The carbon monoxide- and oxygen-reacting haemoproteins of Streptomyces clavuligerus: cytochrome aa 3 is the predominant terminal oxidase of the respiratory chain

The nature of the carbon monoxide- and oxygen-reacting haemoproteins in the respiratory chain of the filamentous antibiotic-producing bacterium Streptomyces clavuligerus has been investigated. CO-difference (i.e. CO+ reduced minus reduced) spectra of intact cells showed the presence of cytochrome aa ₃, a CO binding b-type cytochrome, and a pigment resembling cytochrome d. In addition, cells that were approaching the end of the growth phase showed the presence of cytochrome P450: this pigment was undetectable in cells harvested early in the growth cycle. High speed centrifugation of cell-free extracts prepared from cells broken by sonication showed that cytochrome aa ₃ was tightly membrane-bound and that cytochrome P450 was soluble. Inhibition of oxygen uptake rates of cells by cyanide indicated that one component, which showed 50% inhibition at 2–4 mM CN^–, was acting as major terminal oxidase: this was observed in cells harvested from all stages of growth. Photodissociation (i. e. photolysed, CO reduced minus CO reduced) spectra at-118°C, in the absence of oxygen, showed cytochrome aa ₃ to be the sole photolysable CO-reacting haemoprotein. At higher temperature (-87°C), in the presence of oxygen, cytochrome aa ₃ formed a complex with oxygen that could not be photolysed by similar intensities of light. By raising the temperature to-43°C, the oxidation of c-type cytochromes was observed. It is concluded that cytochrome aa ₃ is the predominant terminal oxidase in S. clavuligerus and that the other CO reacting haemoproteins, of unknown function, are unlikely to be oxidases.     

The respiratory chain of the facultative thermophile,Bacillus coagulans

Two oxidases were found to be present in membranes from the facultative thermophile Bacillus coagulans grown at 55°C, compared to one in cells grown at 37°C. Cytochrome spectra and inhibitors of the respiratory chain identified them as cytochrome oxidases aa ₃ and d. Both were present in membranes from 55°C grown cells, but only cytochrome oxidase aa ₃ was found in membranes from 37°C grown cells. The presence of cytochrome d in 55°C grown cultures was found to be due to decreased oxygen tension and not to the high growth temperature. This was confirmed by (a) induction of cytochrome d at 37°C under conditions of oxygen limitation and (b) its repression at 55°C under conditions of high aeration and its subsequent induction on lowering the dissolved oxygen concentration in chemostat cultures. Two cytochromes b (_max 558 and _max 562) were present in both 37°C and 55°C grown cells. Results from the inhibition of substrate oxidation by membranes suggested different pathways of electron transport by the respiratory chain.     

The electron transport chain ofStreptomyces erythreus: Possible functions of cytochromeaa 3 and a novel green pigment

The cytochromes of the bacteriumStreptomyces erythreus have been investigated. Membrane-bounda-, b-, andc-type cytochromes were found together with a green pigment, which was found in both a soluble and membrane-bound form. Cells containing the green pigment exhibited cyanide-insensitive oxygen uptake. The CO-binding pigments included cytochromea ₃, ab-type cytochrome, cytochrome P450, and the green pigment. Photodissociation spectra at various low temperatures, in the presence or absence of oxygen, revealed cytochromeaa ₃ to be the predominant cytochrome terminal oxidase. The green pigment was capable of electron transport; the relationship of the pigment to the remainder of the electron transport chain remains to be ascertained.     

