Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:1.6.99.5 (NADH dehydrogenase)
 2,135 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A clone that transforms the RKa mutant of Synechocystis PCC6803 defective in inorganic carbon (Ci) transport to the wild-type phenotype was isolated from a cyanobacterial genomic library. The clone contained an 11.8-kilobase-pair DNA insert. Sequencing of the insert DNA in the region of the mutation in RKa revealed an open reading frame (designated as ndhB), which showed extensive amino acid sequence homology to the subunit-2 genes of NADH dehydrogenase (EC 1.6.99.3) (ndhB) of chloroplasts and mitochondria. The homology was much stronger with the chloroplast genes. Sequence analysis of the ndhB gene of RKa mutant revealed a G----A substitution that results in a Gly----Asp substitution in the deduced amino acid. A defined mutant (M55), constructed by inactivating the ndhB gene in wild-type Synechocystis, required high CO2 conditions for growth and was unable to transport CO2 and HCO3- into the intracellular Ci pool. The results indicate that the ndhB gene is required for Ci transport. Dark respiration was also depressed by the inactivation of the ndhB gene. A possible role of the ndhB gene product in the energization of Ci transport is discussed.
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PMID:A gene homologous to the subunit-2 gene of NADH dehydrogenase is essential to inorganic carbon transport of Synechocystis PCC6803. 190 37

There is a region exhibiting a similarity of amino acid sequence near the carboxyl-terminal segment of each FAD-containing oxidoreductase. In this region, four amino acid residues-Thr, Ala, Gly, and Asp-are highly conserved. To determine the involvement of the four amino acid residues (Thr-469, Ala-476, Gly-478, and Asp-479) in the activity of NADH dehydrogenase of an alkaliphilic Bacillus, mutations of these amino acid residues were conducted. In spite of high conservation, mutations of Thr-469 and Ala-476 to Ala and Ser, respectively, did not lead to a critical loss of enzyme activity. However, mutations of Gly-478 and Asp-479 to Ala caused a complete loss of the activity, which appears to result from the loss of binding capacity of FAD.
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PMID:Involvement of glycine and aspartate residues in the binding capacity of FAD in the NADH dehydrogenase from an alkaliphilic Bacillus. 1273 50

Mitochondrial superoxide (O(2)(.)) production is an important mediator of oxidative cellular injury. While NADH dehydrogenase (NDH) is a critical site of this O(2)(.) production; its mechanism of O(2)(.) generation is not known. Therefore, the catalytic function of NDH in the mediation of O(2)(.) generation was investigated by EPR spin-trapping. In the presence of NADH, O(2)(.) generation from NDH was observed and was inhibited by diphenyleneiodinium chloride (DPI), indicating involvement of the FMN-binding site of NDH. Addition of FMN increased O(2)(.) production. Destruction of the cysteine ligands of iron-sulfur clusters decreased O(2)(.) generation, suggesting a secondary role of this site. This inhibitory effect was reversed by addition of FMN. However, FMN addition could not reverse the inhibition of NDH by either DPI or heat denaturation, demonstrating involvement of both FMN and its FMN-binding protein moiety in the catalysis of O(2)(.) generation. O(2)(.) production by NDH also induced self-inactivation. Immunospin-trapping with anti-DMPO antibody and subsequent mass spectrometry was used to define the sites of oxidative damage of NDH. A DMPO adduct was detected on the 51-kDa subunit and was O(2)(.)-dependent. Alkylation of the cysteine residues of NDH significantly inhibited NDH-DMPO spin adduct formation, indicating involvement of protein thiyl radicals. LC/MS/MS analysis of a tryptic digest of the 51-kDa polypeptide revealed that cysteine (Cys(206)) and tyrosine (Tyr(177)) were specific sites of NDH-derived protein radical formation. Thus, two domains of the 51-kDa subunit, Gly(200)-Ala-Gly-Ala-Tyr-Ile-Cys(206)-Gly-Glu-Glu-Thr-Ala-Leu-Ile-Glu-Ser-Ile-Glu-Gly-Lys(219) and Ala(176)-Tyr(177)-Glu-Ala-Gly-Leu-Ile-Gly-Lys(184), were demonstrated to be susceptible to oxidative attack, and their oxidative modification results in decreased electron transfer activity.
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PMID:Superoxide generation from mitochondrial NADH dehydrogenase induces self-inactivation with specific protein radical formation. 1615 Jul 35

The influence of 6-benzylaminopurine (BAP) on the respiration by mitochondria from bush bean (Phaseolus vulgaris L.), mung bean (P. aureus Roxburgh), soybean [Glycine max (L.) Merrill], maize (Zea mays L.), pea (Pisum sativum L.), and wheat (Triticum aestivum L.) was examined. BAP, a synthetic cytokinin, consistently inhibited oxygen uptake by mitochondria from all species when malate was used as the substrate. The decrease in respiration was especially evident in the presence of ADP or an uncoupler of oxidative phosphorylation. 6-Isopentenylaminopurine and 6-furfurylaminopurine also inhibited malate oxidation, but zeatin and adenine did not. In certain instances, BAP reduced succinate and NADH oxidation. With succinate as the substrate and with antimycin A present, inhibition by BAP paralleled that caused by salicylhydroxamic acid, an inhibitor of alternative respiration. A suggested scheme features a cytokinin-inhibited point located between NADH dehydrogenase and cytochrome b of the electron transport system. Electrons from the NADH generated by malate oxidation are assumed to flow through this point, with electrons from externally supplied or cytosolic NADH and succinate doing so only under certain conditions such as when alternative respiration is occurring. Cytokinin effects on respiration and perhaps on other phenomena may be mediated by this mechanism.
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PMID:Cytokinin inhibition of respiration in mitochondria from six plant species. 1659 62

The Na+-pumping NADH-quinone oxidoreductase (Na+-NQR) is the first enzyme of the respiratory chain and the main ion transporter in many marine and pathogenic bacteria, including Vibrio cholerae The V. cholerae Na+-NQR has been extensively studied, but its binding sites for ubiquinone and inhibitors remain controversial. Here, using a photoreactive ubiquinone PUQ-3 as well as two aurachin-type inhibitors [125I]PAD-1 and [125I]PAD-2 and photoaffinity labeling experiments on the isolated enzyme, we demonstrate that the ubiquinone ring binds to the NqrA subunit in the regions Leu-32-Met-39 and Phe-131-Lys-138, encompassing the rear wall of a predicted ubiquinone-binding cavity. The quinolone ring and alkyl side chain of aurachin bound to the NqrB subunit in the regions Arg-43-Lys-54 and Trp-23-Gly-89, respectively. These results indicate that the binding sites for ubiquinone and aurachin-type inhibitors are in close proximity but do not overlap one another. Unexpectedly, although the inhibitory effects of PAD-1 and PAD-2 were almost completely abolished by certain mutations in NqrB (i.e. G140A and E144C), the binding reactivities of [125I]PAD-1 and [125I]PAD-2 to the mutated enzymes were unchanged compared with those of the wild-type enzyme. We also found that photoaffinity labeling by [125I]PAD-1 and [125I]PAD-2, rather than being competitively suppressed in the presence of other inhibitors, is enhanced under some experimental conditions. To explain these apparently paradoxical results, we propose models for the catalytic reaction of Na+-NQR and its interactions with inhibitors on the basis of the biochemical and biophysical results reported here and in previous work.
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PMID:Identification of the binding sites for ubiquinone and inhibitors in the Na+-pumping NADH-ubiquinone oxidoreductase from Vibrio cholerae by photoaffinity labeling. 2829 41