13th International Congress of Biochemistry

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 Cu_A 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.     

Efficiency of insecticidal crystal protein production in a Bacillus thuringiensis mutant with derepressed expression of the terminal oxidase aa 3 during sporulation

A Bacillus thuringiensis respiratory mutant (AB1 strain) that shows premature sporulation and insecticidal crystal protein (ICP) production was isolated. The mutant strain harbours the cryIC and cryID insecticidal genes and could be important for the production of ICP highly toxic to Spodoptera sp. The mutant was selected by its increased capacity to oxidize. N,N,N',N'-tetramethyl-p-phenylenediamine (TMPD). In this strain, cytochrome aa ₃ expression is not repressed during the sporulation phase, in contrast with the wild-type strain. The growth, spore production, dissolved O₂, O₂ consumption, CO₂ evolution rate and ICP production were recorded as a function of time. The AB1 mutant strain has a similar growth yield to the wild-type strain, but begins sporulation at least 4 h earlier. The AB1 strain consumes 74.5% more O₂ than the wild-type strain, during the fermentation process. The mutation on strain AB1 has an important positive effect on ICP production. This procedure shows that ICP production could be increased during fermentation by increasing the respiration capacity of Bacillus thuringiensis. Correspondence to: A. Bravo     

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 cytochrome composition of the meat spoilage bacterium Brochothrix thermosphacta: identification of cytochrome a 3- and d-type terminal oxidases under various conditions

Brochothrix thermosphacta, grown in batch culture in a yeast-dextrose broth, at temperatures from 30 °C to 10 °C, contained diverse membrane-bound respiratory cytochromes. Under conditions of moderate aeration, cytochromes of the a-, b- and d-type were detected at all growth temperatures, but the proportions changed as a function of temperature, with the spectra of cells grown at 10 or 15 °C being dominated by a-type cytochrome(s). Cytochrome a ₃ was detected by its reactions with CO and cyanide in cells from all growth conditions. An additional cytochrome a, which was not cyanide-reactive, was also detected, suggesting the presence of an aa ₃ oxidase complex. Cytochrome d was cyanide- and CO-reactive, but not detectable in photodissociation spectra, presumably because of the very rapid recombination of CO at the sub-zero temperatures used. Decreasing the oxygen transfer rates to batch cultures resulted in enhanced expression of cytochrome d and changed the proportion of the aa ₃-type oxidase that could be attributed to ligand-binding cytochrome a ₃; at the lowest oxygen transfer rates, no cytochrome a was detected, suggesting the presence of a cytochrome ba ₃ terminal oxidase complex. Intact cells showed no evidence of a c-type cytochrome and no haem C was detected in membrane preparations. After growth at 10°C, the cytochrome composition of B. campestris was essentially identical to that of B. thermosphacta. The multiplicity of putative terminal oxidases in B. thermosphacta is discussed.     

Site-directed mutagenesis of a phenylalanine residue strictly conserved in cytochromes c 3

 Reduction of the haems in tetrahaem cytochromes c ₃ is a cooperative process, i.e., reduction of each of the haems depends on the redox states of the other haems. Furthermore, electron transfer is coupled to proton transfer (redox-Bohr effect). Two of its haems and a strictly conserved nearby phenylalanine residue, F20, in Desulfovibrio vulgaris (Hildenborough) cytochrome c ₃ form a structural motif that is present in all cytochromes c ₃ and also in cytochrome c oxidase. A putative role for this phenylalanine residue in the cooperativity of haem reduction was investigated. Therefore, this phenylalanine was replaced, with genetic techniques, by isoleucine and tyrosine in D. vulgaris (Hildenborough) cytochrome c ₃. Cyclic voltammetry studies revealed a small increase (30 mV) in one of the macroscopic redox potentials in the mutated cytochromes. EPR showed that the main alterations occurred in the vicinity of haem I, the haem closest to residue 20 and one of the haems responsible for positive cooperativities in electron transfer of D. vulgaris cytochrome c ₃. NMR studies of F20I cytochrome c ₃ demonstrated that the haem core architecture is maintained and that the more affected haem proton groups are those near the mutation site. NMR redox titrations of this mutated protein gave evidence for only small changes in the relative redox potentials of the haems. However, electron/electron and proton/electron cooperativity are maintained, indicating that this aromatic residue has no essential role in these processes. Furthermore, chemical modification of the N-terminal amino group of cytochrome c ₃ backbone, which is also very close to haem I, had no effect on the network of cooperativities. Received: 25 June 1996 / Accepted: 26 August 1996     

