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 first seven residues of the yeast cytochrome oxidase subunit IV presequence are insufficient to target attached mouse dihydrofolate reductase into isolated yeast mitochondria. However, the targeting function of this truncated presequence can be restored by presenting the fusion protein to isolated mitochondria either as nascent, unfolded chains, or as full-length chains whose dihydrofolate reductase moiety had been destabilized either by urea treatment or by point mutations. The targeting efficiency of a mitochondrial presequence can thus be strongly influenced by the conformation of the attached 'passenger protein'. These results also underscore the difficulty of defining a 'minimal' mitochondrial targeting signal.
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PMID:Tight folding of a passenger protein can interfere with the targeting function of a mitochondrial presequence. 254 46

We have purified milligram amounts of an importable mitochondrial precursor protein [the presequence of yeast cytochrome oxidase subunit IV fused to mouse dihydrofolate reductase (DHFR)]. This has made it possible, for the first time, to perform detailed studies on the conformation of a precursor protein and its interaction with lipid membranes. The precursor protein closely resembled authentic mouse DHFR with respect to secondary structure (measured by CD spectra) and stability towards urea (measured by tryptophan fluorescence and enzyme activity). With this precursor protein, the presequence thus does not significantly alter the folding of the attached 'passenger protein'. In contrast to the corresponding presequence peptide, the native precursor exhibited only weak ability to disrupt vesicles with a low mol% of negatively charged lipids, suggesting that the passenger protein masks the amphiphilic properties of the presequence. The membrane-perturbing properties of the precursor were greatly enhanced by increasing the vesicles' content of negatively charged lipid or by denaturing the precursor in 5 M urea. Interaction with vesicles rich in acidic phospholipid was accompanied by partial unfolding of the precursor, suggesting that such a conformational change may also be involved in the interaction of the precursor with the mitochondrial membranes.
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PMID:Latent membrane perturbation activity of a mitochondrial precursor protein is exposed by unfolding. 284 Nov 14

This study was undertaken to estimate the extent of molecular defects in the mitochondrial electron-transfer chain of a patient with mitochondrial myopathy. Biochemical and immunochemical studies were performed on the skeletal muscle mitochondria. Spectrophotometry and enzyme activity measurements localized a definite defect at the segment of cytochrome c oxidase (complex IV) of the electron-transfer chain. Immunoblotting and immunoprecipitation studies using the anti-complex IV antibody revealed that the contents of subunits 1, 4, 5, 6, and 7 of complex IV were markedly diminished and that subunit 2 was almost absent. Immunohistochemistry of the muscle tissue revealed a considerable accumulation of immunoreactive materials of complex IV in the ragged-red fibers. The immunoblots using the anti-NADH-ubiquinone oxidoreductase antibody demonstrated that the contents of NADH-ubiquinone oxidoreductase subunits were 47% of control and that the contents of three subunits were considerably decreased. The contents of ubiquinol-cytochrome c oxidoreductase subunits were also somewhat low (77% of control) and one of the minor contaminants detected in the control was completely absent. High-resolution one-dimensional sodium dodecyl sulfate-urea-gel electrophoresis disclosed that six additional unidentified polypeptides in the control were markedly diminished or completely missing. These results demonstrate that the molecular defects in the mitochondrial electron-transfer chain are more extensive than would be expected from either spectral analysis or enzyme activity measurements alone, and involve not only complex IV but also NADH-ubiquinone oxidoreductase and ubiquinol-cytochrome c oxidoreductase and several unidentified mitochondrial proteins.
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PMID:Extensive defects of mitochondrial electron-transfer chain in muscular cytochrome c oxidase deficiency. 284 44

The beef heart cytochrome oxidase (EC 1.9.3.1) has been purified by hydrophobic chromatography. The enzyme has been resolved into 11 different polypeptides by SDS/urea gel-electrophoresis.
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PMID:[The polypeptide composition of cytochrome oxidase from the bovine heart muscle]. 298 53

