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1.
Proteoliposomes reconstituted from purified cytochrome c oxidase of Pseudomonas AM1 and from a heptyl beta-D-thioglucoside-extract of its membranes showed respiratory control but did not show H+ pumping upon a pulse with reduced cytochrome c. The stoichiometries of respiration-dependent H+ translocation in the resting cells respiring ascorbate via N,N,N',N'-tetramethyl-p-phenylenediamine were measured by the oxygen-pulse and initial rate methods. The apparent H+/O ratio of about 2 was due to 2H+ release from the hydrogen-donating substrate. These results strongly suggested that Pseudomonas AM1 does not pump H+ intrinsically, although the enzyme catalyzes electron transfer across the membranes.  相似文献   

2.
Cytochrome c oxidase from Bacillus subtilis was reconstituted in liposomes and its energy-transducing properties were studied. The reconstitution procedure used included Ca2+-induced fusion of pre-formed membranes. The orientation of the enzyme in liposomes is influenced by the phospholipid composition of the membrane. Negatively charged phospholipids are essential for high oxidase activity and respiratory control. Analyses of the proteoliposomes by gel filtration, density gradient centrifugation and electron microscopy indicated a heterogeneity of the proteoliposomes with respect to size and respiratory control. Cytochrome c oxidase activity in the proteoliposomes resulted in the generation of a proton motive force, internally negative and alkaline. In the presence of the electron donor, ascorbate/N,N,N',N'-tetramethyl-p-phenylenediamine/cytochrome c or ascorbate/phenazine methosulphate, the reconstituted enzyme generated an electrical potential of 84 mV which was increased by the addition of nigericin to 95 mV and a pH gradient of 32 mV which was increased by the addition of valinomycin to 39 mV. Similar results were obtained with beef-heart cytochrome c oxidase reconstituted in liposomes. The maximal proton motive force which could be generated, assuming no endogenous ion leakage, varied over 110-140 mV. From this the efficiency of energy transduction by cytochrome c oxidase was calculated to be 18-23%, indicating that the oxidase is an efficient proton-motive-force-generating system.  相似文献   

3.
Antibodies have been raised in rabbits against whole beef heart cytochrome-c oxidase and purified subunit V. Antioxidase recognizes nearly all the enzyme subunits but reacts very strongly with subunits II and IV. Antisubunit V is quite specific against subunit V. Inhibition of enzyme activity by antioxidase is typically biphasic in time, indicating populations of both rapidly and slowly reacting molecules. Variation of cytochrome c concentration shows partially competitive kinetics, but the antibody also affects "internal" enzymatic events, including the catalytic turnover induced by N,N,N',N'-tetramethyl-p-phenylenediamine alone and the spin-state change in cytochrome a3 that follows reduction of cytochrome a. No spectral effects can be seen however. Antioxidase also inhibits proteoliposomal respiration with external cytochrome c, but not that with internally trapped cytochrome c. No functionally significant epitopes are detectable on the N side of the membrane in proteoliposomes, although some small effects can be seen with submitochondrial particles. Antisubunit V inhibits the isolated enzyme by at least 60%. The inhibition at high ionic strength induces a biphasic pattern with respect to cytochrome c concentration. Antisubunit V may thus slow the dissociation of cytochrome c from its complex with the enzyme. Antisubunit V has only small effects on the activities of proteoliposomal and submitochondrial particle oxidase in either orientation. On subunit V, some sites, the binding of which can give rise to inhibition, are thus not accessible to antisubunit V when the enzyme is embedded in a functional membrane system.  相似文献   

