首页 | 本学科首页   官方微博 | 高级检索  
相似文献
 共查询到20条相似文献,搜索用时 0 毫秒
1.
2.
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   

3.
4.
5.
RNA editing in flowering plant mitochondria alters numerous C nucleotides in a given mRNA molecule to U residues. To investigate whether neighbouring editing sites can influence each other we analyzed in vitro RNA editing of two sites spaced 30 nt apart. Deletion and competition experiments show that these two sites carry independent essential specificity determinants in the respective upstream 20-30 nucleotides. However, deletion of a an upstream sequence region promoting editing of the upstream site concomitantly decreases RNA editing of the second site 50-70 nucleotides downstream. This result suggests that supporting cis-/trans-interactions can be effective over larger distances and can affect more than one editing event.  相似文献   

6.
In plant mitochondria and plastids, RNA editing alters about 400 and about 35 C nucleotides into Us, respectively. Four of these RNA editing events in plant mitochondria specifically require the PPR protein MEF7, characterized by E?and DYW extension domains. The gene for MEF7 was identified by genomic mapping of the locus mutated in plants from EMS treated seeds. The SNaPshot screen of the mutant plant population identified two independent EMS mutants with the same editing defects as a corresponding T-DNA insertion line of the MEF7 gene. Although the amino acid codons introduced by the editing events are conserved throughout flowering plants, even the combined failure of four editing events does not impair the growth efficiency of the mutant plants. Five nucleotides are conserved between the four affected editing sites, but are not sufficient for specific recognition by MEF7 since they are also present at three other sites which are unaffected in the mutants.  相似文献   

7.
8.
9.
10.
11.
12.
13.
高等植物叶绿体RNA编辑研究进展   总被引:2,自引:0,他引:2  
RNA编辑普遍存在于陆生植物中,在高等植物叶绿体中以C→U的替换为主,可能是叶绿体产生功能蛋白的重要方式。近年来,使用体外分析、叶绿体转化和紫外交联等技术,使叶绿体RNA编辑机制的研究取得较大进展。本文对这些新的进展进行了概述,并对高等植物叶绿体RNA编辑研究中有待解决的问题进行了展望。  相似文献   

14.
15.
16.
17.
A computational analysis of RNA editing sites was performedon protein-coding sequences of plant mitochondrial genomes fromArabidopsis thaliana, Beta vulgaris, Brassica napus, and Oryzasativa. The distribution of nucleotides around edited and uneditedcytidines was compared in 41 nucleotide segments and included1481 edited cytidines and 21,390 unedited cytidines in the 4genomes. The distribution of nucleotides was examined in 1,2, and 3 nucleotide windows by comparison of nucleotide frequencyratios and relative entropy. The relative entropy analyses indicatethat information is encoded in the nucleotide sequences in the5 prime flank (–18 to –14, –13 to –10,–6 to –4, –2/–1) and the immediate 3prime flanking nucleotide (+1), and these regions may be importantin editing site recognition. The relative entropy was largewhen 2 or 3 nucleotide windows were analyzed, suggesting thatseveral contiguous nucleotides may be involved in editing siterecognition. RNA editing sites were frequently preceded by 2pyrimidines or AU and followed by a guanidine (HYCG) in themonocot and dicot mitochondrial genomes, and rarely precededby 2 purines. Analysis of chloroplast editing sites from a dicot,Nicotiana tabacum, and a monocot, Zea mays, revealed a similardistribution of nucleotides around editing sites (HYCA). Thesimilarity of this motif around editing sites in monocots anddicots in both mitochondria and chloroplasts suggests that amechanistic basis for this motif exists that is common in thesedifferent organelle and phylogenetic systems. The preferredsequence distribution around RNA editing sites may have an importantimpact on the acquisition of editing sites in evolution becausethe immediate sequence context of a cytidine residue may rendera cytidine editable or uneditable, and consequently determinewhether a T to C mutation at a specific position may be correctedby RNA editing. The distribution of editing sites in many protein-codingsequences is shown to be non-random with editing sites clusteredin groups separated by regions with no editing sites. The sporadicdistribution of editing sites could result from a mechanismof editing site loss by gene conversion utilizing edited sequenceinformation, possibly through an edited cDNA intermediate.  相似文献   

18.
19.
20.
In wheat mitochondria, the gene coding for subunit 2 of the NADH-ubiquinone oxidoreductase (nad2) is divided into five exons located in two distant genomic regions. The first two exons of the gene, a and b, lie 22 kb downstream of exons c, d, and e, on the same DNA strand. All introns of nad2 are group II introns. A trans-splicing event is required to join exons b and c. It involves base pairing of the two precursor RNAs in the stem of domain IV of the intron. A gene coding for tRNATyr is located upstream of exon c. In addition to splicing processes, mRNA editing is also required for the correct expression of nad2. The mature mRNA is edited at 36 positions, distributed over its five exons, resulting in 28 codon modifications. Editing increases protein hydrophobicity and conservation. Received: 11 August 1997 / Accepted: 2 February 1998  相似文献   

设为首页 | 免责声明 | 关于勤云 | 加入收藏

Copyright©北京勤云科技发展有限公司  京ICP备09084417号