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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)
Bovine heart submitochondrial particles (SMP) were solubilized in an asolectin isooctane reverse micellar system and the functionality of the respiratory chain was tested by spectroscopic and amperometric techniques. Electron transfer rate supported by NADH was very slow as evidenced by the low cytochrome reduction levels attained over long incubation periods. In the presence of KCN, NADH caused 34% and 12.5% reduction of the cytochromes aa3 and c, respectively, and negligible reduction of cytochrome b. Supplementation of the system with menadione rose the NADH-dependent reduction of all the cytochromes to levels that were close to the total content. However, no measurable O2 uptake activity took place in the presence of NADH plus menadione, or with ascorbate (or NADH) plus TMPD reducing systems. Therefore, it is suggested that in the organic medium, electron transfer from NADH to O2 is arrested at the terminal oxidase step. Cytochrome oxidase reduced by ascorbate (or NADH) plus TMPD seems to be trapped in its half reduced state (ie, a2+ a3(3+)). Although it is poorly reactive with O2, it can transfer electrons back to cytochrome c and TMPD. The electron transfer block to O2 was overcome when
PMS
was used instead of TMPD. This seems to be due to the recognized capacity of PMSH2 to carry out simultaneous reduction of both a CuA and a3 CuB redox centers of
cytochrome oxidase
. The
cytochrome oxidase
reaction in the organic solvent was highly sensitive to KCN (Ki 1.9 microM) and showed bell-shaped kinetics towards the
PMS
concentration and a sigmoidal response to water concentration, reaching its maximal turnover number (18 s-1) at 4 mM
PMS
and 1.1% (v/v) water.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:Respiratory electron transfer activity in an asolectin-isooctane reverse micellar system. 131 73
Cytochrome aa3 concentrations in the cytoplasmic membrane of Bacillus subtilis were altered by growth conditions, and the effects on the membrane potential (delta psi) in whole cells were measured. When
cytochrome aa3
was absent, the magnitude of delta psi was not diminished by comparison with the delta psi measured in cells containing normal
cytochrome aa3
concentrations. In addition, the energy-dependent uptake of proline and glutamate was comparable at both
cytochrome aa3
concentrations. However, in the
cytochrome aa3
-deficient cell preparation, accumulation of the aminoglycoside antibiotic streptomycin was much lower than that of the
cytochrome aa3
-sufficient cells. When cells were cultured under conditions that stimulated higher than normal concentrations of
cytochrome aa3
, delta psi was also increased, and enhanced streptomycin accumulation was observed.
Phenazine methosulfate
-ascorbate was used both in delta psi measurements and in uptake studies to provide high rates of electron transport and maximal delta psi values. These results, taken together with those previously published (A. S. McEnroe and H. W. Taber, Antimicrob. Agents Chemother. 26:507-512, 1984) suggest that the uptake of streptomycin by B. subtilis requires adequate levels both of delta psi and
cytochrome aa3
.
...
PMID:Streptomycin accumulation by Bacillus subtilis requires both a membrane potential and cytochrome aa3. 242 30
We have examined the redox behavior of the cytochrome c1aa3 complex from Thermus thermophilus. In potentiometric titrations the cytochrome c behaves as an independent center having n = 1 and E = 205 mV (NHE). Under the assumption that the individual centers equilibrate independently in this experiment, changes in the absorption band at 603 nm have been resolved into two components: cytochrome a (n = 1, Em = 270 mV, 60% spectral contribution) and
cytochrome a3
(n = 2, Em = 360 mV, 40% spectral contribution). The n = 2 process was attributed to strong chemical coupling between
cytochrome a3
and CuB. The enzyme was also titrated with a mixture of NADH and
PMS
, and the results are shown not to conform to a model of intramolecular equilibrium according to the equilibrium constants obtained from the potentiometric titration. It is suggested that a conformational equilibrium within the complex may control electron transfer between cytochromes a and a3.
...
PMID:Potentiometric study of cytochrome c1aa3 from Thermus thermophilus. 299 68
Cytochrome caa3 (
cytochrome oxidase
) from the thermophilic bacterium PS3 can exhibit full catalytic activity in the presence of ascorbate and TMPD or other electron donors and in the absence of added soluble c-type cytochromes. It appears to possess only a low-affinity and not a high-affinity site for the soluble cytochromes. Proteoliposomal cytochrome caa3 develops an effective membrane potential in the presence of ascorbate and TMPD or
PMS
, in the absence of added soluble cytochrome c. Reduction of the a3 centre is blocked in the presence of cyanide. During reductive titrations of the cyanide-inhibited enzyme, electrons initially equilibrate among three centres, the c haem, the a haem and one of the associated Cu atoms. During steady-state turnover, electrons probably enter the complex via the bound c haem; the a haem and perhaps an associated CuA atom are reduced next. It is concluded that, despite its size and hydrophobic association with the aa3 complex, the haem c-containing subunit can behave in an analogous way to that of mammalian cytochrome c, bound at the high-affinity site of the eucaryotic enzyme.
...
