A phage-encoded small RNA that mimics chimeric guide to inhibit CRISPR-Cas9

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Abstract

CRISPR-Cas9 relies on a dual crRNA–tracrRNA guide, yet whether RNA-based anti-CRISPRs exist for this system has remained unknown. Here we identify a phage-encoded small non-coding RNA, rAcrIIA1, that adopts an unexpected chimeric crRNA–tracrRNA architecture, faithfully recapitulating the entire single-guide RNA (sgRNA) of Cas9. Cryo-EM structures of the Cas9–rAcrIIA1 binary complex and the Cas9–rAcrIIA1–DNA ternary complex reveal that rAcrIIA1 engages Cas9 nearly identically to the native sgRNA, competitively blocking crRNA and tracrRNA loading and thereby abolishing DNA interference. Strikingly, beyond its natural inhibitory function, rAcrIIA1 is fully reprogrammable: with variable guide sequences, it directs Cas9 for sequence-specific DNA cleavage with efficiency comparable to the canonical sgRNA, and it activates trans -cleavage more potently. Thus, rAcrIIA1 provides the first experimentally validated, mechanistically resolved RNA-based inhibitor of CRISPR-Cas9, reveals a distinct anti-CRISPR mechanism through complete sgRNA mimicry, and serves as a versatile bifunctional scaffold for genome editing and diagnostics.

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