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Enzyme
Compound
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Gene/Protein
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Target Concepts:
Gene/Protein
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Query: EC:1.9.3.1 (
cytochrome oxidase
)
8,822
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
A screen has been performed of possible inhibitors of the ubiquinol oxidase of higher plant mitochondria by assaying their effects on cyanide-insensitive NADH oxidase of mitochondria of Arum maculatum. A number of compounds which have powerful inhibitory effects have been identified. Potent inhibition was found with compounds related to the previously described n-propyl gallate, but with the n-propyl sidechain replaced with alkyl chains of greater hydrophobicity. Titration of a range of partial reactions showed that the inhibitors act specifically on the ubiquinol oxidase. The concentrations of inhibitor required are dependent on the respiratory substrate and on the amount of mitochondria used in the assay. Octyl gallate also proved to be a potent inhibitor of the ubiquinol oxidase in tobacco cell suspensions. A second class of compounds which strongly inhibit cyanide-insensitive NADH oxidation is aurachin C and its analogues. Compounds related to aurachin D are much less effective. Titrations of a range of partial reactions indicate that inhibition is caused by a direct action on the ubiquinol oxidase. However, both types of aurachins also act strongly at the Qi site of the cytochrome bc1 complex, as already known to be the case in other systems, and so they are of more limited value for studies of the ubiquinol oxidase. Titration of the oxidation of NADH via the ubiquinol oxidase in a purified mitochondrial fraction from the spadices of Arum maculatum with octyl gallate gave a half-maximal effect at a concentration of around 6 nM when the protein concentration was 14 micrograms ml-1. A similar titre was obtained with a
decyl
derivative of aurachin C. This allowed us to estimate an upper limit for the concentration of ubiquinol oxidase in these mitochondria of 0.72 +/- 0.15 nmol mg-1 protein, or a ratio of ubiquinol oxidase/
cytochrome oxidase
of about 15 +/- 7:1. The measurements also provide a minimal turnover number for the ubiquinol oxidase of 186 +/- 42 electrons.s-1. Titration of the ubiquinol oxidase in soybean cotyledon mitochondria with these compounds gave the concentration of inhibitor required to elicit 50% of the maximum observed effect (I50) values about one order of magnitude higher than those found with Arum mitochondria, and again the values depended on the respiratory substrate. An explanation for the variation in I50 values may be found in terms of differences in oxidase concentrations in the different mitochondrial membranes and in the differences in rate-controlling steps with substrates of different activities.
...
PMID:New inhibitors of the ubiquinol oxidase of higher plant mitochondria. 758 98
Thiosulphate is one of the products of the initial step of the elemental sulphur oxidation pathway in the thermoacidophilic archaeon Acidianus ambivalens. A novel thiosulphate:quinone oxidoreductase (TQO) activity was found in the membrane extracts of aerobically grown cells of this organism. The enzyme was purified 21-fold from the solubilized membrane fraction. The TQO oxidized thiosulphate with tetrathionate as product and ferricyanide or
decyl
ubiquinone (DQ) as electron acceptors. The maximum specific activity with ferricyanide was 73.4 U (mg protein)(-1) at 92 degrees C and pH 6, with DQ it was 397 mU (mg protein)(-1) at 80 degrees C. The Km values were 2.6 mM for thiosulphate (k(cat) = 167 s(-1)), 3.4 mM for ferricyanide and 5.87 micro M for DQ. The enzymic activity was inhibited by sulphite (Ki = 5 micro M), metabisulphite, dithionite and TritonX-100, but not by sulphate or tetrathionate. A mixture of caldariella quinone, sulfolobus quinone and menaquinone was non-covalently bound to the protein. No other cofactors were detected. Oxygen consumption was measured in membrane fractions upon thiosulphate addition, thus linking thiosulphate oxidation to dioxygen reduction, in what constitutes a novel activity among Archaea. The holoenzyme was composed of two subunits of apparent molecular masses of 28 and 16 kDa. The larger subunit appeared to be glycosylated and was identical to DoxA, and the smaller was identical to DoxD. Both subunits had been described previously as a part of the terminal quinol:oxygen oxidoreductase complex (
cytochrome aa3
).
...
PMID:Coupling of the pathway of sulphur oxidation to dioxygen reduction: characterization of a novel membrane-bound thiosulphate:quinone oxidoreductase. 1530 18