Effects of copper concentration in continuous culture on the aa 3-type cytochrome oxidase and respiratory chains of Paracoccus denitrificans

The role(s) of copper in a bacterial cytochrome oxidase of the aa ₃-type was investigated by growth of Paracoccus denitrificans NCIB 8944, in batch and steady state continuous culture, in a medium from which the bulk of the copper had been extracted. In a medium containing approximately 0.02 M copper, cellular copper content, cytochromes a+a ₃ and cytochrome a ₃ were reduced to 55%, 58% and 33% respectively of control values and there were also less marked decreases in cytochromes c+c ₁ (to 85%) and a CO-binding b-type cytochrome, possibly cytochrome o (to 71%). Copper deficiency elicited in reduced minus oxidized difference spectra a shift to shorter wavelengths and narrowing of the band width of the -band of the oxidase, and loss of a (negative) band near 830 nm attributable to Cu_A (the copper functionally associated with haem a in the oxidase complex). The oxidase in copper-deficient cells reacted with oxygen to form the oxy Compound A at rates similar to that in control cells but CO recombination to ferrous haem a ₃ was slowed 4-fold in the copper deficient case. The results are interpreted as indicating loss of Cu_A and changes in the proportions of haems a and a ₃ with retention of catalytic activity. Titrations of respiration rates with antimycin suggested that copper deficiency did not result in diversion of electron flux through an antimycin A-insensitive, cytochrome o-terminated branch of the respiratory chain.     

Cytochrome a1 of Nitrosomonas europaea resembles aa3-type cytochrome c oxidase in many respects

Cytochrome c oxidase of Nitrosomonas europaea has been called cytochrome a₁ by Erickson et al. (Erickson, R.H., Hooper, A.B. and Terry, K.R. (1972) Biochim. Biophys. Acta 283, 155–166) because the reduced form of their preparation had the α peak at 595 nm. In the present studies, the enzyme was purified to an electrophoretically almost homogeneous state and some of its properties were studied. The enzyme much resembled cytochrome aa₃-type oxidase although its reduced form showed the α peak at 597 nm. (1) The absorption spectra of the CO compound of the reduced enzyme and CN⁻ compounds of the oxidized and reduced enzyme were similar to those of the respective compounds of cytochrome aa₃, as well as the absorption spectrum of the intact enzyme resembled that of the cytochrome. (2) The enzyme possessed two molecules of haem a and 1–2 atoms of copper in the molecule. (3) The enzyme molecule was composed of two kinds of subunits of M_r 50000 and 33000, respectively, as are other bacterial cytochromes aa₃. Although the enzyme resembled other bacterial cytochromes aa₃ in many properties, it differed greatly in two properties; its CO compound was easily dissociated into the oxidized enzyme and CO in air, and 50% inhibition of its activity by CN⁻ required approx. 100 μM of the reagent. The enzyme oxidized 0.57, 1.6 and 1.8 mol horse, Candida krusei and N. europaea ferrocytochromes c per s per mol haem a, respectively, in 10 mM phosphate buffer, pH 6.0. The turnover numbers with eukaryotic ferrocytochromes c were increased to 32 and 14, respectively, by addition of cardiolipin (14 μ · ml⁻¹).     

Structural and functional analysis of aa3-type and cbb3-type cytochrome c oxidases of Paracoccus denitrificans reveals significant differences in proton-pump design

In Paracoccusdenitrificans the aa₃-type cytochrome c oxidase and the bb₃-type quinol oxidase have previously been characterized in detail, both biochemically and genetically. Here we report on the isolation of a genomic locus that harbours the gene cluster ccoNOQP, and demonstrate that it encodes an alternative cbb₃-type cytochrome c oxidase. This oxidase has previously been shown to be specifically induced at low oxygen tensions, suggesting that its expression is controlled by an oxygen-sensing mechanism. This view is corroborated by the observation that the ccoNOQP gene cluster is preceded by a gene that encodes an FNR homologue and that its promoter region contains an FNR-binding motif. Biochemical and physiological analyses of a set of oxidase mutants revealed that, at least under the conditions tested, cytochromes aa₃, bb₃. and cbb₃ make up the complete set of terminal oxidases in P. denitrificans. Proton-translocation measurements of these oxidase mutants indicate that all three oxidase types have the capacity to pump protons. Previously, however, we have reported decreased H⁺/e coupling efficiencies of the cbb₃-type     

