Abstract

A unique feature found in the genomes of mycobacteriophages such as L5 belonging to the A cluster is the presence of multiple dispersed repeated elements known as stoperators. The phage repressor binds these repeat elements, shutting off transcription globally and thereby promoting lysogeny. Interestingly, the sequence of these stoperators closely matches that of the consensus -35 region of prokaryotic promoters, leading us to propose that they may have a role to play in the initiation of transcription by serving as RNA polymerase binding sites. Mycobacteriophage D29 is closely related to phage L5, and their genome organizations are very similar. As in L5, there are multiple stoperators in the genome of D29. The positions occupied by the stoperators in the two genomes are almost identical. The significant difference between the two phages is that D29 lacks the gene encoding the equivalent of the L5 repressor. Since phage D29 does not produce a repressor, we considered it to be a suitable model for testing our hypothesis that the stoperators function as promoters in the absence of the repressor. To prove our point, we targeted CRISPR guide RNAs against six stoperators. In the case of five out of the six, we found a significant reduction in downstream gene expression and phage growth. Based on this observation and primer extension assays, we conclude that promoting gene expression is likely to be the primary function of stoperators.

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