Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: EC:1.6.99.3 (diaphorase)
5,903 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We determined the complete nucleotide sequence of the mitochondrial (mt) genome of a Malagasy poison frog, Mantella madagascariensis (family Mantellidae), and partial sequences of two Mantella (M. baroni and M. bernhardi) and two additional mantellid species (Boophis madagascariensis and Mantidactylus cf. ulcerosus). The M. madagascariensis genome was shown to be the largest (23kbp) of all vertebrate mtDNAs investigated so far. Furthermore, the following unique features were revealed: (1) the positions of some genes and gene regions were rearranged compared to mitochondrial genomes typical for vertebrates and other anuran groups, (2) two distinct genes and a pseudogene corresponding to transfer RNA gene for methionine (tRNA-Met) were encoded, and (3) two control regions with very high sequence homology were present. These features were shared by the two other Mantella species but not the other mantellid species, indicating dynamic genome reorganization in a common ancestor linage before divergence of the Mantella genus. The reorganization pathway could be explained by a model of gene duplication and deletion. Duplication and deletion events also seem to have been responsible for concerted sequence evolution of the control regions in Mantella mt genomes. It is also suggested that the pseudo tRNA-Met gene sustained for a long time in Mantella mt genomes possibly functions as a punctuation marker for NADH dehydrogenase subunit (ND) 2 mRNA processing. Phylogenetic analyses employing a large sequence data set of mt genes supported the monophyly of Mantellidae and Rhacophoridae and other recent phylogenetic views for ranoid frogs. The resultant phylogenetic relationship also suggested parallel occurrence of two tRNA-Met genes, duplicated control regions, and ND5 gene translocation in independent ranoid lineages.
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PMID:Complete nucleotide sequence of the mitochondrial genome of a Malagasy poison frog Mantella madagascariensis: evolutionary implications on mitochondrial genomes of higher anuran groups. 1644 6

The complete nucleotide sequence (155 844 bp) of tobacco (Nicotiana tabacum var. Bright Yellow 4) chloroplast DNA has been determined. It contains two copies of an identical 25 339 bp inverted repeat, which are separated by a 86 684 bp and a 18 482 bp single-copy region. The genes for 4 different rRNAs, 30 different tRNAs, 39 different proteins and 11 other predicted protein coding genes have been located. Among them, 15 genes contain introns. Blot hybridization revealed that all rRNA and tRNA genes and 27 protein genes so far analysed are transcribed in the chloroplast and that primary transcripts of the split genes hitherto examined are spliced. Five sequences coding for proteins homologous to components of the respiratory-chain NADH dehydrogenase from human mitochondria have been found. The 30 tRNAs predicted from their genes are sufficient to read all codons if the ;two out of three' and ;U:N wobble' mechanisms operate in the chloroplast. Two sequences which autonomously replicate in yeast have also been mapped. The sequence and expression analyses indicate both prokaryotic and eukaryotic features of the chloroplast genes.
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PMID:The complete nucleotide sequence of the tobacco chloroplast genome: its gene organization and expression. 1645 99

Transport of tRNAs across the inner mitochondrial membrane of the kinetoplastid protozoon Leishmania requires interactions with specific binding proteins (receptors) in a multi-subunit complex. The allosteric model of import regulation proposes cooperative and antagonistic interactions between two or more receptors with binding specificities for distinct tRNA families (types I and II, respectively). To identify the type II receptor, the gene encoding RIC8A, a subunit of the complex, was cloned. The C-terminal region of RIC8A is homologous to subunit 6b of ubiquinol cytochrome c reductase (respiratory complex III), while the N-terminal region has intrinsic affinity for type II, but not for type I, tRNAs. RIC8A is shared by the import complex and complex III, indicating its bi-functionality, but is assembled differently in the two complexes. Knockdown of RIC8A in Leishmania lowered the mitochondrial content of type II tRNAs but raised that of type I tRNAs, with downstream effects on mitochondrial translation and respiration, and cell death. In RIC8A knockdown cells, a subcomplex was formed that interacted with type I tRNA, but the negative regulation by type II tRNA was lost. Mitochondrial extracts from these cells were defective for type II, but not type I, import; import and regulation were restored by purified RIC8A. These results provide evidence for the relevance of allosteric regulation in vivo and indicate that acquisition of new tRNA-binding domains by ancient respiratory components have played a key role in the evolution of mitochondrial tRNA import.
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PMID:An RNA-binding respiratory component mediates import of type II tRNAs into Leishmania mitochondria. 1682 95