4.
It has been a long-standing hypothesis that the endosymbiotic rhizobia (bacteroids) cope with a concentration of 10 to 20 nM free O2 in legume root nodules by the use of a specialized respiratory electron transport chain terminating with an oxidase that ought to have a high affinity for O2. Previously, we suggested that the microaerobically and anaerobically induced fixNOQP operon of Bradyrhizobium japonicum might code for such a special oxidase. Here we report the biochemical characteristics of this terminal oxidase after a 27-fold enrichment from membranes of anaerobically grown B. japonicum wild-type cells. The purified oxidase has TMPD (N,N,N',N'-tetramethyl-p-phenylenediamine) oxidase activity as well as cytochrome c oxidase activity. N-terminal amino acid sequencing of its major constituent subunits confirmed that presence of the fixN,fixO, and fixP gene products. FixN is a highly hydrophobic, heme B-binding protein. FixO and FixP are membrane-anchored c-type cytochromes (apparent Mrs of 29,000 and 31,000, respectively), as shown by their peroxidase activities in sodium dodecyl sulfate-polyacrylamide gels. All oxidase properties are diagnostic for it to be a member of the cbb3-type subfamily of heme-copper oxidases. The FixP protein was immunologically detectable in membranes isolated from root nodule bacteroids, and 85% of the total cytochrome c oxidase activity in bacteroid membranes was contributed by the cbb3-type oxidase. The Km values for O2 of the purified enzyme and of membranes from different B. japonicum wild-type and mutant strains were determined by a spectrophotometric method with oxygenated soybean leghemoglobin as the sole O2 delivery system. The derived Km value for O2 of the cbb3-type oxidase in membranes was 7 nM, which is six- to eightfold lower than that determined for the aerobic aa3-type cytochrome c oxidase. We conclude that the cbb3-type oxidase supports microaerobic respiration in endosymbiotic bacteroids.  相似文献   

5.
A cytochrome o-type oxidase from the thermophilic bacterium PS3 grown under air-limited conditions was purified by ion-exchange chromatography in the presence of a non-ionic detergent. The enzyme was composed of three subunits (60, 30, and 16 kDa) and seemed to contain two molecules of heme b as prosthetic groups. It contained no detectable copper. The reduced enzyme showed absorption bands at 426 and 558.5 nm, and a characteristic spectral change upon binding CO. It oxidized several cytochromes c and artificial dyes such as N,N,N',N'-tetramethyl-p-phenylenediamine and phenazonium methosulfate at appreciable rates. Its Km for O2 was low (0.09 microM). It was capable of transmembrane electron transfer, because when reconstituted into liposomes, it generated a membrane potential upon oxidation without pumping protons.  相似文献   

6.
Cell suspensions of Campylobacter fetus subsp. intestinalis grown microaerophilically in complex media consumed oxygen in the presence of formate, succinate, and DL-lactate, and membranes had the corresponding dehydrogenase activities. The cells and membranes also had ascorbate-N,N,N',N'-tetramethyl-p-phenylenediamine oxidase activity which was cyanide sensitive. The fumarate reductase activity in the membranes was inhibited by p-chloromercuriphenylsulfonate, and this enzyme was probably responsible for the succinate dehydrogenase activity. Cytochrome c was predominant in the membranes, and a major proportion of this pigment exhibited a carbon monoxide-binding spectrum. Approximately 60% of the total membrane cytochrome c, measured with dithionite as the reductant, was also reduced by ascorbate-N,N,N',N'-tetramethyl-p-phenylenediamine. A similar proportion of the membrane cytochrome c was reduced by succinate under anaerobic conditions, whereas formate reduced more than 90% of the total cytochrome under these conditions. 2-Heptyl-4-hydroxyquinoline-N-oxide inhibited reduction of cytochrome c with succinate, and the reduced spectrum of cytochrome b became evident. The inhibitor delayed reduction of cytochrome c with formate, but the final level of reduction was unaffected. We conclude that the respiratory chain includes low- and high-potential forms of cytochromes c and b; the carbon monoxide-binding form of cytochrome c might function as a terminal oxidase.  相似文献   

