Abstract
CRISPR-Cas (clustered regularly interspaced short palindromic repeats and CRISPR-associated proteins) systems present a barrier to prophage acquisition by restricting invading phages or by inducing autoimmune cleavage of integrated prophage DNA. The RNA-sensing type VI CRISPR nuclease Cas13 mediates non-specific RNA cleavage upon recognition of phage lytic transcripts, but how this system influences the temperate phage life cycle remains unknown. Here we report that the Listeria seeligeri type VI-A CRISPR system restricts the lytic cycle of temperate phages but tolerates prophage acquisition and interferes with prophage induction through a non-abortive mechanism. During attempts at induction, Cas13 activation forces prophage re-integration, thus maintaining lysogeny. We also find that during polylysogenic induction, Cas13 acts specifically, restricting only the targeted phage, in contrast to its behaviour during lytic replication. Our findings show that Cas13 elicits a unique response to each stage of the temperate phage life cycle, enabling type VI CRISPR hosts to acquire potentially beneficial prophages while mitigating lysis.