Abstract
Colicin D is a plasmid-encoded bacteriocin that specifically cleaves tRNA(Arg) of sensitive Escherichia coli cells. E. coli has four isoaccepting tRNA(Arg)s; the cleavage occurs at the 3' end of anticodon-loop, leading to translation impairment in the sensitive cells. tRNAs form a common L-shaped structure and have many conserved nucleotides that limit tRNA identity elements. How colicin D selects tRNA(Arg)s from the tRNA pool of sensitive E. coli cells is therefore intriguing. Here, we reveal the recognition mechanism of colicin D via biochemical analyses as well as structural modelling. Colicin D recognizes tRNA(Arg)(ICG), the most abundant species of E. coli tRNA(Arg)s, at its anticodon-loop and D-arm, and selects it as the most preferred substrate by distinguishing its anticodon-loop sequence from that of others. It has been assumed that translation impairment is caused by a decrease in intact tRNA molecules due to cleavage. However, we found that intracellular levels of intact tRNA(Arg)(ICG) do not determine the viability of sensitive cells after such cleavage; rather, an accumulation of cleaved ones does. Cleaved tRNA(Arg)(ICG) dominant-negatively impairs translation in vitro. Moreover, we revealed that EF-Tu, which is required for the delivery of tRNAs, does not compete with colicin D for binding tRNA(Arg)(ICG), which is consistent with our structural model. Finally, elevation of cleaved tRNA(Arg)(ICG) level decreases the viability of sensitive cells. These results suggest that cleaved tRNA(Arg)(ICG) transiently occupies ribosomal A-site in an EF-Tu-dependent manner, leading to translation impairment. The strategy should also be applicable to other tRNA-targeting RNases, as they, too, recognize anticodon-loops.Abbreviations: mnm(5)U: 5-methylaminomethyluridine; mcm(5)s(2)U: 5-methoxycarbonylmethyl-2-thiouridine.