Shutdown of multidrug transporter bmrCD mRNA expression mediated by the ribosome-associated endoribonuclease (Rae1) cleavage in a new cryptic ORF.

Abstract

Rae1 is a well-conserved endoribonuclease among Gram-positive bacteria, cyanobacteria, and the chloroplasts of higher plants. We have previously shown that Rae1 cleaves the Bacillus subtilis yrzI operon mRNA in a translation-dependent manner within a short open reading frame (ORF) called S1025, encoding a 17-amino acid (aa) peptide of unknown function. Here, we map a new Rae1 cleavage site in the bmrBCD operon mRNA encoding a multidrug transporter, within an unannotated 26-aa cryptic ORF that we have named bmrX Expression of the bmrCD portion of the mRNA is ensured by an antibiotic-dependent ribosome attenuation mechanism within the upstream ORF bmrB Cleavage by Rae1 within bmrX suppresses bmrCD expression that escapes attenuation control in the absence of antibiotics. Similar to S1025, Rae1 cleavage within bmrX is both translation- and reading frame-dependent. Consistent with this, we show that translation-dependent cleavage by Rae1 promotes ribosome rescue by the tmRNA.