The bacterial RNA ligase RtcB accelerates the repair process of fragmented rRNA upon releasing the antibiotic stress

RtcB, a highly conserved RNA ligase, is found in all three domains of life, and demonstrated to be an essential tRNA splicing component in archaea and metazoans. However, the biological functions of RtcB in bacteria, where there is no splicing, remains to be clarified. We first performed bioinformatics analysis which revealed highly conserved structures and presumably conserved functions of RtcB in bacteria. However, its orthologs only occur in ∼ 0.5% of bacterial species across diverse phyla with significant signals of frequent horizontal transfer, highlighting its non-essential role in bacteria. Next, by constructing an rtcB-knockout strain, we find that the removal of antibiotic stress induces a significant impact on rtcBexpression in wild-type strain, and furthermore the depletion of RtcB (ARtcB strain) delays the recovery process. Our transcriptomic analysis, comprising the 3′-end labeling of RNAs, highlights a significant increase in unmapped reads and cleaved rRNAs in the Δ RtcB strain, particularly during recovery. Our observations suggest that the conserved RNA ligase RtcB, repairs damaged rRNAs following stress, which potentially saves energy and accelerates recovery of its host. We propose that acquisition of RtcB by diverse bacterial taxa provides a competitive advantage under stressful conditions.