Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:1.6.5.3 (complex I)
 8,901 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The point mutation at bp 8993 of human mtDNA in the ATPase 6 gene is associated with neurogenic weakness, ataxia and retinitis pigmentosa, and with subacute necrotizing encephalomyelopathy (Leigh disease) when present at high copy number. In this study we describe three new multiplex families with the ATPase 8993 mtDNA mutation and demonstrate a correlation between the percentage heteroplasmy of this mutation and the clinical phenotype. By combining this study with previous data we produce a graph of age of onset of symptoms versus percentage heteroplasmy of the mutation. Finally, we determine that ATP synthesis with NAD-linked substrates in cultured lymphoblast mitochondria from three patients with Leigh disease who had a high percentage heteroplasmy was on average 66% of the rate seen in control lymphoblast mitochondria. Similar rates are observed in lymphoblast mitochondria isolated from patients with Leigh disease due to complex I deficiency. This percentage appears to be independent of the rate of electron transport in mitochondria from patient cell lines with the mtDNA 8993 mutation.
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PMID:The 8993 mtDNA mutation: heteroplasmy and clinical presentation in three families. 804 52

Rates of ATP synthesis were studied in cultured skin fibroblasts treated with digitonin. In fibroblasts from patients with complex I deficiency, complex IV and complex V deficiency rates of ATP synthesis were decreased below the levels found in controls. In mitochondria isolated from cultured lymphoblasts, ATP synthesis was also decreased by 35-50% in cases of Leigh's disease due to complex I, complex IV, or complex V deficiency. Calculating the effect of the mutations in the various complexes on the overall efficiency of oxidative phosphorylation, we show that the mtDNA 8993 mutation which affects the activity of the F1F0 ATPase (complex V) has the strongest effect.
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PMID:MtDNA and nuclear mutations affecting oxidative phosphorylation: correlating severity of clinical defect with extent of bioenergetic compromise. 807 84

NADH:ubiquinone reductase (EC 1.6.19.3), or complex I, was isolated from broad bean (Vicia faba L.) mitochondria. Osmotic shock and sequential treatment with 0.2% (v/v) Triton X-100 and 0.5% (w/v) [3-cholamidopropyl)dimethylammonio]-1-propanesulfate (CHAPS) removed all other NADH dehydrogenase activities. Complex I was solubilized in the presence of 4% Triton X-100 and then purified by sucrose-gradient centrifugation in the presence of the same detergent. The second purification step was hydroxylapatite chromatography. Substitution of CHAPS for Triton X-100 helped remove contaminants such as ATPase. The high molecular mass complex is composed of at least 26 subunits with molecular masses ranging from 6000 to 75,000 kD. The purified complex I reduced ferricyanide and ubiquinone analogs but not cytochrome c. NADPH could not substitute for NADH as an electron donor. The KM for NADH was 20 microM at the optimum pH of 8.0. The NH2-terminal sequence of several subunits was determined, revealing the ambiguous nature of the 42-kD subunit.
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PMID:Purification and preliminary characterization of mitochondrial complex I (NADH: ubiquinone reductase) from broad bean (Vicia faba L.). 810 9

The complete nucleotide sequence of the circular mitochondrial (mt) DNA of the chlorophyte alga Prototheca wickerhamii has been determined (55,328 base-pairs, A+T content 74.2%). The genes identified encode three subunits of the cytochome oxidase, apocytochrome b, nine subunits of the NADH dehydrogenase complex (nad1 to 7, nad4L and nad9), three ATPase subunits (atp6, atp9, atp1 (also referred to as atpA)), three ribosomal RNAs (5 S (rrn5), small subunit (srn) and large subunit (lrn) RNA), 26 tRNAs, and 13 ribosomal proteins. A total of five group I introns reside in lrn and cox1, two of which include intronic open reading frames (ORFs). Five free-standing ORFs longer than 60 codons are present. Three of these ORFs are counterparts to genes encoding proteins of unknown function in plant mitochondria (orf25 and orfB of angiosperms and orf244 of liverwort), whereas two of them are unique. Mitochondrial genes are encoded on both DNA strands in a way that suggests the existence of two transcription units, each including approximately one half of the mitochondrial genome. The two intergenic regions in which transcription is believed to initiate and terminate are about ten times longer than the other intergenic regions (1118 and 1993 nt versus 100 to 150 nt). A total of 29 recurring sequence motifs (30 to 200 nt long) have been found in intergenic regions. Nine different types of motifs are present, most of them arranged as tandem repeats. These motifs may be implicated in transcription, e.g. as signals for initiation, termination and/or processing. Phylogenetic analysis on the basis of the cox1 gene strongly suggested that P. wickerhamii and plant mitochondrial genomes are monophyletic. The finding of plant-specific mitochondrial genes such as orf25, orf244, orfB and rrn5 in P. wickerhamii mitochondria corroborates this idea.
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PMID:Complete sequence of the mitochondrial DNA of the chlorophyte alga Prototheca wickerhamii. Gene content and genome organization. 813 22

