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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)

Evidence for a direct Cu-Cu bond in the CuA center of cytochrome oxidase is reported. Simulation of the X-ray absorption spectrum of a recombinant CuA-binding domain of Bacillus subtilis cytochrome oxidase, and comparison with a structurally characterized directly-bonding Cu(1.5) ... Cu(1.5) inorganic complex, suggests that a Cu-Cu interaction of 2.5 +/- 0.1 A together with a short 2.2 A Cu-S interaction may be present in the CuA site. In light of these data, previous interpretations of the EXAFS of a number of cytochrome oxidase and nitrous oxide reductase enzymes which modeled the 2.6 A interaction as a long Cu-S(methionine) bond are possibly incorrect. A structural model based on the new data is presented which suggests that the CuA sites in cytochrome oxidase and N2O reductase are likely composed of a pair of modified type 1 copper centers with one histidine, one cysteine, and one weakly bound ligand (Met and/or Gln) joined by a Cu-Cu bond.
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PMID:Metal-metal bonding in biology: EXAFS evidence for a 2.5 A copper-copper bond in the CuA center of cytochrome oxidase. 806 78

Unliganded and cyano derivatives of cytochrome ba3 from Thermus thermophilus have been examined by UV-vis, EPR, and resonance Raman spectroscopies. Species of cytochrome ba3 investigated include its resting, as-isolated, fully oxidized state, the fully reduced, unliganded enzyme, the one-electron-reduced cyano complex, the three-electron-reduced cyano complex, and the fully reduced cyano complex. Results are compared to those obtained from similar adducts of bovine cytochrome aa3, in particular, the fully reduced cyano complex. Our objective was to identify structural similarities and differences at the ligand-binding binuclear site of the two enzymes. We observed that the inner core skeletal vibrations of cytochrome a3 are the same for similar adducts of the bacterial ba3 and mammalian aa3, indicating similar spin and iron-porphyrin coordination properties resulting in comparable porphyrin core geometries. On the other hand, many of the vibrational frequencies associated with the formyl and vinyl peripheral substituents, and the outer pyrrole carbon atoms differ between the bovine and bacterial enzymes. Use of 57Fe labeled ba3 allows identification of two separate vFe-N(His) frequencies displayed by the fully reduced, unliganded cytochrome. These frequencies, occurring at 193 and 209 cm-1, are ascribed to distinct protein conformers, which are best evidenced by the Fe-N(His) vibrations. This result is again in contrast to the bovine enzyme which has been shown by others to display a single Fe-N(His) stretching frequency at 214 cm-1. The low-frequency Fea3(2+)-CN- vibrations of the three-electron and fully reduced cyano complexes of cytochrome ba3 are identified by using 15N and 13C isotopomers of CN-. These spectral signatures are identical to those reported earlier for the one-electron-reduced cyanide adduct (cytochrome a3 reduced), showing that the Fea3(2+)-CN- vibrational frequencies are independent of the redox states of the other three metal centers. Similarly, the CuB2+ EPR signatures appear similar in both the one-electron- and three-electron-reduced cyanide adducts. On the other hand, the electronic absorption spectra of ferrous alpha 3-CN- show systematic red-shifts of the alpha band as each of the other metal centers is reduced, and other, more subtle, differences in the electronic absorptions of the three-electron-reduced and four-electron-reduced cyanide adducts are revealed in the difference spectra. The relevance of these findings toward explaining the different cyanide binding and redox chemistry described herein and toward establishing the extent of structural analogy between the oxygen binding sites of the two proteins is discussed.
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PMID:Spectroscopic characterization of cytochrome ba3, a terminal oxidase from Thermus thermophilus: comparison of the a3/CuB site to that of bovine cytochrome aa3. 813 Feb 28