The respiratory chain of Paramecium tetraurelia in wild type and the mutant Cl1 I. Spectral properties and redox potentials

1. Purified mitochondria have been prepared from wild type Paramecium tetraurelia and from the mutant Cl₁ which lacks cytochrome aa₃. Both mitochondrial preparations are characterized by cyanide insensitivity. Their spectral properties and their redox potentials have been studied.2. Difference spectra (dithionite reduced minus oxidized) of mitochondria from wild type P. tetraurelia at 77 K revealed the α peaks of b-type cytochrome(s) at 553 and 557 nm, of c-type cytochrome at 549 nm and a-type cytochrome at 608 nm. Two α peaks at 549 and 545 nm could be distinguished in the isolated cytochrome c at 77 K. After cytochrome c extraction from wild type mitochondria, a new peak at 551 nm was unmasked, probably belonging to cytochrome c₁. The a-type cytochrome was characterized by a split Soret band with maxima at 441 and 450 nm. The mitochondria of the mutant Cl₁ in exponential phase of growth differed from the wild type mitochondria in that cytochrome aa₃ was absent while twice the quantity of cytochrome b was present. In stationary phase, mitochondria of the mutant were characterized by a new absorption peak at 590 nm.3. Cytochrome aa₃ was present at a concentration of 0.3 nmol/mg protein in wild type mitochondria and ubiquinone at a concentration of 8 nmol/mg protein both in mitochondria of the wild type and the mutant Cl₁. Cytochrome aa₃ was more susceptible to heat than cytochromes b and c,c₁.4. CO difference spectra at 77 K revealed two different Co-cytochrome complexes. The first, found only in wild type mitochondria, was a typical CO-cytochrome a₃ complex characterized by peaks at 596 and 435 nm and troughs at 613 and 450 nm. The second, found both in mitochondria of the wild type and the mutant, was a CO-cytochrome b complex with peaks at 567, 539 and 420 nm and a trough at 558-549 nm. Both complexes are photo-dissociable.5. Spectral evidence was obtained for interaction of cyanide with the a-type cytochrome (shift of the α peak at 77 K from 608 to 605 nm), but not with the b-type cytochrome.6. The mid-point potentials of the different cytochromes at neutral pH are as follows: cytochrome aa₃ 235 and 395 mV, cytochrome c,c₁ 233 mV, cytochromes b 120 mV.     

Deletion of cytochrome c oxidase genes from the cyanobacterium Synechocystis sp. PCC6803: Evidence for alternative respiratory pathways

An oligonucleotide directed against a highly conserved region of aa₃-type cytochrome c oxidases was used to clone the cox genes from the cyanobacterium Synechocystis sp. PCC6803. Several overlapping clones were obtained that contained the coxB, coxA, and coxC genes, transcribed in the same direction in that order, coding for subunits II, I, and III, respectively. The deduced protein sequences of the three subunits showed high sequence similarity with the corresponding subunits of all known aa₃-type cytochrome c oxidases. A 1.94-kb HindII fragment containing most of coxA and about half of coxC was deleted and replaced by a cassette coding for kanamycin resistance. Mutant cells that were homozygous for the deleted cox locus were obtained. They were viable under photoautotrophic and photoheterotrophic conditions, but contained no cytochrome c oxidase activity. Nevertheless, these mutant cells showed almost normal respiration, defined as cyanide-inhibitable O₂ uptake by whole cells in the dark. It is concluded, therefore, that aa₃-type cytochrome c oxidase is not the only terminal respiratory oxidase in Synechocystis sp. PCC6803.Abbreviations CM cytoplasmic membrane - DCMU 3-(3,4-dichlorophenyl)-1,1-dimethylurea - HQNO 2-heptyl-4-hydroxyquinoline N-oxide - ICM intracytoplasmic membranes - SU subunit - TES (N-tris(hydroxymethyl)methyl)-2-aminoethane sulfonic acid     