At least 0.08% of the Apis mellifera nuclear genome contains sequences that originated from mitochondria. These nuclear copies of mitochondrial sequences (numts) are scattered all over the honeybee chromosomes and have originated by multiple independent insertions of mitochondrial DNA (mtDNA) as evident by phylogenetic analysis. Apart from original insertions, moderate duplications of numts also contributed to the present pattern and distribution of mitochondrial sequences in honeybee chromosomes. Assimilation of mitochondrial genes in the nuclear genome is mediated by extensive fragmentations of the original inserts. Replication slippage seems to be a major mechanism by which small sequences are inserted or deleted from mtDNA destined to nucleus. Most of the honeybee numts (84%) are located in the nongenic regions. The majority (94%) of the numts that are located in predicted nuclear genes have originated from mitochondrial genes coding for cytochrome oxidase and NADH dehydrogenase subunits. On the other hand, the mitochondrial rRNA or tRNA gene sequences are predominantly (88%) located in nongenic regions of the genome. Evidences also support for exertion of purifying selection on numts located in specific genes. Comparative analysis of numts of European, African, and Africanized honeybees suggests that numt evolution in A. mellifera is probably not demarked by speciation time frame but may be a continuous and dynamic process.
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PMID:Analysis of nuclear copies of mitochondrial sequences in honeybee (Apis mellifera) genome. 1740 97

The mtDNA of the ascomycetous wine yeast Candida zemplinina is a circularly mapping genome of 23,114 bp. It contains 35 genes coding for the seven basic subunits of oxidative phosporylation found in yeasts (the genes encoding for NADH oxidoreductase subunits are absent), the ribosomal protein Var1, two rRNAs and 25 tRNA genes. Although protein phylogenetic analysis showed a divergent mitochondrial genome, several traits appeared preserved. The conserved gene blocks between the mtDNAs of C. zemplinina and Candida glabrata were maintained and changes in gene order and putative promoters were due to restricted genome reshuffling. New heterogeneous hairpin elements were identified scattered throughout cox1 introns. The large subunit rRNA gene harboured the first group-IIB1 intron containing a putative active reverse transcriptase (RT) in mitochondrial genomes of fungi. Phylogenetic analysis of the RT protein confirmed its closer relationship to eubacterial intronic RTs, while being only distantly related to all other fungal mitochondrial group-II introns and RTs. The findings point towards an early migration event of a eubacterial group-II intron to the mitochondrial genome of C. zemplinina.
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PMID:Complete mitochondrial genome sequence of the wine yeast Candida zemplinina: intraspecies distribution of a novel group-IIB1 intron with eubacterial affiliations. 1808 38

Proteins that participate in the import of cytosolic tRNAs into mitochondria have been identified in several eukaryotic species, but the details of their interactions with tRNA and other proteins are unknown. In the kinetoplastid protozoon Leishmania tropica, multiple proteins are organized into a functional import complex. RIC8A, a tRNA-binding subunit of this complex, has a C-terminal domain that functions as subunit 6b of ubiquinol cytochrome c reductase (complex III). We show that the N-terminal domain, unique to kinetoplastid protozoa, is structurally similar to the appended S15/NS1 RNA-binding domain of aminoacyl tRNA synthetases, with a helix-turn-helix motif. Structure-guided mutagenesis coupled with in vitro assays showed that helix alpha1 contacts tRNA whereas helix alpha2 targets the protein for assembly into the import complex. Inducible expression of a helix 1-deleted variant in L. tropica resulted in formation of an inactive import complex, while the helix 2-deleted variant was unable to assemble in vivo. Moreover, a protein-interaction assay showed that the C-terminal domain makes allosteric contacts with import receptor RIC1 complexed with tRNA. These results help explain the origin of the bifunctionality of RIC8A, and the allosteric changes accompanying docking and release of tRNA during import.
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PMID:A mosaic of RNA binding and protein interaction motifs in a bifunctional mitochondrial tRNA import factor from Leishmania tropica. 1875 8

Somatic mutations have been identified in mitochondrial DNA (mtDNA) of various human primary cancers. However, their roles in the pathophysiology of cancers are still unclear. In our previous study, high frequency of somatic mutations was found in the D-loop region of mtDNA of hepatocellular carcinomas (HCCs). In the present study, we examined 44 HCCs and corresponding non-cancerous liver tissues, and identified 13 somatic mutations in the coding region of mtDNAs from 11 HCC samples (11/44, 25%). Among the 13 mtDNA mutations, six mutations (T6787C, G7976A, A9263G, G9267A, A9545G and A11708G) were homoplasmic while seven mutations (956delC, T1659C, G3842A, G5650A, 11032delA, 12418insA and a 66bp deletion) were heteroplasmic. Moreover, the G3842A transition created a premature stop codon and the 66bp deletion could omit 22 amino acid residues in the NADH dehydrogenase (ND) subunit 1 (ND1) gene. The 11032delA and 12418insA could result in frame-shift mutation in the ND4 and ND5 genes, respectively. The T1659C transition in tRNA(Val) gene and G5650A in tRNA(Ala) gene were reported to be clinically associated with some mitochondrial disorders. In addition, the T6787C (cytochrome c oxidase subunit I, COI), G7976A (COII), G9267A (COIII) and A11708G (ND4) mutations could result in amino acid substitutions in the highly conserved regions of the affected mitochondrial genes. These mtDNA mutations (10/13, 76.9%) have the potential to cause mitochondrial dysfunction in HCCs. Taken these results together, we suggest that there may be a higher frequency of mtDNA mutations in HCC than in normal liver tissues from the same individuals.
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PMID:Somatic mutations of mitochondrial genome in hepatocellular carcinoma. 2000 38

