspots. Collectively our findings offer a fundamental understanding of the Cas13a mechanism of action and pave new avenues for the development of highly selective RNA-based cleavage and detection tools. Graphical Abstract
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