7.
The cytochrome d terminal oxidase complex is one of two terminal oxidases in the aerobic respiratory chain of Escherichia coli. Previous work has shown by dodecyl sulfate-polyacrylamide gel electrophoresis that this enzyme contains two subunits (I and II) and three cytochrome components, b558 , a1, and d. Reconstitution studies have demonstrated that the enzyme functions as a ubiquinol-8 oxidase and catalyzes an electrogenic reaction, i.e. turnover is accompanied by a charge separation across the membrane bilayer. In this paper, monoclonal and polyclonal antibodies were used to obtain structural information about the cytochrome d complex. It is shown that antibodies directed against subunit I effectively inhibit ubiquinol-1 oxidation by the purified enzyme in detergent, whereas antibodies which bind to subunit II have no effect on quinol oxidation. The oxidation rate of N,N,N',N'-tetramethyl-p-phenylenediamine, in contrast, is unaffected by antisubunit I antibodies, but is inhibited by antibodies against subunit II. It is concluded that the quinol oxidation site is on subunit I, previously shown to be the cytochrome b558 component of the complex, and that N,N,N',N'-tetramethyl-p-phenylenediamine oxidation occurs at a secondary site on subunit II. The antibodies were also used to analyze the results of a protein cross-linking experiment. Dimethyl suberimidate was used to cross-link the subunits of purified, solubilized oxidase. Immunoblot analysis of the products of this cross-linking clearly indicate that subunit II probably exists as a dimer within the complex. Finally, it is shown that the purified enzyme contains tightly bound lipopolysaccharide. This was revealed after discovering that one of the monoclonal antibodies raised against the purified complex is actually directed against lipopolysaccharide. The significance of this finding is not known.  相似文献   

8.
A prokaryotic biotin acceptor domain was fused to the carboxy terminal end of the Chlorella hexose—proton sym- porter. The plant symporter is biotinylated in vivo when expressed in Schizosaccharomyces pombe. The extended biotinylated transport protein is fully active, catalyzes accumulation of d -glucose analogs and restores growth of a glucose-uptake-deficient yeast strain. Crude membranes were solubilized with octyl-β-d -glucoside in the presence of Escherichia colil -α-phosphatidylethanolamine. Biotinylated symporter was purified to homogeneity by biotinavidin affinity chromatography. The symporter protein was reconstituted together with cytochrome-c oxidase prepared from beef heart mitochondria into proteo-liposomes. Cytochrome-c oxidase is a redox-driven H+-pump generating a proton motive force (inside negative and alkaline) while transferring electrons from cytochrome-c to oxygen; this energy is used by the symporter to accumulate d -glucose at least 30-fold. In the absence of the driving force the transport protein facilitates diffusion of d -glucose until the concentration equilibrium is reached. It was shown that maximal transport activity depends highly on the amount of co-reconstituted cytochrome-c oxidase and that the symporter possesses 10% of its in vivo turnover number under optimized in vitro transport conditions.  相似文献   

9.
The isolated membranes from an Escherichia coli mutant strain which lacks spectroscopically detectable levels of cytochromes d, a1, and b558 also have abnormally low levels of N,N,N',N'-tetramethyl-p-phenylenediamine oxidase activity. In this paper, it is shown that the material previously identified as the N,N,N',N'-tetramethyl-p-phenylenediamine oxidase is, in fact, the two-subunit cytochrome d complex. Antisera directed against the native cytochrome d complex as well as against each of two subunits apparent on sodium dodecyl sulfate-polyacrylamide gels were used to show that the mutant strain lacks both subunits of the cytochrome d complex. Introduction of F-prime F152 into the mutant strain restored the two subunits along with the spectroscopic and enzymatic activity associated with the cytochrome d complex.  相似文献   

10.
Purified cytochrome c oxidase was reconstituted into phospholipid vesicles having high internal pH buffering capacity. In the presence of valinomycin, 2 K+ ions were taken up by the vesicles per electron transferred from cytochrome c to oxygen. The charge stoichiometry of 2 was obtained from simultaneous measurement of changes of K+, H+, and oxygen in the medium after addition of the reductant ascorbate/TMPD (N,N,N',N'-tetramethyl-p-phenylenediamine). The changes in oxygen concentration were measured with a fast responding oxygen electrode (90% response time, 0.4 s). The existence of a proton pump in cytochrome c oxidase could thus be confirmed, and its charge stoichiometry measured, in a reconstituted system uncomplicated by other respiratory chain components.  相似文献   

