Abstract
Although tRNA structure is one of the most conserved and recognizable shapes in molecular biology, aberrant tRNAs are frequently found in the mitochondrial genomes of metazoans. The extremely degenerate structures of several mitochondrial tRNAs (mt-tRNAs) have led to doubts about their expression and function. Mites from the arachnid superorder Acariformes are predicted to have some of the shortest mt-tRNAs, with a complete loss of cloverleaf-like shape. While performing mitochondrial isolations and recently developed tRNA-seq methods in plant tissue, we inadvertently sequenced the mt-tRNAs from a common plant pest, the acariform mite Tetranychus urticae, to a high enough coverage to detect all previously annotated T. urticae tRNA regions. The results not only confirm expression, CCA-tailing and post-transcriptional base modification of these highly divergent tRNAs, but also revealed paired sense and antisense expression of multiple T. urticae mt-tRNAs. Mirrored expression of mt-tRNA genes has been hypothesized but not previously demonstrated to be common in any system. We discuss the functional roles that these divergent tRNAs could have as both decoding molecules in translation and processing signals in transcript maturation pathways, as well as how sense–antisense pairs add another dimension to the bizarre tRNA biology of mitochondrial genomes.
Hopeful monsters: unintended sequencing of famously malformed mite mitochondrial tRNAs reveals widespread expression and processing of sense–antisense pairs