Respiratory physiology and cytochrome content ofLegionella pneumophila

The cytochrome composition of membrane vesicles ofLegionella pneumophila has been examined by low temperature (77°K) and room temperature difference spectroscopy, and cytochromes of thec, b, a, andd types have been detected. The presence ofc-type cytochrome was verified by formation of the pyridine ferrohemochromogen. A carbon monoxide-bindingc-type cytochrome was detected in CO-reduced minus reduced difference spectra and may also function in cytochromec reductase activity. Respiratory activities were determined for membrane vesicles, and reduced nicotinamide adenine dinucleotide (NADH) was the most rapidly oxidized substrate (199 nmol per min per mg protein), followed by succinate and malate. Cytochrome oxidase activity was demonstrated using ascorbate andN,N,N,N-tetramethyl-p-phenylenediamine (TMPD) (39 nmol per min per mg of protein). High levels of cyanide (K _i =10 mM) inhibited NADH oxidation, while low levels of 2-heptyl-4-hydroxyquinoline-N-oxide (HQNO, 18 and 37 M) inhibited NADH oxidation by nearly 90%. The respiratory chain appeared to be complex and terminated by at least three terminal oxidases. Superoxide dismutase activity, but not catalase activity, was detected in cellular extracts.     

Occurrence of cytochrome aa3 in Anacystis nidulans

The cytochrome content of membrane fragments prepared from the bluegreen alga (cyanobacterium) Anacystis nidulans was examined by difference spectrophotometry. Two b-type cytochromes and a hitherto unknown cytochrome a could be characterized. In the reduced-minus-oxidised difference spectra the a-type cytochrome showed an α-band at 605 nm and a γ-band at 445 nm. These bands shifted to 590 and 430 nm, respectively, in CO difference spectra. NADPH, NADH and ascorbate reduced the cytochrome through added horse heart cytochrome c as electron mediator. In presence of KCN the reduced-minus-oxidised spectrum showed a peak at 600 nm and a trough at 604 nm. Photoaction spectra of O₂ uptake and of horse heart cytochrome c oxidation by CO-inhibited membranes showed peaks at 590 and 430 nm. These findings are consistent with cytochrome aa₃ being the predominant respiratory cytochrome c oxidase in Anacystis nidulans.     

Cytochrome d expression and regulation pattern in free-living Rhizobium phaseoli

The respiratory system of Rhizobium phaseoli CFN42 in free-living cultures was studied. Cytochromes b, c, o and aa ₃ were found in fast growing cells cultured under forced aeration. Stationary aerobic cells, and semianaerobically grown cells showed decreased levels of cytochromes c, aa ₃ and o, concomitant with a significant increase of b type cytochromes and the synthesis of a new cytochrome, tentatively identified as cytochrome d. Cell membranes with the highest content of cytochrome d (semianaerobically grown cells) showed the highest respiratory activities with NADH, succinate, malate or ascorbate-TMPD (N,N,N,N-tetramethyl p-phenylendiamine). In the presence of either of the above electron donors, cytochrome d was clearly reduced. NADH dependent respiration in membranes of fast growing cells (no cytochrome d detected) was abolished by 25 M KCN. This inhibitor concentration caused only 15–20% inhibition in membranes of semianaerobically grown cells (cyt d present). Moreover, in the presence of 1–5 mM KCN, the oxidation of cyt d and a b type cytochromes was spectrally detected. It is suggested that cyt d is a functional cytochrome in the respiratory system of free-living Rhizobia, probably acting as terminal oxidase.     

