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RNA editing site recognition in higher plant mitochondria. 总被引:4,自引:0,他引:4
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Involvement of a site-specific trans-acting factor and a common RNA-binding protein in the editing of chloroplast mRNAs: development of a chloroplast in vitro RNA editing system
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RNA editing in higher plant chloroplasts involves C-->U conversion at approximately 30 specific sites. An in vitro system supporting accurate editing has been developed from tobacco chloroplasts. Mutational analysis of substrate mRNAs derived from tobacco chloroplast psbL and ndhB mRNAs confirmed the participation of cis-acting elements that had previously been identified in vivo. Competition analysis revealed the existence of site-specific trans-acting factors interacting with the corresponding upstream cis-elements. A chloroplast protein of 25 kDa was found to be specifically associated with the cis-element involved in psbL mRNA editing. Immunological analyses revealed that an additional factor, the chloroplast RNA-binding protein cp31, is also required for RNA editing at multiple sites. This combination of site-specific and common RNA-binding proteins recognizes editing sites in chloroplasts. 相似文献
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RNA editing sites and their site-specific trans-acting recognition factors are thought to have coevolved. Hence, evolutionary loss of an editing site by a genomic mutation is normally followed by the loss of the specific recognition factor for this site, due to the absence of selective pressure for its maintenance. Here, we have tested this scenario for the only tomato-specific plastid RNA editing site. A single C-to-U editing site in the tomato rps12 gene is absent from the tobacco and nightshade plastid genomes, where the presence of a genomic T nucleotide obviates the need for editing of the rps12 mRNA. We have introduced the tomato editing site into the tobacco rps12 gene by plastid transformation and find that, surprisingly, this heterologous site is efficiently edited in the transplastomic plants. This suggests that the trans-acting recognition factor for the rps12 editing site has been maintained, presumably because it serves another function in tobacco plastids. Bioinformatics analyses identified an editing site in the rpoB gene of tobacco and tomato whose sequence context exhibits striking similarity to that of the tomato rps12 editing site. This may suggest that requirement for rpoB editing resulted in maintenance of the rps12 editing activity or, alternatively, the pre-existing rpoB editing activity facilitated the evolution of a novel editing site in rps12. 相似文献
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Takahiko Tsudzuki Tatsuya Wakasugi Masahiro Sugiura 《Journal of molecular evolution》2001,53(4-5):327-332
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The gene encoding ribosomal protein S14 (rps14) in Oenothera mitochondria is located upstream of the cytochrome b gene (cob). Sequence analysis of independently derived cDNA clones covering the entire rps14 coding region shows two nucleotides edited from the genomic DNA to the mRNA derived sequences by C to U modifications. A third editing event occurs four nucleotides upstream of the AUG initiation codon and improves a potential ribosome binding site. A CGG codon specifying arginine in a position conserved in evolution between chloroplasts and E. coli as a UGG tryptophan codon is not edited in any of the cDNAs analysed. An inverted repeat 3' of an unidentified open reading frame is located upstream of the rps14 gene. The inverted repeat sequence is highly conserved at analogous regions in other Oenothera mitochondrial loci. 相似文献
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