Addition of 1 eq of fluorescein mercuric acetate (FMA) to beef heart cytochrome oxidase was found to inhibit the steady-state electron transfer activity by 50%, but further additions up to 10 eq had no additional effect on activity. The partial inhibition caused by FMA is thus similar to that observed with other mercury compounds (Mann, A. J., and Auer, H. E. (1980) J. Biol. Chem. 255, 454-458). The fluorescence of FMA was quenched by a factor of 10 upon binding to cytochrome oxidase, consistent with the involvement of a sulfhydryl group. However, addition of mercuric chloride to FMA-cytochrome oxidase resulted in an increase in fluorescence, suggesting that FMA was displaced from the high affinity binding site. Cytochrome c binding to FMA-cytochrome oxidase resulted in a 10% decrease in the fluorescence, possibly caused by Forster energy transfer from FMA to the cytochrome c heme. The binding site for FMA in cytochrome oxidase was investigated by carrying out sodium dodecyl sulfate gel electrophoresis under progressively milder dissociation conditions. When FMA-cytochrome oxidase was dissociated with 3% sodium dodecyl sulfate and 6 M urea, FMA was predominantly bound to subunit II following electrophoresis. However, when the dissociation was carried out at 4 degrees C in the absence of urea with progressively smaller amounts of lithium dodecyl sulfate, the labeling of subunit II decreased and that of subunit I increased. These experiments demonstrate that mercury compounds bind to a high affinity site on cytochrome oxidase, possibly located in subunit I, but then migrate to subunit II under the normal sodium dodecyl sulfate gel electrophoresis conditions. A definitive assignment of the high affinity binding site in the native enzyme cannot be made, however, because it is possible that mercury compounds can migrate from one sulfhydryl to another under even the mildest electrophoresis conditions.
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PMID:Specific labeling and partial inactivation of cytochrome oxidase by fluorescein mercuric acetate. 299 36

Cytochrome c oxidase (ferrocytochrome c:oxygen oxidoreductase, EC 1.9.3.1), the terminal oxidase of the respiratory chain in eucaryotic cells, has been purified from human placenta mitochondria. Seven polypeptides have been identified reproducibly by high-resolution electrophoresis of the enzyme complex through sodium dodecyl sulfate (Na-DodSO4)--urea polyacrylamide gels; these correspond closely in size to the subunits of beef heart cytochrome c oxidase. When HeLa cells, grown in suspension culture, were pulse-labeled with [35S]methionine in the presence of cycloheximide to inhibit cytoplasmic protein synthesis and chased with an excess of unlabeled methionine in the absence of the drug, the mitochondrially synthesized polypeptides were resolved into at least 17 components by NaDodSO4--urea polyacrylamide gel electrophoresis. After labeled HeLa mitochondria were mixed with human placenta mitochondria and the cytochrome c oxidase was isolated, three of the labeled components were found to copurify with the three largest subunits of the complex. We conclude that human cytochrome c oxidase contains seven subunits, the three largest of which are synthesized on mitochondrial ribosomes, while the other four are synthesized in the cytoplasm.
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PMID:Isolation, subunit composition, and site of synthesis of human cytochrome c oxidase. 624 17

The EPR spectra of the NO complexes of frozen solutions of ascorbic acid-reduced cytochrome oxidase (nitrite reductase) purified from Pseudomonas aeruginosa, of its heme d1-depleted form, and of heme d1 in solutions containing various nitrogenous bases are quite similar to each other as well as to several heme (iron protoporphyrin IX)-containing proteins. The NO complexes of heme d1 (an iron-chlorin) in the presence of nitrogenous bases belong to spectral type C according to Kon's classification and, thus, the energy levels of the iron are closely related to thorse of heme complexes recorded under similar conditions. Comparison of these spectra with those of complexes of known structure suggests that both heme c and heme d1 are linked with Pseudomonas cytochrome oxidase by means of a nitrogenous ligand. The EPR spectrum of the NO complex of the native enzyme exhibits a lack of resolution of the high field (gy) resonance which can be characterized in terms of a spectral contribution from both the heme c and heme d1 moieties. The similarity between the EPR spectra of the NO complexes of horse heart cytochrome c and the heme d1-depleted Pseudomonas cytochrome oxidase before and after interaction with urea suggests structural similarities involving the heme irons. The changes caused by urea are likely to be a breaking or distortion of the bond between the iron and the protein-donated nitrogenous ligand and are similar to alterations seen with NO complexes of hemoglobin under a variety of conditions.
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PMID:EPR study of heme x NO complexes of ascorbic acid-reduced Pseudomonas cytochrome oxidase and corresponding model complexes. 625 Oct 57

