Fiche publication
Date publication
octobre 2025
Journal
PLoS genetics
Auteurs
Membres identifiés du Cancéropôle Est :
Pr MOTORINE Iouri
,
Dr MARCHAND Virginie
Tous les auteurs :
Hardy L, Marchand V, Bourguignon V, Thuillier Q, Dias C, Krin E, Fruchard L, Yaacov DB, Mazel D, Motorin Y, Baharoglu Z
Lien Pubmed
Résumé
Transfer RNAs (tRNAs) are central to protein synthesis, ensuring precise decoding of the genetic code by delivering aminoacids to the ribosome. Among all RNA species, tRNAs are the most heavily and diversely modified, with modifications playing critical roles in stability, folding, and function. Here, we present a comprehensive, isodecoder-level map of tRNA modifications in the human pathogen Vibrio cholerae. This map was generated by chemical-based sequencing methods, comparing wild-type and deletion strains. By assigning specific tRNA modifications to their cognate enzymes, we defined a comprehensive modification landscape in Vibrio cholerae and confirmed species-specific features, such as the presence of a functional TrmK enzyme, largely restricted to Gram-positive bacteria. Additionally, we detected a modification at U55 that occurs independently of TruB. To assess the biological significance of these modifications, we evaluated fitness under both standard conditions and subinhibitory antibiotic stress, and examined how modifications in the anticodon stem-loop region influence codon decoding efficiency and accuracy. Based on a comparative analysis of E. coli and V. cholerae, we discuss how species-specific differences in tRNA isodecoder gene repertoires may influence the functional impact and biological importance of tRNA modifications. This work provides the first experimentally validated, genome-wide map of tRNA modifications in V. cholerae, serving as a reference for future research into RNA modifications, translation regulation, and pathogen biology.
Référence
PLoS Genet. 2025 10 31;21(10):e1011937