Structure of the three-haem core of cytochrome c 551.5 determined by 1H NMR

 The trihaem cytochrome c _551.5, formerly known as cytochrome c ₇, from the organism Desulfuromonas acetoxidans, has been studied in the reduced state by 2D proton NMR. The haem proton resonances were assigned, and several nuclear Overhauser enhancements (NOEs) between resonances arising from different haems were detected and assigned. The relative orientations of the three haems were calculated by fitting both the intensities of the interhaem NOEs and the magnitudes of the ring current shifts of the haem resonances, following the strategy previously used by the authors to reassess the X-ray structure of the haem core in tetrahaem cytochrome c ₃ from Desulfumicrobium baculatum. It is concluded that, although the comparison of the protein sequence with those of the tetrahaem cytochromes c ₃ shows that in cytochrome c _551.5 about 40% of the sequence is deleted, including the region involved in the attachment of the second of the four haems, this does not induce any significant rearrangement of the remaining three haems other than a slight decrease in the iron-iron distance between two of the haems, namely those corresponding to haems I and IV of cytochrome c ₃. Received: 2 February 1996 / Accepted: 26 March 1996     

An alternate respiratory pathway in Candida albicans

Usual concentrations of antimycin A, rotenone and EDTA, individally 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 cytochromecomplete 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.This work was supported by Public Health Service Graduate Dental Training Grant DE 00144 and the Graduate School and the Department of Microbiology, Southern Illinois University.     

Formation of several bacterial c-type cytochromes requires a novel membrane-anchored protein that faces the periplasm

We report here the discovery of a novel bacterial gene (cycH) whose product is involved in the biogenesis of most of the cellular cytochromes c. The cycH gene was detected in the course of characterizing a cytochrome oxidase-deficient Bradyrhizobium japonicum Tn5 mutant (strain CO×3) in which the transposon insertion disrupted cycH. Ali of the c-type cytochromes detectable in aerobically grown B. Japonicum wild-type cells were absent in the C0X3 mutant, with the exception of cytochrome c₁. A secondary phenotypic effect was the spectroscopic absence of the aa₃-type cytochrome c oxidase. The nucleotide sequence of the cloned wild-type cycH gene predicted a membrane-bound 369-amino-acid protein with an M_r of 39727. Results from studies on its membrane topology suggested that approximately 110 N-terminal amino acids are involved in anchoring the protein in the membrane, whereas the remaining two-thirds of the protein are exposed to the periplasm. We postulate that the CycH protein plays an essential role in an as yet unidentified periplasmic step in the biogenesis of holocytochromes c, except that of cytochrome c₁.     

Rhizobium phaseoli cytochrome c-deficient mutant induces empty nodules on Phaseolus vulgaris L.

A Rhizobium phaseoli cytochrome mutant, unable to oxidize N,N,N′,N′ -tetramethyl-p-phenylend(amine (TMPD), was isolated after Mu-dl (Kan lac) mutagenesis of the wild-type strain CE-3. Mutant strain CFN4202 had sixfold less haem-c but similar levels of b type, o and aa₃ cytochromes than the wild-type strain. CFN402 strain also showed reduced NADH- and TMPD-oxidase activity than the wild-type strain. Succinate-oxidase activities were very similar. Western blot experiments, using antiserum against bovine c₁ and c cytochromes, revealed that both proteins were present in CFN4202 membranes, suggesting a defect of haem binding to cytochrome c. Nodules formed by this strain in Phaseolus vulgaris did not contain bacteroids. These data suggest that the cytochrome c-aa₃ chain or some other respiratory chain, containing c-type cytochromes in R. phaseoli, is essential for bacterial division during the early steps of the symbiotic interaction with the legume-host.     

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.     

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     

Electron and proton transfer in the <Emphasis Type="Italic">ba</Emphasis><Subscript>3</Subscript> oxidase from <Emphasis Type="Italic">Thermus thermophilus</Emphasis>

The ba ₃-type cytochrome c oxidase from Thermus thermophilus is phylogenetically very distant from the aa ₃–type cytochrome c oxidases. Nevertheless, both types of oxidases have the same number of redox-active metal sites and the reduction of O₂ to water is catalysed at a haem a ₃-Cu_B catalytic site. The three-dimensional structure of the ba ₃ oxidase reveals three possible proton-conducting pathways showing very low homology compared to those of the mitochondrial, Rhodobacter sphaeroides and Paracoccus denitrificans aa ₃ oxidases. In this study we investigated the oxidative part of the catalytic cycle of the ba ₃ -cytochrome c oxidase using the flow-flash method. After flash-induced dissociation of CO from the fully reduced enzyme in the presence of oxygen we observed rapid oxidation of cytochrome b (k ≅ 6.8 × 10⁴ s⁻¹) and formation of the peroxy (P_R) intermediate. In the next step a proton was taken up from solution with a rate constant of ~1.7 × 10⁴ s⁻¹, associated with formation of the ferryl (F) intermediate, simultaneous with transient reduction of haem b. Finally, the enzyme was oxidized with a rate constant of ~1,100 s⁻¹, accompanied by additional proton uptake. The total proton uptake stoichiometry in the oxidative part of the catalytic cycle was ~1.5 protons per enzyme molecule. The results support the earlier proposal that the P_R and F intermediate spectra are similar (Siletsky et al. Biochim Biophys Acta 1767:138, 2007) and show that even though the architecture of the proton-conducting pathways is different in the ba ₃ oxidases, the proton-uptake reactions occur over the same time scales as in the aa ₃-type oxidases. Smirnova and Zaslavsky contributed equally to the work described in this paper.     

