RNA editing of the ribosomal protein S13 transcripts in magnolia and sunflower mitochondria.

To obtain information on ribosomal protein gene content and RNA editing in plant mitochondria, we investigated the conservation of the gene for ribosomal protein S13 (rps13) in the mitochondrial genomes of Magnolia spp. and Helianthus annuus. A complete rps13 open reading frame was identified in the mitochondrial genome of Magnolia and Helianthus. Comparison of genomic and cDNA sequences revealed that transcripts from the mitochondrial rps13 locus in both Magnolia and Helianthus undergo RNA editing suggesting the functionality of the related gene. Six and four editing events in the rps13 transcript population of Magnolia and Helianthus mitochondria, respectively, cause critical changes of codons and, consequently, induce 5 and 3.4% amino acid modifications in the respective genomically-encoded S13 polypeptides. Both editing pattern and efficiency of RNA editing differ in the reverse transcription (RT)-PCR-derived cDNA populations from the rps13 locus from the analyzed plant species with only the Magnolia rps13 being fully edited.

Conservation of the organization of the mitochondrial nad3 and rps12 genes in evolutionarily distant angiosperms.

The organization of the genes nad3 and rps12 has been investigated in the mitochondrial genome of two dicotyledonous plants - Helianthus and Magnolia - and one monocotyledonous plant (Allium). These plants all contain a complete rps12 gene downstream of the nad3 gene. This arrangement is thus highly conserved within angiosperms. The two genes are co-transcribed and the transcript is modified at several positions by RNA editing of the C to U-type, thus confirming that both genes encode functional proteins. Some 26, 35 and 27 editing events have been identified in the PCR-derived nad3-rps12 cDNA population from sunflower, Magnolia and onion, respectively. Editing of the nad3-rps12 transcript is thus more extensive in Magnolia than in the other angiosperms so far investigated and radically changes the genomically encoded polypeptide sequence. A novel species-specific codon modification was observed in Magnolia. Several homologous sites show differences in editing pattern among plant species. A C-to-U alteration is also found in the non-coding region separating the nad3 and rps12 genes in sunflower. The PCR-derived cDNA populations from the nad3-rps12 loci analysed were found to be differently edited. In addition the plant species show marked variations in the completeness of RNA editing, with only the Magnolia nad3 mRNA being edited fully.