The plant NADH:ubiquinone oxidoreductase (or complex I) was isolated from potato (Solanum tuberosum) mitochondria. The multisubunit enzyme was solubilized with detergents, Triton X-100 and 3-[(3-cholamidopropyl)dimethylammonio]-1-propanesulfonate (CHAPS), out of the inner mitochondrial membranes and purified by hydroxylapatite and gel filtration chromatography. The preparation was found to be virtually free of any ATPase or transhydrogenase contamination. Complex I of potato is composed of at least 32 individual subunits as detected in silver-stained sodium dodecyl sulfate-polyacrylamide gel electrophoresis and has a total molecular mass of about 900 kDa. The enzyme preparation showed an NADH:ubiquinone-2 reductase activity of 11.5 mumol x min-1 x mg-1 and is strongly inhibited by rotenone. Heterologous polyclonal antibodies against the 70- and 49-kDa subunits of the Neurospora crassa complex I and against the wheat NAD9 subunit cross-reacted specifically with the respective potato subunits. Four of the 10 NH2-terminal sequences determined show significant similarities to Neurospora or bovine complex I subunits and allow a tentative assignment of these subunits.
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PMID:Purification of the NADH:ubiquinone oxidoreductase (complex I) of the respiratory chain from the inner mitochondrial membrane of Solanum tuberosum. 829 84

We report on the variant phenotypic expression of mitochondrial genotypes in cultured skin fibroblasts and Epstein-Barr virus-transformed lymphocyte cultures from a patient with Pearson syndrome (McKusick no. 260560). Both cell types harbored a heteroplasmic population of normal and deleted mtDNA molecules. The deletion encompassed five tRNA genes and seven genes encoding subunits of cytochrome c oxidase, complex I, and ATPase. Patient skin fibroblasts and lymphocytes harbored 60 and 80% of deleted mtDNA molecules, respectively, and initially displayed defective respiratory chain activities. In both cases, there was a progressive recovery of respiratory chain activities during in vitro cell proliferation. In cultured skin fibroblasts, the loss of the deleted mtDNA molecules accounted for the recovery of normal respiratory chain activities. These features were prevented by allowing respiratory chain-deficient cells to grow in the presence of uridine (200 microM). In Epstein-Barr virus-transformed lymphocytes containing 60% of deleted mtDNA, the recovery of respiratory chain activities was attributable to an increase in the mtRNA translation efficiency rather than to an increased content in mtDNA or mtRNA. The present study suggests that the variant cellular responses to abnormal mitochondrial genotypes might contribute to the tissue-specific expression of mitochondrial disorders in vivo.
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PMID:Fate and expression of the deleted mitochondrial DNA differ between human heteroplasmic skin fibroblast and Epstein-Barr virus-transformed lymphocyte cultures. 839 36

The possible role of calmodulin in mitochondrial functions was investigated in Ehrlich ascites tumor cell and mouse liver mitochondria employing sulfonamide compounds as calmodulin indicators. N-[6-Aminohexyl)-5-chloro-1-naphthalenesulfonamide (W7), the most potent of the sulfonamide compounds, inhibited mitochondrial protein synthesis and oxidative phosphorylation. The inhibitors had no significant effect on mitochondrial cytochrome c oxidase, oligomycin-sensitive ATPase and NADH dehydrogenase activities. Depletion of endogenous ATP pool seemed to be the main mechanism of inhibition of mitochondrial translation by sulfonamides. The results also show that mitochondria from hepatic tissues are relatively less sensitive to sulfonamide drugs as compared to the Ehrlich ascites tumor cell mitochondria. Results of Ca2+ autoradiography revealed 2-3-fold higher levels of calmodulin-like Ca2+ binding protein in extracts from Ehrlich ascites tumor cell mitoplasts as compared to mitoplasts from mouse liver. These results suggest cell and tissue specific variations in Ca(2+)-dependent processes in the mitochondrial compartment.
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PMID:Inhibition of mitochondrial translation by calmodulin antagonist N-(6-aminohexyl)-5-chloro-1-naphthalenesulfonamide. 849 53

