Sabine Thuss scite author profile

With CR–RT–PCR as primary approach we mapped the 5′ and 3′ transcript ends of all mitochondrial protein-coding genes in Arabidopsis thaliana. Almost all transcripts analyzed have single major 3′ termini, while multiple 5′ ends were found for several genes. Some of the identified 5′ ends map within promoter motifs suggesting these ends to be derived from transcription initiation while the majority of the 5' termini seems to be generated post-transcriptionally. Assignment of the extremities of 5′ leader RNAs revealed clear evidence for an endonucleolytic generation of the major cox1 and atp9 5′ mRNA ends. tRNA-like structures, so-called t-elements, are associated either with 5′ or with 3′ termini of several mRNAs. These secondary structures most likely act as cis-signals for endonucleolytic cleavages by RNase Z and/or RNase P. Since no conserved sequence motif is evident at post-transcriptionally derived ends, we suggest t-elements, stem–loops and probably complex higher order structures as cis-elements for processing. This analysis provides novel insights into 5′ and 3′ end formation of mRNAs. In addition, the complete transcript map is a substantial and important basis for future studies of gene expression in mitochondria of higher plants.

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RNA PROCESSING FACTOR2 Is Required for 5′ End Processing of nad9 and cox3 mRNAs in Mitochondria of Arabidopsis thaliana

Jonietz

Forner

Hölzle

et al. 2010

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In mitochondria of higher plants, the majority of 59 termini of mature mRNAs are generated posttranscriptionally. To gain insight into this process, we analyzed a natural 59 end polymorphism in the species Arabidopsis thaliana. This genetic approach identified the nuclear gene At1g62670, encoding a pentatricopeptide repeat protein. The functional importance of this mitochondrial restorer of fertility-like protein, designated RNA PROCESSING FACTOR2 (RPF2), is confirmed by the analysis of a respective T-DNA knockout mutant and its functional restoration by in vivo complementation. RPF2 fulfills two functions: it is required for the generation of a distinct 59 terminus of transcripts of subunit 9 of the NADH DEHYDRO-GENASE complex (nad9) and it determines the efficiency of 59 end formation of the mRNAs for subunit 3 of the CYTOCHROME C OXIDASE (cox3), the latter also being influenced by mitochondrial DNA sequences. Accordingly, recombinant RPF2 protein directly binds to a nad9 mRNA fragment in vitro. Two-dimensional gel electrophoresis and immunodetection analyses reveal that altered 59 processing does not influence accumulation of the nad9 and cox3 polypeptides. In accessions C24, Oystese-1, and Yosemite-0, different inactive RPF2 alleles exist, demonstrating the variability of this gene in Arabidopsis. The identification of RPF2 is a major step toward the characterization of 59 mRNA processing in mitochondria of higher plants.

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Mitochondrial mRNA Polymorphisms in Different Arabidopsis Accessions

Forner

Hölzle

Jonietz

et al. 2008

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In our analysis of 5# and 3# end formation in plant mitochondria, we compared the major transcript ends of all mitochondrial protein-coding genes between the three Arabidopsis (Arabidopsis thaliana) accessions Columbia (Col), C24, and Landsberg erecta (Ler). Differences between transcript patterns were found for seven genes. For atp6-2, no transcripts at all were detected in Ler. This and further analyses suggest that the atp6-2 gene arrangement is absent from the mitochondrial DNA of this accession. All other transcript polymorphisms are attributed to variations at the 5# termini and were consistently observed in all tissues investigated. mRNA phenotyping of reciprocal Col/Ler, Col/C24, and Ler/C24 F 1 hybrids revealed the differing transcript patterns of ccmC to be inherited maternally, suggesting these to arise from differences in the mitochondrial DNA. Biparental inheritance was observed for the polymorphic transcripts of nad4, nad9, ccmB, and rpl5, indicating these differences to be caused by nuclear-encoded trans-factors. Deviant transcript patterns were tested in further accessions and were found in at least three additional accessions. Detailed examination of the nad4 and the nad9 transcripts demonstrates that the respective polymorphisms affect the major mRNAs of these genes. This study shows that natural genetic variation in Arabidopsis can also affect mitochondrial mRNA end processing. These variations can now be used to identify the nuclear genes responsible, as well as the mitochondrial cis-elements required, for 5# end generation of mitochondrial transcripts.

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Sabine Thuss

Mapping of mitochondrial mRNA termini in Arabidopsis thaliana : t-elements contribute to 5′ and 3′ end formation

RNA PROCESSING FACTOR2 Is Required for 5′ End Processing of nad9 and cox3 mRNAs in Mitochondria of Arabidopsis thaliana

Mitochondrial mRNA Polymorphisms in Different Arabidopsis Accessions

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