DNA-targeting short Argonaute triggers effector nuclease to protect bacteria from invaders

Abstract

AbstractTwo prokaryotic defence systems, Argonautes (pAgos) and CRISPR-Cas, detect invader nucleic acids using complementary guides. Upon recognition, the target is cleaved through nuclease activities of pAgo or Cas proteins thus protecting the cell from invasion. However, not all pAgos are active nucleases. Members of a large clade of short pAgos bind nucleic acid guides but lack nuclease activity suggesting a different mechanism of action. Here, we have investigated short pAgo fromNovosphingopyxis baekryungensis(NbaAgo). We have shown that NbaAgo forms a heterodimeric complex, SPARDA, with a co-encoded effector nuclease. RNA-guided target DNA recognition unleashes the nuclease activity of SPARDA leading to indiscriminate collateral cleavage of DNA and RNA. Activation of SPARDA results in cell death during plasmid transformation or phage infection, thus protecting bacterial population from invaders. The collateral activity of SPARDA allows highly sensitive detection of specific DNA targets. SPARDA expands the list of prokaryotic immune systems that elicit suicidal cell response with a unique range of nuclease activities, creating additional opportunities for biotechnologies.