EC:1.9.3.1 - FACTA Search

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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)

The cells of methylotrophic bacteria (Achromobacter parvulus 1, Pseudomonas methylica 2 and 20, Ps. fluorescens 45, Ps. oleovorans 52) and Candida methylica 101 grown in a medium with methanol take up oxygen in the presence of formiate. A. parvulus is most resistant to formiate (KM = 2.3 +/- 0.5) X 10(-3) M; Ki = 4 x 10(-1) M). When grown on Cn substrates, these microorganisms cannot oxidize formiate (with an exception of A. parvulus). Formiate also serves as a respiration substrate for E. coli K-12 and the purple bacterium Rhodopseudomonas palustris, disregarding the composition of a medium on which the cells are grown. When the cells cannot oxidize formiate, it inhibits the respiration of the cells and cell extracts in the presence of other substrates, including TMPD + ascorbate. The respiration is completely inhibited at a concentration of formiate of 10(-3)--10(-2) M. It follows therefore that formiate acts on the terminal cytochrome oxidase, regardless of whether it is cytochrome a or o.
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PMID:[Effect of formate on the respiration of different microorganisms]. 48 Dec 74

We have found that tryptose phosphate broth (TPB) prevents the inhibitory effect of chloramphenicol (CAM) on the cell proliferation of chick embryo fibroblasts. Study of growth parameters indicated that no lag or adaptation period appeared necessary for TPB-exposed chick cell populations to grow in the presence of CAM suggesting that a particular cell type was not selected. TPB did not prevent the inhibitory effect of CAM on the mitochondrial protein-synthesizing system. This was supported by cytochrome oxidase activity measurements, studies on the incorporation of 35S-metionine into mitochondrial proteins, electron microscopic observation of alterations in mitochondrial structure. Oxygen consumption was reduced by 95% and cyanide, 2-4-dinitrophenol, and salicylhydroxamic acid do not significantly affect the residual respiration. Analyses of reduced-minus-oxidized-cytochrome spectra of CAM-treated chick cells demonstrate the disappearance of the absorption bands of cytochromes aa3, b559, c1, and c. The presence of a type b cytochrome with maxima at 552 and 557 nm was observed. The results obtained indicate that long-term cultures of CAM-treated chick embryo cells cultivated in the presence of TPB grow with mitochondria devoid of a functional respiratory chain.
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PMID:On the adaptation of cultured chick embryo cells to growth in the presence of chloramphenicol. 54 54

The influence of sodium nitroprusside (SNP) on mitochondrial respiration was examined in rat liver mitochondria. The addition of SNP 1 mmol litre-1 during state 3 respiration inhibited the oxygen uptake by 63.4%. A mixture of SNP 1 mmol litre-1 and glutathione (GSH) 1 mmol litre-1 inhibited the oxygen uptake more markedly (by 75.9%). The cyanide concentrations were 0.01 mmol litre-1 with SNP alone and 0.15 mmol litre-1 with the mixture of SNP and GSH. Cyanide production from SNP in the presence of various reducing agents was studied in potassium phosphate 0.1 mol litre-1 buffer solution (pH 7.4) incubated at 37 degrees C. Cyanide was liberated markedly from SNP in the presence of GSH or ascorbate. Less cyanide was produced in the presence of NADH or NADPH. The rate of production of cyanide was dependent entirely upon the concentration of each reducing agent added. No cyanide was liberated when sodium dithionite or the oxidized forms of GSH, NAD or NADP were used. It was concluded that SNP is degradated to cyanide by a hydrogen donor and that the cyanide liberated in this manner inhibits the cytochrome oxidase activity of mitochondria in vivo.
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PMID:Inhibition of mitochondrial respiration by sodium nitroprusside and the mechanism of cyanide liberation. 58

Steady-state oxygen kinetics of Trypanosoma mega reveal the presence of 3 oxidases. These include an oxidase which is sensitive to salicylhydroxamic acid (SHAM) but insensitive to sodium azide. This oxidase could be the L-alpha glycerophosphate oxidase present in bloodstream trypanosomes. In addition, and oxidase is present wthich is azide-sensitive but SHAM-insensitive. This oxidase is inhibited by CO and is probably cytochrome aa3. A 3rd oxidase is insensitive to both azide and SHAM but is inhibited by CO and is possibly cytochrome o. Reciprocal plots of T. mega reveal the presence of 2 oxidases that are inhibited by CO. These results are discussed in the light of previous evidence suggesting the presence of several oxidases and a branched electron transport system in T. mega.
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PMID:Steady-state oxygen kinetics of terminal oxidases in Trypanosoma mega. 59 2

1. Carbon monoxide (CO) acts competitively towards oxygen when the latter is taken up in respiration by cytochrome aa3-containing proteoliposomes, both in the presence of p-trifluoromethoxy carbonyl cyanide phenylhydrazone and valinomycin (deenergized state) and in their absence (energized state). At high levels of CO, the double reciprocal plots (1/v vs. 1/[O2]) in the energized and deenergized states are parallel, i.e. energization acts "anti-competitively" towards oxygen, and the "respiratory control ratio" decreases as the oxygen concentration decreases. 2. Azide acts non-competitively towards cytochrome c when the latter is oxidized by cytochrome aa3-containing proteoliposomes both in the energized and deenergized (plus p-trifluoromethoxy carbonyl cyanide phenylhydrazone and valinomycin) conditions. At low azide concentrations the apparent Ki for azide is unaffected by energization, but at high azide levels the Ki increases in energized liposomes, i.e. the "respiratory control ratio" decreases as the azide concentration increases. 3. It is concluded that the inhibitor experiments are consistent with but do not prove the concept that the oxidase molecules in a single vesicle are responding to a single "energization state" or set of electrochemical gradients. This and other models are discussed.
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PMID:Control of respiration in proteoliposomes containing cytochrome aa3. II. Inhibition by carbon monoxide and azide. 65 7

