C-to-U editing causes specific nucleotide changes in plant mitochondrial nRNAs that are required for the restoration of the evolutionarily conserved amino acid sequence. Transcripts for the ribosomal protein S12 gene (rps12) have six C-to-U editing sites and are highly heterogeneous as a result of incomplete editing. immunological analysis demonstrated that unedited or partially edited transcripts as well as edited mRNAs are translated. The edited rps12 translation products accumulate as ribosomal subunits, but the unedited rps12 translation products are present as unassembled subunits and are not detected in the ribosomes. Thus, gene expression is polymorphic as a result of incomplete C-to-U editing, and aberrant polypeptides are present from the translation of these mRNAs. However, because only the edited translation products accumulate in mitochondrial ribosomes, the overall expression of rps12 is rendered coherent by the selection
C-to-U editing causes specific nucleotide changes in plant mitochondrial nRNAs that are required for the restoration of the evolutionarily conserved amino acid sequence. Transcripts for the ribosomal protein S12 gene (rps12) have six C-to-U editing sites and are highly heterogeneous as a result of incomplete editing. immunological analysis demonstrated that unedited or partially edited transcripts as well as edited mRNAs are translated. The edited rps12 translation products accumulate as ribosomal subunits, but the unedited rps12 translation products are present as unassembled subunits and are not detected in the ribosomes. Thus, gene expression is polymorphic as a result of incomplete C-to-U editing, and aberrant polypeptides are present from the translation of these mRNAs. However, because only the edited translation products accumulate in mitochondrial ribosomes, the overall expression of rps12 is rendered coherent by the selection
The rps12 gene transcripts encoding mitochondrial ribosomal protein S12 are partially edited in petunia mitochondria. Different petunia lines were found vary in the extent of rps12 transcript editing. To test whether multiple forms of RPS12 proteins are produced in petunia mitochondria as a result of partial editing, we probed mitochondrial proteins with specific antibodies against edited and unedited forms of a 13-amino-acid RPS12 peptide spanning two amino acids affected by RNA editing. Both antibodies reacted with mitochondrial proteins at the expected size for RPS12 proteins. The amounts of unedited RPS12 protein in different petunia lines correlate with the abundance of unedited transcripts in these plants. Unedited rps12 translation products are also detected in other plant species, indicating that polymorphism in mitochondrial rps12 expression is widespread. Moreover, we show that RPS12 proteins recognized by both edited-specific and unedited-specific antibodies are present in a petunia mitochondrial ribosome fraction. These results demonstrate that partially edited transcripts can be translated and that the protein product can accumulate to detectable levels. Therefore, genes exhibiting incompletely edited transcripts can encode more than one gene product in plant mitochondria.
Maize mitochondrial transcripts for the ribosomal protein S13 gene (rps13) have six C- to -U editing sites, and each nucleotide conversion causes a change in the amino acid specified by the effected codons. Sequence analysis of 30 cDNA clones indicated that 73% of the cDNAS were edited at all six sites and 3% were completely unedited. Antibodies were produced against synthetic peptides that corresponded to unedited or edited translation products at editing sites V and VI (80% and 83% edited, respectively). Antibody preparations were purified that selectively recognized the edited or unedited forms of the epitope. The antibody preparations were highly sensitive to the amino-acid residue encoded at editing site VI, but relatively insensitive to the residue encoded at editing site V. Immunological analyses demonstrated that the edited translation product accumulated as a ribosomal protein, but that the unedited translation product was not detected in the mitochondrion, in the ribosomal fraction, or in a post-ribosomal supernatant. These results, taken together with other studies which demonstrated that incompletely edited transcripts are incorporated into polyribosomes, suggest that incompletely edited transcripts may be translated, but polypeptides encoded by incompletely edited RNAs may be unstable and, consequently, fail to accumulate.
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