Genes for a second terminal oxidase in Bradyrhizobium japonicum

Bradyrhizobium japonicum possesses a mitochondria-like respiratory chain terminating with an aa ₃-type cytochrome c oxidase. The gene for subunit I of this enzyme (coxA) had been identified and cloned previously via heterologous hybridization using a Paracoccus denitrificans DNA probe. In the course of these studies, another B. japonicum DNA region was discovered which apparently encoded a second terminal oxidase that was different from cytochrome aa ₃ but also belonged to the superfamily of heme/copper oxidases. Nucleotide sequence analysis revealed a cluster of at least four genes, coxMNOP, organized most probably in an operon. The predicted coxM gene product shared significant similarity with subunit II of cytochrome c oxidases from other organisms: in particular, all of the proposed Cu_A ligands were conserved as well as three of the four acidic amino acid residues that might be involved in the binding of cytochrome c. The coxN gene encoded a polypeptide with about 40% sequence identity with subunit I representatives including the previously found CoxA protein: the six presumed histidine ligands of the prosthetic groups (two hemes and Cu_B) were strictly conserved. A remarkable feature of the DNA seqence was the presence of two genes, coxO and coxP, whose products were both homologous to subunit III proteins. A B.japonicum coxN mutant strain was created by marker exchange mutagenesis which, however, exhibited no obvious defects in free-living, aerobic growth or in root nodule symbiosis with soybean. This shows that the coxMNOP genes are not essential for respiration in the N₂ fixing bacteroid.Abbreviations ORF open reading frame - TMPD N,N,N',N'-tetramethyl-p-phenylenediamine     

Toxic and mutagenic effects of carcinogens on the mitochondria of Saccharomyces cerevisiae.

Summary Nineteen haploid yeast (Saccharomyces cerevisiae) strains were used to assess the relative growth inhibitory potencies on fermentable vs. non-fermentable media of a collection of carcinogenic and noncarcinogenic chemicals. The majority of carcinogens were distinctly more potent on the non-fermentable (glycerol) medium, where mitochondrial function is required for growth, than on the fermentable medium, where it is not. The anti-mitochondrial selectivity indicated by these growth tests was much slighter for the non-carcinogens. Similarly most carcinogens induced the cytoplasmic petite mutation whereas the non-carcinogens did not.Five carcinogens which were tested impaired the development of cytochromes aa ₃ and b in glucose cultures.Six carcinogens, when tested, inhibited growth on three fermentable sugars, the utilisation of which requires mitochondrial function.Out of five carcinogens which were examined, four suppressed the surface-dependent phenomenon of flocculence in a flocculating strain of yeast, at concentrations primarily affecting the mitochondrial system; the fifth had a similar but less pronounced effect.     

Genetic interactions in the control of mitochondrial functions in Paramecium

Summary The genetic and physiological properties of two nuclear mutants of Parameccium tetraurelia affecting mitochondrial properties, and first screened as resistant to tetrazolium (TTC) are described. The mutant TTC _64-1 ^R is strongly deficient in cytochrome c and the mutant TTC _66p ^R is partially deficient in cytochrome aa₃; both mutants display cyanide insensitive respiration in exponential growth phase. In the double mutant TTC _64-1 ^R -TTC _66p ^R /TTC _64-1 ^R -TTC _66p ^R the deficiency in cytochrome aa₃ due to the TTC _64-1 ^R mutation is suppressed. The mutation TTC _64-1 ^R does not suppress cytochrome aa₃ deficiencies due to mitochondrial mutations, but does interact with another nuclear mutation, cl ₁, (compatible only with mitochondria deficient in cytochrome oxidase) in such a way that the double mutant TTC _64-1 ^R -cl ₁/TTC _64-1 ^R -cl ₁ displays a normal amount of cytochrome aa₃. The possible mechanisms and physiological significance of these suppressive effects are discussed.Abbreviations TTC^R/TTC^S resistant/sensitive to tetrazolium - KCN^R/KCN^S cyanide insensitive/sensitive respiration - aa ₃ ^- /aa ₃ ⁺ deficient/normal amount of cytochrome aa₃ - c^-/c⁺ deficient/normal amount of cytochrome c     