11.
Kinetic characterization of cytochrome c oxidase from Bacillus subtilis   总被引:2,自引:0,他引:2  
Bacillus subtilis aa3-type cytochrome c oxidase is capable of oxidizing cytochrome c from different origins. The kinetic properties of the enzyme are influenced by ionic strength. The affinity for Saccharomyces cerevisiae cytochrome c declines with increasing ionic strength whereas the Vmax remains almost constant. An increase of Vmax is observed when the enzyme is incorporated in artificial membranes. Negatively charged phospholipids allow high turnover rates of the aa3-type oxidase. The effect of ionic strength on oxidation of horse heart cytochrome c results in significant changes of both Km and Vmax. These effects can be explained by disturbances of enzyme-substrate interactions and are not related to changes in the aggregation state of the enzyme. The respiration control index of the enzyme reconstituted in artificial membranes appeared to be dependent on phospholipid composition, protein/lipid ratios and also on the external pH. The action of the ionophores nigericin and valinomycin, at various pH values, on the enzyme activity and proton-permeability measurements of the membranes indicate that both components of the proton-motive force, the membrane potential and the pH gradient, can in principle regulate enzyme activity in the reconstituted state.  相似文献   

12.
Ubiquinol-oxidizing activity was detected in an acidophilic chemolithotrophic iron-oxidizing bacterium, T. ferrooxidans. The ubiquinol oxidase was purified 79-fold from plasma membranes of T. ferrooxidans NASF-1 cells. The purified oxidase is composed of two polypeptides with apparent molecular masses of 32,600 and 50,100 Da, as measured by gel electrophoresis in the presence of sodium dodecyl sulfate. The absorption spectrum of the reduced enzyme at room temperature showed big peaks at 530 and 563, and a small broad peak at 635 nm, indicating the involvement of cytochromes b and d. Characteristic peaks of cytochromes a and c were not observed in the spectrum at around 600 and 550 nm, respectively. This enzyme combined with CO, and its CO-reduced minus reduced difference spectrum showed peaks at 409 nm and 563 nm and a trough at 431 nm. These results indicated that the oxidase contained cytochrome b, but the involvement of cytochrome d was not clear. The enzyme catalyzed the oxidations of ubiquinol-2 and reduced N,N,N',N'-tetramethyl-p-phenylenediamine dihydrochloride. The ubiquinol oxidase activity was activated by the addition of albumin and lecithin to the reaction mixture and inhibited by the respiratory inhibitors KCN, HQNO, NaN3, and antimycin A1, although the enzyme was relatively resistant to KCN, and the divalent cation, Zn2+, compared with ubiquinol oxidases of E. coli.  相似文献   

13.
It was possible to quantitate the terminal oxidase(s) reaction using bacterial resting-cell suspensions and demonstrate the usefulness of this reaction for taxonomic purposes. Resting-cell suspensions of physiologically diverse bacteria were examined for their capabilities of oxidizing N,N,N',N'-tetramethyl-p-phenylenediamine (TMPD) using a manometric assay. For organisms having this capability, it was possible to calculate the conventional TMPD oxidase Q(O2) value (microliters of O2 consumed per hour per milligram [dry weight]). All cultures were grown heterotrophically at 30 C, under identical nutritional conditions, and were harvested at the late-logarithmic growth phase. The TMPD oxidase Q(O2) values showed perfect correlation with the Kovacs oxidase test and, in addition, it was possible to define quantitatively that point which separated oxidase-positive from oxidase-negative bacteria. Oxidase-negative bacteria exhibited a TMPD oxidase Q(O2) value (after correcting for the endogenous by substraction) of less than or equal 33 and had an uncorrected TMPD/endogenous ratio of less than or equal 5. The TMPD oxidase Q(O2) values were also correlated with the data obtained for the Hugh-Leifson Oxferm test. In general, bacteria that exhibited a respiratory mechanism had high TMPD oxidase values, whereas fermentative organsims had low TMPD oxidase activity. All exceptions to this are noted. This quantitative study also demonstrated that organisms that (i) lack a type c cytochrome, or (ii) lack a cytochrome-containing electron transport system, like the lactic acid bacteria, exhibited low or negligible TMPD oxidase Q(O2) values. From the 79 bacterial species (36 genera) examined, it appears that this quantitative oxidase test has taxonomic value that can differentiate the oxidative relationships between bacteria at the subspecies, species, and genera levels.  相似文献   