Usual concentrations of antimycin A, rotenone and EDTA, individually or in combination, reduced aerobic growth rate and cell yield of Candida albicans to about half its normal level and to about the levels of previously-described acetate-negative, cytochrome-complete and aa3-deficient variants which were little affected by the inhibitors. Anaerobic conditions (not affected by antimycin A) reduced growth rate and cell yield of all cultures-including that of a nonrespiring aa3, b-deficient mutant-to low, equal levels. Antimycin A but not rotenone prevented growth of the normal strain on ethanol medium. Cyanide and antimycin A blocked most of the respiration of the normal strain and cytochrome-complete variant, but did not affect that of the cytochrome aa3-deficient mutant. Rotenone and EDTA did not affect respiration of any of the cultures. SHAM blocked cyanide-and antimycin A-insensitive respiration and prolonged the lag phases of the three respiring cultures, especially in the presence of antimycin A, but alone increased oxygen-uptake rate of the cytochrome-complete cultures while curtailing that of the cytochrome aa3-deficient mutant. Resting cells, especially wild-type, grown in medium containing antimycin A exhibited lowered oxygen-uptake rate, which was increased upon the addition of cyanide or antimycin A. Antimycin A stimulated, but cyanide inhibited, respiration of cytochrome-complete cultures grown in the presence of rotenone but did not affect that of the cytochrome aa3-deficient mutant. SHAM inhibited respiration of all antimycin A- or rotenone-grown cultures. The high rate of respiration of C. albicans in the presence of inhibitors for three sites of electron transport in the conventional oxidative pathway, the inhibition of this respiration by SHAM and its loss by the absence of cytochrome b, indicate an alternate oxidative pathway in this organism which crosses the conventional one at cytochrome b.
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PMID:An alternate respiratory pathway in Candida albicans. 82 92

Direct chemical titrations of reduced, purified cytochrome aa3 were monitored at 604 nm. Anaerobic oxidation by potassium ferricyanide or 1,1'-bis(hydroxymethyl)-ferricinium ion was compared with the natural substrate, molecular oxygen. The four electrons from reduced cytochrome aa3 were donated to one oxygen molecule, resulting in a linear titration with only fully oxidized or fully reduced enzyme molecules present. Unlike the linear or sigmoidal titrations which resulted from various reductive titrations reported previously, pronounced hyperbolic curves were obtained with the chemical oxidants. The midpoint potential values exhibited by the four metal centers of cytochrome aa3 were determined by computer simulation of the titration curves. A high potential pair of components (heme a = 340 mV, Cu = 340 mV) and a low potential pair (heme a = 220 mV, Cu = 240 mV) were observed, consistent with literature values. Unique to these equilibrium studies was a split in the heme a extinction coefficients at 604 nm. The low potential heme a component contributed 80-85% to the total absorbance change. A polarographic assay was used to verify that the integrity of cytochrome aa3 remained intact during equilibrium titrations spanning several hours. These experimental results indicate that simple chemical reversibility does not exist for cytochrome aa3 under anaerobic conditions.
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PMID:Oxidative titrations of reduced cytochrome aa3: anisotropic extinction behavior observed in the heme alpha-band region. 84 20

In liver mitochondria of control animals and of animals subjected to swimming for three hours experiments are made to determine the activities of rotenone-insensitive NAD.H-cytochrome c-oxireductase, succinate-cytochrome c-oxireductase, MDH, SDH, ATP-ase and cytochrome oxidase, as well as oxygen uptake, respiratory control index and ADP/O ratio upon oxidation of succinate and glutamate + malate. Decrease of the ADP/O ratio and of the respiratory control index, as well as increased ATP-ase activity, are established after swimming. The e--transport rate decreases. The activity of the remaining enzymes is unchanged. The activities of MDH, SDH, NAD.H-cytochrome c- and succinate-cytochrome c-oxireductases decrease 22 hours after exhaustive swimming. The activities of the cytochrome oxidase and the ATP-ase are unchanged compared with the controls. A single exhaustive loading results in changes in the capacity of phosphorylation in the liver mitochondria and the changes in the activities of the enzymes studied are established 22 hours later.
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PMID:Effect of exhaustive swimming on the oxidative phosphorylation and the activity of some enzymes in rat liver mitochondria. 101 5

1. The conditions under which mitochondria might catalyse a net reversal of oxidative phosphorylation are analysed. 2. Rat-liver mitochondria, incubated under such conditions, show a strongly diminished affinity for oxygen. 3. The velocity of respiration under these conditions is a hyperbolic function of the oxygen concentration. 4. The K-m for oxygen is less than 0.1 muM at low phosphate potential, irrespective of substrate, and 1-3 muM under reversal conditions. 5. The observed kinetics can be accounted for in a simple mechanism for cytochrome oxidase action.
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PMID:Mitochondrial oxygen affinity as a function of redox and phosphate potentials. 112 21

Oxidative phosphorylation during electron transport in the respiratory chain was found in two propionic bacteria, P. shermanii and P. petersonii. Its effectiveness, with oxygen as the terminal acceptor of electrons, was higher in P. petersonii, a more aerobic culture, than in P. shermanii. Oxidative phosphorylation with the participation of the electron transport chain was not found in P. petersonii in the absence of oxygen. Oxidative phosphorylation can take place together with the reactions of propionic fermentation in P. shermanii upon a small rearrangement of the respiration chain (if fumarate reductase is substituted for cytochrome oxidase).
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PMID:[Oxidative phosphorylation in Propionibacterium]. 116 Jun 25

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