Intron RNA editing is essential for splicing in plant mitochondria.

Most plant mitochondria messenger RNAs (mRNAs) undergo editing through C-to-U conversions located mainly in exon sequences. However, some RNA editing events are found in non-coding regions at critical positions in the predicted secondary and tertiary structures of introns, suggesting that RNA editing could be important for splicing. Here, we studied the relationships between editing and splicing of the mRNA encoding the ribosomal protein S10 (rps10), which has a group II intron and five editing sites.

In organello gene expression and RNA editing studies by electroporation-mediated transformation of isolated plant mitochondria.

Plant mitochondrial gene expression is a complex process involving multiple steps such as transcription, cis- and trans-splicing, RNA trimming, RNA editing, and translation. One of the main hurdles in understanding more about these processes has been the inability to incorporate engineered genes into mitochondria. We recently reported an in organello approach on the basis of the introduction of foreign DNA into isolated plant mitochondria by electroporation.

RNA editing site recognition in heterologous plant mitochondria.

RNA editing is a process that modifies the information content of mitochondrial messenger RNAs in flowering plants changing specific cytosine residues into uridine. To gain insight into editing site recognition, we used electroporation to introduce engineered wheat (Triticum aestivum) or potato (Solanum tuberosum) mitochondrial cox2 genes, and an atp9-containing chimeric gene, into non-cognate mitochondria, and observed the efficiency of editing in these contexts. Both wheat and potato mitochondria were able to express "foreign" constructs, and their products were properly spliced.

Gene expression studies in isolated mitochondria: Solanum tuberosum rps10 is recognized by cognate potato but not by the transcription, splicing and editing machinery of wheat mitochondria.

The complex gene expression mechanisms that occur in plant mitochondria, such as RNA editing and splicing, are not yet well understood. RNA editing in higher plant mitochondria is a highly specific process which modifies mRNA sequences by C-to-U conversions. It has been suggested that in some cases this process is required for splicing.

Different patterns in the recognition of editing sites in plant mitochondria.

Higher plant mitochondrial mRNAs are extensively modified by highly specific C-to-U conversions. However, the determinants of recognition specificity are, to date, unknown. Here, we analyse the cis-elements involved in the recognition of two editing sites in a cox2 gene in wheat mitochondria.