Common inbred strains of the laboratory rat can be divided into four different mitochondrial DNA haplotype groups represented by the SHR, BN, LEW, and F344 strains. In the current study, we investigated the metabolic and hemodynamic effects of the SHR vs. LEW mitochondrial genomes by comparing the SHR to a new SHR conplastic strain, SHR-mt(LEW); these strains are genetically identical except for their mitochondrial genomes. Complete mitochondrial DNA (mtDNA) sequence analysis comparing the SHR and LEW strains revealed gene variants encoding amino acid substitutions limited to a single mitochondrial enzyme complex, NADH dehydrogenase (complex I), affecting subunits 2, 4, and 5. Two of the variants in the mt-Nd4 subunit gene are located close to variants known to be associated with exercise intolerance and diabetes mellitus in humans. No variants were found in tRNA or rRNA genes. These variants in mt-Nd2, mt-Nd4, and mt-Nd5 in the SHR-mt(LEW) conplastic strain were linked to reductions in oxidative and nonoxidative glucose metabolism in skeletal muscle. In addition, SHR-mt(LEW) conplastic rats showed increased serum nonesterified fatty acid levels and resistance to insulin stimulated incorporation of glucose into adipose tissue lipids. These results provide evidence that inherited variation in mitochondrial genes encoding respiratory chain complex I subunits, in the absence of variation in the nuclear genome and other confounding factors, can influence glucose and lipid metabolism when expressed on the nuclear genetic background of the SHR strain.
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PMID:Nonsynonymous variants in mt-Nd2, mt-Nd4, and mt-Nd5 are linked to effects on oxidative phosphorylation and insulin sensitivity in rat conplastic strains. 2241 13

Crocodile newts, which constitute the genera Echinotriton and Tylototriton, are known as living fossils, and these genera comprise many endangered species. To identify mitochondrial (mt) genes suitable for future population genetic analyses for endangered taxa, we determined the complete nucleotide sequences of the mt genomes of the Japanese crocodile newt Echinotriton andersoni and Himalayan crocodile newt Tylototriton verrucosus. Although the control region (CR) is known as the most variable mtDNA region in many animal taxa, the CRs of crocodile newts are highly conservative. Rather, the genes of NADH dehydrogenase subunits and ATPase subunit 6 were found to have high sequence divergences and to be usable for population genetics studies. To estimate the inter-population divergence ages of E. andersoni endemic to the Ryukyu Islands, we performed molecular dating analysis using whole and partial mt genomic data. The estimated divergence ages of the inter-island individuals are older than the paleogeographic segmentation ages of the islands, suggesting that the lineage splits of E. andersoni populations were not caused by vicariant events. Our phylogenetic analysis with partial mt sequence data also suggests the existence of at least two more undescribed species in the genus Tylototriton. We also found unusual repeat sequences containing the 3' region of cytochrome apoenzyme b gene, whole tRNA-Thr gene, and a noncoding region (the T-P noncoding region characteristic in caudate mtDNAs) from T. verrucosus mtDNA. Similar repeat sequences were found in two other Tylototriton species. The Tylototriton taxa with the repeats become a monophyletic group, indicating a single origin of the repeat sequences. The intra-and inter-specific comparisons of the repeat sequences suggest the occurrences of homologous recombination-based concerted evolution among the repeat sequences.
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PMID:Mitochondrial genomes and divergence times of crocodile newts: inter-islands distribution of Echinotriton andersoni and the origin of a unique repetitive sequence found in Tylototriton mt genomes. 2253 93

Oxidative phosphorylation disorders are often associated with increased oxidative stress and antioxidant therapy is frequently given as treatment. However, the role of oxidative stress in oxidative phosphorylation disorders or patients is far from clear and consequently the preventive or therapeutic effect of antioxidants is highly anecdotic. Therefore, we performed a systematic study of a panel of oxidative stress parameters (reactive oxygen species levels, damage and defense) in fibroblasts of twelve well-characterized oxidative phosphorylation patients with a defect in the POLG1 gene, in the mitochondrial DNA-encoded tRNA-Leu gene (m.3243A>G or m.3302A>G) and in one of the mitochondrial DNA-encoded NADH dehydrogenase complex I (CI) subunits. All except two cell lines (one POLG1 and one tRNA-Leu) showed increased reactive oxygen species levels compared with controls, but only four (two CI and two tRNA-Leu) cell lines provided evidence for increased oxidative protein damage. The absence of a correlation between reactive oxygen species levels and oxidative protein damage implies differences in damage prevention or correction. This was investigated by gene expression studies, which showed adaptive and compensating changes involving antioxidants and the unfolded protein response, especially in the POLG1 group. This study indicated that patients display individual responses and that detailed analysis of fibroblasts enables the identification of patients that potentially benefit from antioxidant therapy. Furthermore, the fibroblast model can also be used to search for and test novel, more specific antioxidants or explore ways to stimulate compensatory mechanisms.
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PMID:Patient-derived fibroblasts indicate oxidative stress status and may justify antioxidant therapy in OXPHOS disorders. 2279 46


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