A Comprehensive tRNA Genomic Survey Unravels the Evolutionary History of tRNA Arrays in Prokaryotes

Considering the importance of tRNAs in the translation machinery, scant attention has been paid to tRNA array units defined as genomic regions containing at least 20 tRNA genes with a minimal tRNA gene density of two tRNA genes per kilobase. Our analysis of Acidithiobacillus ferrivorans CF27 and Acidithiobacillus ferrooxidans ATCC 23270(T) genomes showed that both display a tRNA array unit with syntenic conservation which mainly contributed to the tRNA gene redundancy in these two organisms. Our investigations into the occurrence and distribution of tRNA array units revealed that 1) this tRNA organization is limited to few phyla and mainly found in Gram-positive bacteria; and 2) the presence of tRNA arrays favors the redundancy of tRNA genes, in particular those encoding the core tRNA isoacceptors. Finally, comparative array organization revealed that tRNA arrays were acquired through horizontal gene transfer (from Firmicutes or unknown donor), before being subjected to tRNA rearrangements, deletions, and duplications. In Bacilli, the most parsimonious evolutionary history involved two common ancestors and the acquisition of their arrays arose late in evolution, in the genera branches. Functional roles of the array units in organism lifestyle, selective genetic advantage and translation efficiency, as well as the evolutionary advantages of organisms harboring them were proposed. Our study offers new insight into the structural organization and evolution of tRNA arrays in prokaryotic organisms.