Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:1.6.99.3 (diaphorase)
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With the aid of cDNA and RNA sequence analysis, we have determined to what extent transcripts of mitochondrial maxicircle genes of the insect trypanosome Crithidia fasciculata are altered by RNA editing, a novel mechanism of gene expression which operates via the insertion and deletion of uridine residues. Editing of cytochrome c oxidase (cox) subunit II and III transcripts and of maxicircle unidentified reading frame (MURF) 2 RNA is limited to a small section and results in the creation of a potential AUG translational initiation codon (coxIII, MURF2) or the removal of a frameshift (coxII). No differences with the genomic sequences were observed in the remainder of these RNAs. Surprisingly, NADH dehydrogenase subunit I transcripts were completely unedited in the coding region, implying that an AUG translational initiation codon is absent. The partial ribosomal RNA sequences determined also conform to the gene sequences. Together these results lead to the conclusion that the unusual sequences predicted by the protein and rRNA genes must indeed be present in the gene products. Editing also occurred in the poly(A) tail of RNAs from all protein genes, including those that are unedited in the coding region. The tails display a large variation in AU sequence motifs. Finally, some cDNAs contained sequences absent from both the DNA and the edited RNA. Some of these may represent intermediates in the RNA editing process. We argue, however, that long runs of T may be artefacts of cDNA synthesis.
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PMID:RNA editing in transcripts of the mitochondrial genes of the insect trypanosome Crithidia fasciculata. 168 30

In parasitic kinetoplastid protozoa, mitochondrial (mt) mRNAs are post-transcriptionally edited by insertion and deletion of uridylate residues, the information being provided by guide (g) RNAs. In order to further explore the role and evolutionary history of this process, we searched for editing in mt RNAs of the free-living bodonid Bodo saltans. We found extensive editing in the transcript for NADH dehydrogenase (ND) subunit 5, which is unedited in trypanosomatids. In contrast, B.saltans cytochrome c oxidase (cox) subunit 2 and maxicircle unidentified reading frame (MURF) 2 RNAs display limited editing in the same regions as their trypanosomatid counterparts. A putative intramolecular cox2 gRNA and the gene for gMURF2-I directing the insertion of only one U in the 5' editing domain of MURF2 RNA, are conserved in B.saltans. This lends (further) evolutionary support to the proposed role of these sequences as gRNAs. Phylogenetic analysis showed that B.saltans is more closely related to trypanosomatids than the cryptobiids Trypanoplasma borreli and Cryptobia helicis, in line with the trypanosomatid-like cox2 and MURF2 RNA editing patterns. Nevertheless, other features like the apparent absence of a catenated mtDNA network, are shared with bodonid and cryptobiid species. ND5 RNA editing may represent yet another example of editing 'on the way out' during kinetoplastid evolution, but in view of the fact that cox2 RNA is unedited in T. borreli and C.helicis, we infer that the editing of this RNA may have arisen relatively recently. Our results provide the first examples of RNA editing in a free-living kinetoplastid, indicating that there is no direct link between U-insertion/deletion editing and a parasitic lifestyle.
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PMID:RNA editing in the free-living bodonid Bodo saltans. 946 17

By completing the sequencing of the maxicircle conserved region in the kinetoplast DNA of Phytomonas serpens, we showed that the genes for subunits I and II (COI and COII) of cytochrome c oxidase in this organism were missing. We had previously shown that the genes for cytochrome c oxidase subunit III and apocytochrome b were also missing. These deletions did not affect the structure or expression of the remaining genes. Partial editing of the mRNA for NADH dehydrogenase subunit 8, previously found in strain IG from insects, was complete in two other strains isolated from plants. The appearance of a novel maxicircle gene for MURF2 block I gRNA, which substitutes for the gene missing due to the COII gene deletion, may illustrate a general mechanism for the origin of gRNAs.
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PMID:The absence of genes for cytochrome c oxidase and reductase subunits in maxicircle kinetoplast DNA of the respiration-deficient plant trypanosomatid Phytomonas serpens. 1097 58