AI Article Synopsis

  • C-to-U RNA editing in plant organelles is essential for producing important, conserved proteins, with 28 editing sites identified in maize chloroplasts and hundreds in mitochondria.
  • Research on Arabidopsis mutants suggests that each C target of RNA editing may need specific recognition proteins, as the absence of one can disrupt editing at particular sites.
  • In vitro studies reveal that specific RNA sequences enable competition for editing activity between two sites (ZMrpoB C467 and ZMrps14 C80) and highlight that shared trans-factors might streamline the editing process across numerous targets without needing unique factors for each.

Article Abstract

C-->U plant organellar RNA editing is required for the translation of evolutionarily conserved and functional proteins. 28 different C targets of RNA editing have been identified in maize chloroplasts, and hundreds of Cs are edited in mitochondria. Mutant analysis in Arabidopsis has indicated that absence of a single site-specific recognition protein can result in loss of editing of a single C target, raising the possibility that each C target requires a recognition protein. Here we show that transcripts encompassing two editing sites, ZMrpoB C467 and ZMrps14 C80, can compete editing activity from each other in vitro despite limited sequence similarity. The signal causing competition overlaps a 5'-cis element required for editing efficiency. A single five-nucleotide mutation spanning the region from -20 to -16 relative to the edited C of rpoB C467 is sufficient to eliminate its substrate editing as well as its ability to compete editing activity from rps14 C80 substrates. A corresponding mutation in an rps14 C80 competitor likewise eliminated its ability to compete editing activity from rpoB C467 substrates. Taken together, our results indicate that the RNA sequences mediating both editing efficiency and cross-competition are highly similar and that a common protein is involved in their editing. Sharing of trans-factors can facilitate editing of the large number of different C targets in plant organelles so that a different protein factor would not be required for every editing site.

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Source
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC2276328PMC
http://dx.doi.org/10.1074/jbc.M709595200DOI Listing

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