Nuclear and mitochondr1al DNA synthesis during yeast sporulation

Nuclear and mitochondrial DNA synthesis during sporulation of Saccharomyces cerevisiae has been studied in a wild-type (aα) strain and 3 sporulation deficient strains. We find that in a strain carrying a dominant mutation which prevents sporulation, nuclear DNA synthesis is initiated but not completed; mitochondrial DNA synthesis, on the other hand, does take place. In aa and αα diploids no initiation of nuclear DNA synthesis is seen to occur, and only a very low level of mitochondrial DNA synthesis is observed. We conclude that mitochondrial DNA synthesis in sporulation medium is uncoupled from nuclear DNA synthesis. In addition, the steps at which the sporulation process is arrested in aa and αα cells and in the dominant mutant can be ordered in time as being before and after the initiation of nuclear DNA synthesis.     

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     

A regulatory system controlling the production of cytochrome aa3 in Neurospora crassa

Summary The mitochondria of the cyt-2-1, cya-3-16, cya-4-23 and 299-1 nuclear mutants and the [mi-3] and [exn-5] cytoplasmic mutants of Neurospora crassa are deficient in cytochrome aa ₃, while the cyb-1-1 and cyb-2-1 mutants have mitochondrial b-cytochrome dificiencies. However, the mitochondria from cyb-1-1 cyt-2-1, cyb-1-1 [mi-3] and cyb-2-1 [mi-3] double mutants contain 30% to 50% of the amount of cytochrome aa ₃ that is present in mitochondria from wild-type; i.e. cyb-1-1 and cyb-2-2 act as suppressors of the cytochrome aa ₃ deficiency phenotypes that are associated with the cyt-2-1 and [mi-3] mutations.The production of cytochrome aa ₃ can be induced in cyt-2-1 and [mi-3] by growing cells in medium containing antimycin A, an inhibitor of electron transport in the cytochrome bc ₁ segment of the mitochondrial electrontransport chain. Moreover, the growth of the [mi-3] mutant is strongly stimulated by low concentrations of antimycin A. The induction of cytochrome aa ₃ by antimycin treatments does not occur in [exn-5], cya-4-23 and 299-1 cells, but does take place in cya-3-16 cells.Although some of the seven constituent polypeptides of cytochrome aa ₃ are present the mitochondria of [mi-3], the holoenzyme complex is not formed in the mutant. In contrast, the mitochondria of cyb-1-1 [mi-3] and cyb-2-2 [mi-3] double mutants contain a fully assembled cytochrome oxidase complex as well as some unassembled subunit polypeptides.The observations are indicative of the existence of at least two regulatory systems controlling the production of cytochrome aa ₃. One of the circuits appears to control the basal or constitutive production of cytochrome oxidase, the other seems to coordinate the level of cytochrome aa ₃ with some function of the mitochondrial cytochrome bc ₁ complex, possibly electron transport.     

Existence of aa 3-Type Ubiquinol Oxidase as a Terminal Oxidase in Sulfite Oxidation of Acidithiobacillus thiooxidans

It was found that Acidithiobacillus thiooxidans has sulfite:ubiquinone oxidoreductase and ubiquinol oxidase activities in the cells. Ubiquinol oxidase was purified from plasma membranes of strain NB1-3 in a nearly homogeneous state. A purified enzyme showed absorption peaks at 419 and 595 nm in the oxidized form and at 442 and 605 nm in the reduced form. Pyridine ferrohaemochrome prepared from the enzyme showed an α-peak characteristic of haem a at 587 nm, indicating that the enzyme contains haem a as a component. The CO difference spectrum of ubiquinol oxidase showed two peaks at 428 nm and 595 nm, and a trough at 446 nm, suggesting the existence of an aa ₃-type cytochrome in the enzyme. Ubiquinol oxidase was composed of three subunits with apparent molecular masses of 57 kDa, 34 kDa, and 23 kDa. The optimum pH and temperature for ubiquinol oxidation were pH 6.0 and 30 °C. The activity was completely inhibited by sodium cyanide at 1.0 mM. In contrast, the activity was inhibited weakly by antimycin A₁ and myxothiazol, which are inhibitors of mitochondrial bc ₁ complex. Quinone analog 2-heptyl-4-hydoroxyquinoline N-oxide (HOQNO) strongly inhibited ubiquinol oxidase activity. Nickel and tungstate (0.1 mM), which are used as a bacteriostatic agent for A. thiooxidans-dependent concrete corrosion, inhibited ubiquinol oxidase activity 100 and 70% respectively.     

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).