14.
It was possible to quantitate the terminal oxidase(s) reaction using bacterial resting-cell suspensions and demonstrate the usefulness of this reaction for taxonomic purposes. Resting-cell suspensions of physiologically diverse bacteria were examined for their capabilities of oxidizing N,N,N',N'-tetramethyl-p-phenylenediamine (TMPD) using a manometric assay. For organisms having this capability, it was possible to calculate the conventional TMPD oxidase Q(O2) value (microliters of O2 consumed per hour per milligram [dry weight]). All cultures were grown heterotrophically at 30 C, under identical nutritional conditions, and were harvested at the late-logarithmic growth phase. The TMPD oxidase Q(O2) values showed perfect correlation with the Kovacs oxidase test and, in addition, it was possible to define quantitatively that point which separated oxidase-positive from oxidase-negative bacteria. Oxidase-negative bacteria exhibited a TMPD oxidase Q(O2) value (after correcting for the endogenous by substraction) of less than or equal 33 and had an uncorrected TMPD/endogenous ratio of less than or equal 5. The TMPD oxidase Q(O2) values were also correlated with the data obtained for the Hugh-Leifson Oxferm test. In general, bacteria that exhibited a respiratory mechanism had high TMPD oxidase values, whereas fermentative organsims had low TMPD oxidase activity. All exceptions to this are noted. This quantitative study also demonstrated that organisms that (i) lack a type c cytochrome, or (ii) lack a cytochrome-containing electron transport system, like the lactic acid bacteria, exhibited low or negligible TMPD oxidase Q(O2) values. From the 79 bacterial species (36 genera) examined, it appears that this quantitative oxidase test has taxonomic value that can differentiate the oxidative relationships between bacteria at the subspecies, species, and genera levels.  相似文献   

15.
The caa3-type terminal oxidase of Bacillus firmus OF4 has been proposed to play an important role in the growth and bioenergetics of this alkaliphile (A. A. Guffanti and T. A. Krulwich, J. Biol. Chem. 267:9580-9588, 1992). A mutant strain was generated in which the cta operon encoding the oxidase was disrupted by insertion of a spectinomycin resistance cassette. The mutant was unable to oxidize ascorbate in the presence of N,N,N',N'-tetramethyl-p-phenylenediamine (TMPD). Absorption spectra of membranes confirmed the loss of the enzyme and indicated the presence of a cytochrome bd-type terminal oxidase. The mutant could grow on glucose but was unable to grow on malate or other nonfermentative carbon sources, despite the presence of the cytochrome bd. The cytochrome bd was purified from the mutant. The enzyme consisted of two subunits and, with menadiol as substrate, consumed oxygen with a specific activity of 12 micromol of O2 x min(-1) x mg(-1). In contrast to both cytochromes bd of Escherichia coli, the enzyme did not utilize TMPD as an electron source. A number of additional features, including subunit size and spectral properties, distinguish this cytochrome bd from its counterparts in E. coli and Azotobacter vinelandii.  相似文献   

16.
The oxidase cho of Methylobacillus flagellatus KT was purified to homogeneity by nondenaturing gel electrophoresis, and the kinetic properties and substrate specificity of the enzyme were studied. Ascorbate and ascorbate/N,N,N',N'-tetramethyl-p-phenylenediamine (TMPD) were oxidized by cbo with a pH optimum of 8.3. When TMPD served as electron donor for the oxidase cho, the optimal pH (7.0 to 7.6) was determined from the difference between respiration rates in the presence of ascorbate/TMPD and of only ascorbate. The kinetic constants, determined at pH 7.0, were as follows: oxidation by the enzyme of reduced TMPD at pH 7.0 was characterized by KM = 0.86 mM and Vmax = 1.1 mumol O2/(min mg protein), and oxidation of reduced cytochrome c from horse heart was characterized by KM = 0.09 mM and Vmax = 0.9 mumol O2/(min mg protein) Cyanide inhibited ascorbate/TMPD oxidase activity (Ki = 4.5-5.0 microM). The soluble cytochrome cH (12 kDa) partially purified from M. flagellatus KT was found to serve as the natural electron donor for the oxidase cbo.  相似文献   

17.
Substrate kinetic properties of cytochrome oxidase in rat liver, kidney, brain and heart mitochondria were examined using ascorbate + N,N,N',N'-tetramethyl-p-phenylenediamine (TMPD) as the electron donor system. Analysis of the substrate kinetics data revealed tissue-specific expression of kinetic components exhibiting differences with respect to Km, Vmax and Kcat/Km values. Regression analysis data suggest that the enzyme activity may be regulated in a tissue-specific manner.  相似文献   

