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Rüdinger M Szövényi P Rensing SA Knoop V 《The Plant journal : for cell and molecular biology》2011,67(2):370-380
The plant‐specific pentatricopeptide repeat (PPR) proteins with variable PPR repeat lengths (PLS‐type) and protein extensions up to the carboxyterminal DYW domain have received attention as specific recognition factors for the C‐to‐U type of RNA editing events in plant organelles. Here, we report a DYW‐protein knockout in the model plant Physcomitrella patens specifically affecting mitochondrial RNA editing positions cox1eU755SL and rps14eU137SL. Assignment of DYW proteins and RNA editing sites might best be corroborated by data from a taxon with a slightly different, yet similarly manageable low number of editing sites and DYW proteins. To this end we investigated the mitochondrial editing status of the related funariid moss Funaria hygrometrica. We find that: (i) Funaria lacks three mitochondrial RNA editing positions present in Physcomitrella, (ii) that F. hygrometrica cDNA sequence data identify nine DYW proteins as clear orthologues of their P. patens counterparts, and (iii) that the ‘missing’ 10th DYW protein in F. hygrometrica is responsible for two mitochondrial editing sites in P. patens lacking in F. hygrometrica (nad3eU230SL, nad4eU272SL). Interestingly, the third site of RNA editing missing in F. hygrometrica (rps14eU137SL) is addressed by the DYW protein characterized here and the presence of its orthologue in F. hygrometrica is explained through its simultaneous action on site cox1eU755SL conserved in both mosses. 相似文献
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Zhu Q Dugardeyn J Zhang C Takenaka M Kühn K Craddock C Smalle J Karampelias M Denecke J Peters J Gerats T Brennicke A Eastmond P Meyer EH Van Der Straeten D 《The Plant journal : for cell and molecular biology》2012,71(5):836-849
Pentatricopeptide repeat (PPR) proteins belong to a family of approximately 450 members in Arabidopsis, of which few have been characterized. We identified loss of function alleles of SLO2, defective in a PPR protein belonging to the E+ subclass of the P-L-S subfamily. slo2 mutants are characterized by retarded leaf emergence, restricted root growth, and late flowering. This phenotype is enhanced in the absence of sucrose, suggesting a defect in energy metabolism. The slo2 growth retardation phenotypes are largely suppressed by supplying sugars or increasing light dosage or the concentration of CO(2) . The SLO2 protein is localized in mitochondria. We identified four RNA editing defects and reduced editing at three sites in slo2 mutants. The resulting amino acid changes occur in four mitochondrial proteins belonging to complex I of the electron transport chain. Both the abundance and activity of complex I are highly reduced in the slo2 mutants, as well as the abundance of complexes III and IV. Moreover, ATP, NAD+, and sugar contents were much lower in the mutants. In contrast, the abundance of alternative oxidase was significantly enhanced. We propose that SLO2 is required for carbon energy balance in Arabidopsis by maintaining the abundance and/or activity of complexes I, III, and IV of the mitochondrial electron transport chain. 相似文献
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Alternative polyadenylation diversifies post‐transcriptional regulation by selective RNA–protein interactions 下载免费PDF全文
Ishaan Gupta Sandra Clauder‐Münster Bernd Klaus Aino I Järvelin Raeka S Aiyar Vladimir Benes Stefan Wilkening Wolfgang Huber Vicent Pelechano Lars M Steinmetz 《Molecular systems biology》2014,10(2)
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