Pseudouridine (Ψ) modifications are the most abundant RNA modifications; however, their distribution and functional significance in bacteria remain largely unexplored compared to eukaryotic systems. In this study, we present the first transcriptome-wide and quantitative mapping of Ψ modifications across five diverse bacterial species ( Bacillus cereus , Escherichia coli , Klebsiella pneumoniae , Pseudomonas aeruginosa , and Pseudomonas syringae ) at single-base resolution, utilizing the optimized baBID-seq method for bacterial RNA. Our analysis revealed growth phase-dependent dynamics of pseudouridylation in bacterial tRNA and mRNA, particularly in genes enriched in core metabolic pathways. Comparative analysis demonstrated evolutionarily conserved features of Ψ modifications, such as dominant motif contexts, Ψ clustering within operons, etc. Functional analysis indicated Ψ modifications affect bacterial mRNA stability, translation, and interactions with specific RNA-binding proteins i