RluA is the major mRNA pseudouridine synthase in Escherichia coli

Pseudouridine (Ψ) is an ubiquitous RNA modification, present in the tRNAs and rRNAs of species across all domains of life. Conserved pseudouridine synthases modify the mRNAs of diverse eukaryotes, but the modification has yet to be identified in bacterial mRNAs. Here, we report the discovery of pseudouridines in mRNA from E. coli . By testing the mRNA modification capacity of all 11 known pseudouridine synthases, we identify RluA as the predominant mRNA-modifying enzyme. RluA, a known tRNA and 23S rRNA pseudouridine synthase, modifies at least 31 of the 44 high-confidence sites we identified in E. coli mRNAs. Using RNA structure probing data to inform secondary structures, we show that the target sites of RluA occur in a common sequence and structural motif comprised of a ΨURAA sequence located in the loop of a short hairpin. This recognition element is shared with previously identified target sites of RluA in tRNAs and rRNA. Overall, our work identifies pseudouridine in key mRNAs and suggests the capacity of Ψ to regulate the transcripts that contain it. Author Summary While RNAs are initially transcribed using only the nucleotides A, G, C and U, these can be enzymatically modified into many different post-transcriptional modifications. tRNAs and rRNAs across all domains of life are modified with pseudouridine, an isoform of uridine that is inserted by highly conserved enzymes. In many eukaryotes, it has been demonstrated that some of these enzymes can also insert pseudouridines in mRNA, where they are poised to impact gene expression through their effects on the transcript. Here we show that protein-coding transcripts in E. coli are also modified with pseudouridine, indicating that mRNA pseudouridylation is also a highly conserved activity. RluA is the main mRNA pseudouridine synthase, introducing the modification into the transcripts of dozens of protein coding genes with high specificity. Its target sites are defined by a combined sequence and secondary structure motif. Two additional enzymes, RluC and RluD, introduce a few additional sites. All three of these enzymes belong to the same sub-family of pseudouridine synthases, and homologs of these also modify mRNAs in humans. Thus, mRNA modification by these enzymes might be a conserved activity with the capacity to impact gene regulation. ### Competing Interest Statement The authors have declared no competing interest.