One to two molecules of tightly bound cardiolipin are associated with resolved fractions of cytochrome oxidase containing subunits I to III or I to IV. Large scale isolation of subunits I to IV indicates the presence of approximately 0.5 molecule of cardiolipin per molecule of subunit I. Lipoprotein staining of sodium dodecyl sulfate/urea/acrylamide gels of cytochrome oxidase support the findings that subunit I is a lipoprotein. The resistance of this tightly bound cardiolipin to organic solvent extraction suggests a specific association of some tenacity with the protein.
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PMID:The localization of tightly bound cardiolipin in cytochrome oxidase. 625 60

Cytochrome oxidase has been purified from Nitrobacter agilis using hydrophobic interaction chromatography. The purified preparation contained 3-5% phospholipid and migrated as a single band during polyacrylamide gel electrophoresis under nondissociating conditions, but appeared as three bands in the presence of sodium dodecyl sulfate and 6 M urea. These three bands corresponded to molecular weights of 37 000, 25 000, and 13 000. The absorption spectra of cytochrome oxidase isolated from Nitrobacter were similar to those reported for a-type cytochrome oxidase from other sources and exhibited absorption maxima at 420 and 600 nm when oxidized and 443 and 606 nm when reduced. The purified enzyme reacted both with horse heart and Nitrobacter cytochrome c. The enzymatic activity depended upon the pH of reaction mixture, with the maximum activity at pH 6.5 and 7.5 for Nitrobacter and horse heart cytochrome c, respectively. The activity of the purified enzyme was inhibited by cyanide, azide, and diethyl dithiocarbamate.
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PMID:Cytochrome oxidase of Nitrobacter agilis: isolation by hydrophobic interaction chromatography. 626 Mar 19

Most active transport across the bacterial cell membrane is driven by a proton electrochemical gradient (delta-muH+, interior negative and alkaline) generated via electron transfer through a membrane-bound respiratory chain. This phenomenon is now reproduced in vitro with proteoliposomes containing only two proteins purified from the membrane of Escherichia coli. An o-type cytochrome oxidase was extracted from membranes of a cytochrome d terminal oxidase mutant with octyl beta-D-glucopyranoside after sequential treatment with urea and cholate and was purified to homogeneity by ion-exchange chromatography. The purified oxidase contains four polypeptides (MrS 66,000, 35,000, 22,000, and 17,000), two b-type cytochromes (b558 and b563), and 16-17 nmol of heme b per mg of protein, and it catalyzes the oxidation of ubiquinol and other electron donors with specific activities 20- to 30-fold higher than crude membranes. The lac carrier protein was purified as described. Proteoliposomes were formed in the presence of the oxidase and lac carrier protein by detergent dilution, followed by freeze-thaw/sonication. The system generates a delta-muH+ (interior negative and alkaline) with ubiquinol as electron donor and the magnitude of delta-muH+ is dependent on the concentration of cytochrome o in the proteoliposomes. Furthermore, the proteoliposomes transport lactose against a concentration gradient to an extent that is commensurate with the magnitude of delta-muH+ generated. The results provide powerful additional support for the "chemiosmotic hypothesis" and demonstrate that purified lac carrier protein retains the ability to function in a physiological manner.
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PMID:Reconstitution of active transport in proteoliposomes containing cytochrome o oxidase and lac carrier protein purified from Escherichia coli. 630 57

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