PMID:Kinetics of cytochrome c and TMPD oxidation by cytochrome c oxidase from the thermophilic bacterium, PS3. 609 70
Anaerobic reduction of cytochrome c oxidase by 5,10-dihydro-5-methylphenazine (reduced
PMS
) and by sodium dithionite were studied by rapid scanning stopped flow spectrophotometry. In both cases the decay of the Soret band of the oxidized oxidase is not uniform. With reduced
PMS
, the reduction involves two molecules of reductant (4 electrons)/oxidase molecule. The first stage of the reduction exhibits an isosbestic point in the Soret region at 437 nm. This shifts to 428 nm in later stages of the reaction. The reduction of the oxidase by sodium dithionite is also complete and apparently involves SO2 radical. In this case the spectra show an isosbestic point at approximately 420 nm which shifts to 432 nm as the reaction proceeds. For each of the reductants the reaction is best described by three phases: the first is a second order reaction between the oxidase and the reductant, followed by two first order processes which appear to describe the intramolecular electron redistribution within the oxidase molecule. The results agree with the assignment of the Soret band of the oxidase molecule to
cytochrome a3
with an absorption maximum near 410 nm and to cytochrome a which has its maximum absorption hear 430 nm. If these assignments are correct, the present data show that reduced
PMS
, an uncharged molecule, reacts more rapidly with cytochrome a than it does with
cytochrome a3
, while the negatively charged radical anion, SO2, appears to have more direct access to
cytochrome a3
.
...
PMID:Kinetic distinction between cytochromes a and a3 in cytochrome c oxidase. Rapid scanning stopped flow study of anaerobic reduction by a neutral and a negatively charged donor. 625 79
Candida parapsilosis is a strictly aerobic yeast which possesses two respiratory chains with a peculiar organisation, different from that of plant mitochondria. Besides the classical electron transport pathway, mitochondria of C. parapsilosis develops an alternative pathway, which does not branch off at the ubiquinone level, but merges at the
complex IV
level. Two pools of cytochromes c were distinguished by their spectrometric and potentiometric properties: (i) sequential cytochrome c reduction was promoted by two substrates,
PMS
(Em = 70 mV) and TMPD (Em = 280 mV). TMPD promoted the reduction of a cytochrome c with maxima at 551.9 and 417.3 nm for the alpha and the Soret bands, respectively, whereas cytochrome c reducible by
PMS
exhibited maxima at 549.7 and 419.9 nm; (ii) two midpoint redox potentials were resolved at 180 mV and 280 mV, respectively. The two cytochromes c were copurified by ion-exchange chromatography on Amberlite; after this step, the two cytochromes c can always be differentiated by TMPD and
PMS
, these reductants promoting different absorption bands. The two cytochromes c were separated by reverse-phase HPLC; this last purification step resolved two proteins with the same relative molecular mass of 13600 but a different amino-acid composition. Comparison of N-terminal sequences revealed differences between the two proteins. It was hypothesized that one cytochrome c is implicated in the functioning of the main chain and the other in that of the secondary pathway.
...
PMID:Isolation, characterization and function of the two cytochromes c of the yeast Candida parapsilosis. 839 13
Male sex hormones [dihydrotestosterone (DTS), and testosterone] and progesterone, when added to the isolated rat liver mitochondria before or after some protonophores, lower the respiration rate and increase the delta psi level, i.e., reverse the protonophore-induced uncoupling. Such a recoupling ability shows specific structural requirements correlating with hormonal activity of steroids studied. For instance, epiandrosterone, a DTS isomer of very low hormonal activity, and deoxycorticosterone, differing from progesterone by additional OH-group and possessing quite different hormonal activity, as well as female sex hormones (estron and estradiol) show no recoupling effect. Like 6-ketocholestanol (kCh), male sex hormones and progesterone recouple mitochondria uncoupled by low concentrations of SF6847, FCCP and CCCP, but not by high concentration of these uncouplers or by any concentration of DNP, palmitate and gramicidin. In contrast to recoupling by kCh, hormonal recoupling requires addition of serum albumin and is inhibited by low concentrations of palmitate. Recoupling can also be shown on the heart and skeletal muscle mitochondria, being absent from the heart muscle submitochondrial particles, the bacterial chromatophores and the
cytochrome oxidase
proteoliposomes. In mitochondria it does not depend upon the oxidation substrate used (succinate or
PMS
+ ascorbate were tested). Pronounced seasonal effect upon the DTS recoupling degree was revealed. The recoupling is maximal in January, February and from June to November, being minimal in the spring months and in December. In spring, the in vivo administration of thyroxine, di- or triiodothyronine improves the recoupling ability of DTS. 2 x 10 - 6 M. Thyroxine, when added in vitro, does not affect energy coupling if SF6847 was absent. In the presence of small amounts of SF6847, thyroxine stimulates the uncoupling in a DTS-sensitive fashion, di- and triiodothyronines being less effective. Addition of thyroxine to azide-inhibited mitochondria (oligomycin is present) stimulates respiration and normalizes the delta psi level. In this system, triiodothyronine is much less effective, whereas diiodothyronine is not effective at all. In the intact cells (thymocytes and the Krebs-II cells were tested), DTS lowers the respiration rate stimulated by low concentrations of SF6846 or FCCP. In this case, serum albumin is not required. It is suggested that recoupling effects of male sex hormones and progesterone are involved in their anabolic action just as uncoupling takes part in the catabolic activity of thyroid hormones.
...
PMID:Regulation of the energy coupling in mitochondria by some steroid and thyroid hormones. 903 Feb 62
