Repair of tRNAs in metazoan mitochondria.

Abstract

The integrity of 3'-ends of tRNAs is essential for aminoacylation and consequently for protein synthesis. The CCA-termini are generated and, if truncated by exonucleolytic activity, restored by tRNA nucleotidyltransferase. However, further truncations at the 3'-end can occur by exonuclease activity or during processing of overlapping tRNA primary transcripts in metazoan mitochondria. In the latter case, the upstream tRNA is released in a 3'-truncated form (lacking up to six bases) and subsequently completed. In human mitochondria, tRNA(Tyr)(missing the discriminator nucleotide A(73)) is completed by a discriminator adding activity followed by CCA addition. Since in vivo a high percentage of further 3'-terminally degraded human tRNA(Tyr)transcripts could be observed, it was tested in an in vitro system whether this repair mechanism for tRNA 3'-ends acts also on these further degraded tRNA versions. Additionally, 3'-truncated versions of two non-overlapping mitochondrial tRNAs (tRNA(Thr)and tRNA(Phe)) were examined. The results show that these transcripts can be repaired during incubation. A similar base incorporating activity was observed in mouse mitochondria, indicating that a repair mechanism for the 3'-end of several tRNAs exists in mitochondria of humans and possibly other metazoans which goes beyond the CCA addition.