Cytochromes and hydrogen-oxidizing activity in the thermophilic hydrogen-oxidizing bacteria related to the genus Hydrogenobacter

The highly thermophilic, hydrogen-oxidizing aerobic bacteria related to Hydrogenobacter possess a respiratory chain comprising a quinone and b-type (alpha band at 556 nm and 562 nm) and c-type (alpha band at 552 nm) cytochromes. They have no aa₃-type cytochromes and their terminal oxidase is an o-type cytochrome. A polarographic method with an oxygen electrode was used for the measurement of the hydrogen-oxidizing activity. This activity was strongly inhibited by HQNO (2-N-heptyl-4-hydroxyquinoline N-oxide), an inhibitor of the respiratory chain in the quinone-cytochrome b region, and by KCN, an inhibitor of the terminal cytochrome oxidase. This study shows that the electrons released from hydrogen oxidation by the membrane-bound hydrogenase probably enter the respiratory chain at the level of the quinone-cytochrome b region.Abbreviations HQNO 2-N-heptyl-4-hydroxyquinoline N-oxide - TMPD N,N,N',N'-tetramethyl-p-phenylenediamine - DW dry weight     

Nuclear mutants of Neurospora crassa temperature-sensitive for the synthesis of cytochrome aa3. I. Isolation and preliminary characterization.

Summary Three nuclear mutants of Neurospora crassa, temperature-sensitive for the synthesis of cytochrome aa ₃ have been isolated. When grown at 41°C the mutants have large amounts of KCN-insensitive respiration, reduced amounts of cytochrome aa ₃ and cytochrome c oxidase activity, and grow more slowly than wild-type cultures grown at the same temperature. When the mutants are grown at 23°C, they are virtually indistinguishable from wild-type strains.The mutants were selected on the basis of their slow growth at 41°C in medium containing salicylhydroxamic acid, and by their inability to reduce 2,3,5-triphenyltetrazolium chloride at 41°C. The selection technique was designed to eliminate mutants that did not carry thermolabile electron transport chain components. However, studies on the thermolability of the cytochrome oxidase activity in isolated mitochondria indicate that the enzyme of the mutants is no more susceptible to heat denaturation than is the enzyme in wild-type mitochondria. This suggests that the synthesis or assembly of cytochrome aa ₃ may be altered in the mutants at the restrictive temperature.Supported by National Research Council of Canada Grant Number A-6351Recipient of a National Research Council of Canada Postgraduate Scholarship     

Isolation and purification of the cytochrome oxidase of Azotobacter vinelandii

A membrane-bound cytochrome oxidase from Azobacter vinelandii was purified 20-fold using a detergent-solubilization procedure. Activity was monitored using an ascorbate-TMPD oxidation assay. The oxidase was ‘solubilized’ from a sonic-type electron-transport particle (R₃ fraction) using Triton X-100 and deoxycholate. Low detergent concentrations first solubilized the flavoprotein oxidoreductases, then higher concentrations of Triton X-100 and KCl solubilized the oxidase, which was precipitated at 27–70% (NH₄)₂SO₄. The highly purified cytochrome oxidase has a V of 60–78 μgatom O consumed/min per mg protein. TMPD oxidation by the purified enzyme was inhibited by CO, KCN, NaN₃ and NH₂OH; NaNO₂ (but not NaNO₃) also had a potent inhibitory effect. Spectral analyses revealed two major hemoproteins, the c-type cytochrome c₄ and cytochrome o; cytochromes a₁ and d were not detected. The Azotobacter cytochrome oxidase is an integrated cytochrome c₄?o complex, TMPD-dependent cytochrome oxidase activity being highest in preparations having a high c-type cytochrome content. This TMPD-dependent cytochrome oxidase serves as a major oxygen-activation site for the A. vinelandii respiratory chain. It appears functionally analogous to cytochrome a+a₃ oxidase of mammalian mitochondria.     

