The N-terminal half-domain of the long form of tRNase Z is required for the RNase 65 activity

Transfer RNA (tRNA) 3′ processing endoribonuclease (tRNase Z) is an enzyme responsible for the removal of a 3′ trailer from pre-tRNA. There exists two types of tRNase Z: one is a short form (tRNase ZS) that consists of 300–400 amino acids, and the other is a long form (tRNase ZL) that contains 800–900 amino acids. Here we investigated whether the short and long forms have different preferences for various RNA substrates. We examined three recombinant tRNase ZSs from human, Escherichia coli and Thermotoga maritima, two recombinant tRNase ZLs from human and Saccharomyces cerevisiae, one tRNase ZL from pig liver, and the N- and C-terminal half regions of human tRNase ZL for cleavage of human micro-pre-tRNA^Arg and the RNase 65 activity. All tRNase ZLs cleaved the micro-pre-tRNA and showed the RNase 65 activity, while all tRNase ZSs and both half regions of human tRNase ZL failed to do so with the exception of the C-terminal half, which barely cleaved the micro-pre-tRNA. We also show that only the long forms of tRNase Z can specifically cleave a target RNA under the direction of a new type of small guide RNA, hook RNA. These results indicate that indeed tRNase ZL and tRNase ZS have different substrate specificities and that the differences are attributed to the N-terminal half-domain of tRNase ZL. Furthermore, the optimal concentrations of NaCl, MgCl₂ and MnCl₂ differed between tRNase ZSs and tRNase ZLs, and the K_m values implied that tRNase ZLs interact with pre-tRNA substrates more strongly than tRNase ZSs.