Loss of s ² U tRNA modification induces antibiotic tolerance in Yersinia pseudotuberculosis

Stress promotes phenotypic changes in bacteria that allow them to survive antibiotic treatment. This phenomenon, known as antibiotic tolerance, can cause antibiotic treatment failure, making it important to define the bacterial pathways promote survival. Previously, we found Yersinia pseudotuberculosis downregulates tusB , a gene involved in modifying glutamate, glutamine, and lysine tRNAs with s ² U, in response to doxycycline. Here, we find deletion of tusB induces tolerance to ribosome and RNA polymerase- targeting antibiotics. We hypothesize that loss of s ² U induces slowed growth and antibiotic tolerance by slowing down translation of proteins enriched in glutamate, glutamine, and lysine codons. In line with this, we find that ribosomes pause more frequently at these codons in Δ tusB . Ribosomal proteins themselves are highly enriched in these codons and significantly reduced in protein abundance. Our results indicate that reduction in ribosomal proteins may be globally reducing translation and could signify a previously unknown mechanism of antibiotic tolerance.