Effect of the polycation on oxidative phosphorylation in the rat liver mitochondria has been studied. Both oxygen uptake and coupled phosphorylation were progressively inhibited by increasing concentration of the polycation, as observed with NAD-linked substrates, succinate and ascorbate+TMPD which activates the terminal part of the respiratory chain. NADH oxidase, NADH dehydrogenase and cytochrome oxidase were strongly inhibited by the polycation, 80-90% of the activity being lost at an inhibitor concentration of 100 microM. Succinate oxidase and succinate dehydrogenase were inhibited 60-66% at 100 microM concentration of the polycation. The polycation inhibited the uncoupler 2,4-dinitrophenol stimulated ATPase activity both in presence and absence of Mg2+ ions. The polycation also inhibited salt-induced volume change.
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PMID:Inhibition of mitochondrial oxidative phosphorylation and its electron transport pathway by a polycation in vitro. 850 25

The complete 27,694-bp mitochondrial (mt) DNA sequence of Hansenula wingei, which is a typical budding yeast and contains circular mitochondrial DNA, has been determined. The mt sequence contains genes encoding large and small ribosomal RNAs, 25 tRNAs, three subunits of cytochrome c oxidase (subunits 1, 2 and 3), three subunits of ATPase (subunits 6, 8 and 9), apocytochrome b, seven subunits of NADH dehydrogenase (subunits 1, 2, 3, 4, 4L, 5 and 6), and a ribosomal protein, VAR1. The VAR1 gene is considered to be a typical yeast type. This is consistent with data on DNA and the deduced amino-acid sequence homology comparisons of genes ubiquitous in yeast and fungi. However, we have identified seven genes encoding NADH dehydrogenase subunits, which are not found in other yeast mitochondrial genomes, thus placing the H. wingei mitochondrial genome in a unique position. In addition the H. wingei mitochondrial genome also encodes one tRNA pseudogene and one short unidentified ORF. The genome is compact with only two introns both of which contain an ORF. One intron lies in the large rRNA gene while the other is situated in the cytochrome c oxidase subunit-1 gene. The conserved nonanucleotide motif (A/T)TATAAG (T/A)(A/T), which is a transcription start signal in Saccharomyces cerevisiae mitochondria, has also been found in the H. wingei mitochondrial genome. The codon assignments for ATA and CTN in H. wingei mitochondria are different from those in S. cerevisiae mitochondria. These results indicate a unique and novel structure for the H. wingei mitochondrial genome in terms of characteristics which are typical for both yeast and for filamentous fungi. This is the first complete mt DNA sequence report in yeast.
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PMID:The complete mitochondrial DNA sequence of Hansenula wingei reveals new characteristics of yeast mitochondria. 853 12

We have determined the complete nucleotide sequence of the circular mitochondrial DNA (mtDNA) of the chytridiomycete fungus, Allomyces macrogynus (57,473 bp; A + T content 60.5%). The identified genes that are typical for most fungal mitochondria include those for the large (rnl) and small subunit (rns) ribosomal RNAs, a complete set of 25 tRNAs, three ATPase subunits (atp6, atp8 and atp9), apocytochrome b(cob), three subunits of the cytochrome oxidase complex (cox1, cox2 and cox3), and seven subunits of the NADH dehydrogenase complex (nad1, nad2, nad3, nad4, nad4L, nad5 and nad6). A total of 28 introns of both groups are found, some of which contain open reading frames (ORFs) coding for potential endonucleases (group I) or reverse-transcriptases (group II). All mitochondrial genes are transcribed from the same DNA strand, as is the case in many other eufungi. Particular features of the A. macrogynus mtDNA include: (1) the first documented case of a fungal mitochondrial ribosomal protein gene (rps3) that is clearly identified by similarity with bacterial homologues; (2) four unique ORFs; (3) the presence of an insert in the atp6 gene that may have been acquired by interspecific transfer; (4) more than 67 short, highly structured and conserved DNA elements inserted in intergenic spacers, introns, and variable regions of the rnl and rns genes: these elements are unusually G + C rich; (5) rRNA structures that resemble more closely those of eubacteria than their counterparts in other fungal mitochondria. The high degree of conservation of the A. macrogynus mitochondrial rRNA secondary structures, the existence of a mitochondrial rps3 gene (common to protist but unique in fungal mtDNAs), and phylogenetic relationships inferred from highly conserved protein genes, demonstrate consistently the ancestral character of this fungal mitochondrial genome.
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PMID:The mitochondrial DNA of Allomyces macrogynus: the complete genomic sequence from an ancestral fungus. 863 71


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