18.
Galactose transport was studied in membrane vesicles, prepared by fusion of plasma membranes from the yeast Kluyveromyces marxianus with proteoliposomes containing beef heart cytochrome c oxidase as a proton-motive force-generating system. Sugar transport studies performed under nonenergized conditions revealed that, even at high protein to phospholipid ratios, not all vesicles contained a D-galactose-specific transporter. The amount of vesicles containing an active carrier proved to be proportional to the amount of plasma membrane protein present in the fusion mixture. By addition of a suitable electron donor system a proton-motive force of -160 mV could be generated, inside alkaline and negative. Moreover, D-galactose accumulation was observed. It was found that D-galactose accumulation was highly dependent on the phospholipid composition of the vesicles, whereas generation of a proton-motive force was not. Best results were obtained with vesicles prepared with Escherichia coli phospholipid, giving a galactose accumulation of 14 times. Uphill transport could be established under conditions where only the pH gradient or the electrical gradient was present. Moreover, kinetic analysis of the galactose transport activity in energized vesicles revealed influx with a Km value of 540 microM, which is in good agreement with the apparent affinity constant obtained with whole cells. These results establish that galactose transport of K. marxianus is a proton-motive force-driven process. Moreover it demonstrates that plasma membrane vesicles co-reconstituted with cytochrome c oxidase are a valuable resource for the analysis of proton-motive force-driven sugar transport systems of yeast.  相似文献   

19.
Cytochrome c-oxidase type aa3 (EC 1.9.3.1) was purified to homogeneity from vegetative Bacillus cereus by ion-exchange and hydroxylapatite chromatography in the presence of Triton X-100. Gel filtration analysis suggested a dimeric structure apparently 172 kDa in size; however, only a monomer of 81 kDa was detected when analysed by non-denaturing gel electrophoresis. Denaturing gel electrophoresis analysis of the protein showed the presence of two subunits (51 and 30 kDa). Atomic absorption and visible spectroscopy showed typical aa3 redox centres with haem a iron and copper in a ratio of 22 nmol and 35 ng-atom per mg protein, respectively. No haem c was found associated with the purified enzyme in the conditions reported here. Oxidase activity was fully reconstituted by phospholipids in the presence of N,N,N',N'-tetramethyl-p-phenylenediamine or reduced yeast cytochrome c (but not horse cytochrome c) as electron donors. This activity was abolished by cyanide and carbon monoxide.  相似文献   

20.
Maximum growth of Campylobacter fetus subsp. jejuni, strain C-61, occurred when the cultures were incubated with shaking in atmospheres containing approximately 30% hydrogen, 5% oxygen, and 10% CO2. Suspensions of cells grown under these conditions consumed oxygen with formate as the substrate in the presence of 0.33 mM cyanide, which completely inhibited respiration with ascorbate-N,N,N',N'-tetramethyl-p-phenylenediamine and with lactate. Spectroscopic evidence with intact cells suggested that a form of cytochrome c, reducible with formate but not with lactate or ascorbate-N,N,N',N'-tetramethyl-p-phenylenediamine, can be reoxidized by a cyanide-insensitive system. Analysis of membranes from the cells showed high- and low-potential forms of cytochrome c, cytochrome b, and various enzymes, including hydrogenase, formate dehydrogenase, and fumarate reductase. The predominant carbon monoxide-binding pigment appeared to be a form of cytochrome c, but the spectra also showed evidence of cytochrome o. The membrane cytochromes were reduced by hydrogen in the presence of 2-heptyl-4-hydroxyquinoline-N-oxide at concentrations which prevented the reduction of cytochrome c with succinate as the electron donor. Reoxidation of the substrate-reduced cytochromes by oxygen was apparently mediated by cyanide-sensitive and cyanide-insensitive systems. The membranes also had hydrogen-fumarate oxidoreductase activity mediated by cytochrome b. We conclude that C. fetus jejuni has high- and low-potential forms of cytochrome which are associated with a complex terminal oxidase system.  相似文献   

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