Abstract
Mammalian tRNA 3' processing endoribonuclease (3' tRNase) can be converted to an RNA cutter that recognizes four bases, with about a 65-nt 3'-truncated tRNA(Arg) or tRNA(Ala). The 3'-truncated tRNA recognizes the target RNA via four base pairings between the 5'terminal sequence and a sequence 1-nt upstream of the cleavage site, resulting in a pre-tRNA-like complex (Nashimoto M, 1995, Nucleic Acids Res 23:3642-3647). Here I developed a general method for more specific RNA cleavage using 3' tRNase. In the presence of a 36-nt 5' half tRNA(Arg) truncated after the anticodon, 3' tRNase cleaved the remaining 56-nt 3' half tRNA(Arg) with a 19-nt 3' trailer after the discriminator. This enzyme also cleaved its derivatives with a 5' extra sequence or nucleotide changes or deletions in the T stem-loop and extra loop regions, although the cleavage efficiency decreases as the degree of structural change increases. This suggests that any target RNA can be cleaved site-specifically by 3'tRNase in the presence of a 5' half tRNA modified to form a pre-tRNA-like complex with the target. Using this method, two partial HIV-1 RNA targets were cleaved site-specifically in vitro. These results also indicate that the sequence and structure of the T stem-loop domain are important, but not essential, for the recognition of pre-tRNAs by 3' tRNase.
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