Cytochrome aa 3 from Methylococcus capsulatus (Bath)

A cytochrome aa ₃-type oxidase was isolated with and without a c-type cytochrome (cytochrome c-557) from Methylococcus capsulatus Bath by ion-exchange and hydrophobic chromatography in the presence of Triton X-100. Although cytochrome c-557 was not a constitutive component of the terminal oxidase, the cytochrome c ascorbate-TMPD oxidase activity of the enzyme decreased dramatically when the ratio of cytochrome c-557 to heme a dropped below 1:3. On denaturing gels, the purified enzyme dissociated into three subunits with molecular weights of 46,000, 28,000 and 20,000. The enzyme contains two heme groups (a and a ₃), absorption maximum at 422 nm in the resting state, at 445 and 601 nm in the dithionite reduced form and at 434 and 598 nm in the dithionite reduced plus CO form. Denaturing gels of the cytochrome aa ₃-cytochrome c-557 complex showed the polypeptides associated with cytochrome aa ₃ plus a heme c-staining subunit with a molecular weight of 37,000. The complex contains approximately two heme a, one heme c, absorption maximum at 420 nm in the resting state and at 421, 445, 522, 557 and 601 nm in the dithionite reduced form. The specific activity of the purified enzyme was 130 mol O₂/min · mol heme a compared to 753 mol O₂/min · mol heme a when isolated with cytochrome c-557.Abbreviations MMO methan monooxygenase - sMMO soluble methane monooxygenase - pMMO particulate methane monooxygenase - TMPD N,N,N,N-tetramethyl-p-phenylenediamine dihydrochloride - Na₂EDTA disodium ethylenediamine-tetraacetic acid     

Properties of Ascaris muscle mitochondria. I. Cytochromes

1. The cytochrome system in Ascaris muscle mitochondria was further characterized using purer preparations.2. Difference spectra (at 22 °C and ?196 °C) of the mitochondrial preparations using succinate and ascorbate plus N,N,N′,N′-tetramethyl-p-phenylenediamine show that Ascaris muscle mitochondria contain cytochromes c₁, c and aa₃, and also at least three b-type cytochromes. The b-type cytochrome is the predominant component.3. Cytochrome c and Ascaris cytochrome b-560 can be extracted from the mitochondrial preparations with 150 mM KCl, leaving the membrane-bound cytochromes c₁, b and aa₃ in the KCl residue.     

Haem O and a putative cytochrome bo in a mutant of Bacillus cereus impaired in the synthesis of haem A

In a spontaneous mutant (PYM1) of Bacillus cereus impaired in the synthesis of haem A, no haem-A-containing cytochromes were detected spectroscopically. The haem A deficiency was compensated by high levels of haem O and a CO-reactive cytochrome o in membranes; no other oxidases were detected. In contrast, the wild-type strain had considerable amounts of haem A and negligible levels of haem O. The mutant PYM1 exhibited normal colony morphology, growth, and sporulation in nonfermentable media, whereas on fermentable media, the mutant overproduced acid, which led to poor growth and inhibition of sporulation. External control of the pH of the medium in fermentable media allowed close-to-normal growth and massive sporulation of the mutant. The presence of membrane-bound cytochrome caa ₃ -OII and aa ₃ -II subunits in strain PYM1 was confirmed by Western blots and haem C staining (COII subunit). Western blotting also revealed that in contrast to the wild-type – strain PYM1 contained the membrane-bound subunits caa ₃ -COI and aa ₃ -I, but in low amounts. The effect of several respiratory inhibitors on the respiratory system of strain PYM1 suggested that the terminal oxidase is highly resistant to KCN and CO and that a c-type cytochrome might be involved in the electron transfer sequence to the putative cytochrome bo. Received: 21 June 1996 / Accepted: 9 October 1996     

Peculiarities of cyanide binding to the <Emphasis Type="Italic">ba</Emphasis><Subscript>3</Subscript>-type cytochrome oxidase from the thermophilic bacterium <Emphasis Type="Italic">Thermus thermophilus</Emphasis>

Cytochrome c oxidase of the ba ₃-type from Thermus thermophilus does not interact with cyanide in the oxidized state and acquires the ability to bind heme iron ligands only upon reduction. Cyanide complexes of the reduced heme a ₃ in cytochrome ba ₃ and in mitochondrial aa ₃-type cytochrome oxidase are similar spectroscopically, but the a ₃²⁺-CN complex of cytochrome ba ₃ is strikingly tight. Experiments have shown that the K _d value of the cytochrome ba ₃ complex with cyanide in the presence of reductants of the enzyme binuclear center does not exceed 10⁻⁸ M, which is four to five orders of magnitude less than the K _d of the cyanide complex of the reduced heme a ₃ of mitochondrial cytochrome oxidase. The tightness of the cytochrome ba ₃ complex with cyanide is mainly associated with an extremely slow rate of the ligand dissociation (k _off ≤ 10⁻⁷ sec⁻¹), while the rate of binding (k _on ∼ 10² M⁻¹·sec⁻¹) is similar to the rate observed for the mitochondrial cytochrome oxidase. It is proposed that cyanide dissociation from the cytochrome ba ₃ binuclear center might be hindered sterically by the presence of the second ligand molecule in the coordination sphere of Cu_B²⁺. The rate of cyanide binding with the reduced heme a ₃ does not depend on pH in the neutral area, but it approaches linear dependence on H⁺ activity in the alkaline region. Cyanide binding appears to be controlled by protonation of an enzyme group with pK _a = 8.75.     

Terminal Oxidases in Representatives of Different Genera of the Family Microbacteriaceae

The nature of terminal oxidases in representatives of four different genera of the family Microbacteriaceae was studied. It was found that the late-logarithmic and early-stationary cells of all of the investigated strains of the genera Plantibacter and Okibacterium contain the aa ₃-type cytochrome oxidase. Bacteria of the genera Rathayibacter and Agreia synthesize three oxidases, the bb ₃- and aa ₃-type cytochrome oxidases and nonheme cyanide-resistant oxidase, in proportions dependent on the cultivation conditions and the growth phase. Oxygen deficiency in the cultivation medium induces the synthesis of the bd-type oxidase in all of the microorganisms studied. The data obtained provide evidence that the type of terminal oxidases, along with the known chemotaxonomic characteristics, may serve to differentiate the genera of the family Microbacteriaceae at the phenotypic level.     

Orientation and reactivity of cytochrome aa3 heme groups in proteoliposomes

Reduction of cytochrome aa₃ in proteoliposomes with ascorbate plus cytochrome c confirms that not more than 55% of the molecules are externally accessible and that the remainder are reduced only on the addition of membrane-permeable N,N,N′,N′tetramethyl-p-henylenediamine. Reduction in the presence of terminal inhibitors such as cyanide, azide, and carbon monoxide shows that likewise 50% of the cytochrome a is accessible and 50% inaccessible. Dithionite reduces part of the cytochrome a₃ in the presence of azide, and none in the presence of cyanide. Methyl viologen, which is somewhat membrane permeable, can reduce part of the cyanide-complexed cytochrome a₃ at low concentrations and all of it at high concentrations. Cytochrome a₃ is therefore also distributed randomly inside and outside the vesicles. Cytochrome c oxidase with externally facing cytochrome a is stimulated to high activity by its membrane association. Its turnover is dependent on the external pH and it is inhibited by external azide; trapping of azide cannot be used to demonstrate the orientation of the cytochrome a₃ hemes associated with externally facing cytochrome a. Cytochrome c oxidase with internally facing cytochrome a is rather sluggishly reactive. Its low activity accounts for the apparent failure of detergents to release extra activity on lysing proteoliposomes. Double reciprocal plots of the reaction of added cytochrome c with proteoliposomes indicate apparent biphasic binding in the energized state, which is abolished upon the addition of uncouplers and valinomycin. But no transmembraneous effect upon the oxidase reaction other than energization has been identified.