The cytochrome bo-type terminal oxidase of Escherichia coli is an analogue of mammalian aa3-type cytochrome c oxidase. The catalytic core of both enzymes is a binuclear site containing a penta-coordinate heme (heme o or a3) and copper (CuB). Herein we report on UV-visible and magnetic properties of ligand complexes of the binuclear site of cytochrome bo. Cyanide, sulfide, and azide react with the Fe(3+)-Cu+ center to give EPR-detectable low-spin complexes, analogous to those formed by cytochrome aa3. Analyses of the ligand fields of these complexes indicate that heme o has a single axial histidine ligand. Cyanide and azide react with the Fe(3+)-Cu2+ center to yield forms observable via UV-visible spectroscopy but not EPR. With formate and fluoride, cytochrome bo forms integral spin complexes similar to those of cytochrome aa3. These complexes have UV-visible characteristics of high-spin species, but EPR spectra show features which appear to correspond to transitions within an integral spin multiplet. Cytochrome bo forms another integral spin complex with azide and NO which is nearly identical to the azide-NO species in cytochrome aa3. This suggests that the binuclear centers of the two enzymes are quite similar.
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PMID:Strong-field and integral spin-ligand complexes of the cytochrome bo quinol oxidase in Escherichia coli membrane preparations. 818 44

The kinetics of the flash-induced photodissociation and rebinding of carbon monoxide in cytochrome aa3-CO have been studied by time-resolved infrared (TRIR) and transient ultraviolet-visible (UV-vis) spectroscopy at room temperature and by Fourier transform infrared (FTIR) spectroscopy at low temperature. The binding of photodissociated CO to CuB+ at room temperature is conclusively established by the TRIR absorption at 2061 cm-1 due to the C-O stretching mode of the CuB(+)-CO complex. These measurements yield a first-order rate constant of (4.7 +/- 0.6) x 10(5) s-1 (t1/2 = 1.5 +/- 0.2 microseconds) for the dissociation of CO from the CuB(+)-CO complex into solution. The rate of rebinding of flash-photodissociated CO to cytochrome a(3)2+ exhibits saturation kinetics at [CO] > 1 mM due to a preequilibrium between CO in solution and the CuB(+)-CO complex (K1 = 87 M-1), followed by transfer of CO to cytochrome a(3)2+ (k2 = 1030 s-1). The CO transfer from CuB to Fe alpha 3 was followed by CO-FTIR between 158 and 179 K and by UV-vis at room temperature. The activation parameters over the temperature range 140-300 K are delta H++ = 10.0 kcal mol-1 and delta S++ = -12.0 cal mol-1 K-1. The value of delta H++ is temperature independent over this range; i.e., delta Cp++ = 0 for CO transfer. Rapid events following photodissociation and preceding rebinding of CO to cytochrome a(3)2+ were observed. An increase in the alpha-band of cytochrome a3 near 615 nm (t1/2 ca. 6 ps) follows the initial femtosecond time-scale events accompanying photodissociation. Subsequently, a decrease is observed in the alpha-band absorbance (t1/2 approximately 1 microsecond) to a value typical of unliganded cytochrome a3. This latter absorbance change appears to occur simultaneously with the loss of CO by CuB+. We ascribe these observations to structural changes at the cytochrome a3 induced by the formation and dissociation of the CuB(+)-CO complex. We suggest that the picosecond binding of photodissociated CO to CuB triggers the release of a ligand L from CuB. We infer that L then binds to cytochrome a3 on the distal side and that this process is directly responsible for the observed alpha-band absorbance changes. We have previously suggested that the transfer of L produces a transient five-coordinate high-spin cytochrome a3 species where the proximal histidine has been replaced by L. When CO binds to the enzyme from solution, these processes are reversed.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Photodissociation and recombination of carbonmonoxy cytochrome oxidase: dynamics from picoseconds to kiloseconds. 821 78

The structural gene for the respiratory nitrous-oxide reductase from Paracoccus denitrificans has been cloned using a probe derived from the structural gene, nosZ, for this enzyme from Pseudomonas stutzeri. The cloned gene could be expressed surprisingly well (presumably yielding an apo-protein) using an expression vector in Escherichia coli. Sequencing the nosZ gene from P. denitrificans has shown that the periplasmic nitrous-oxide reductase of this organism is highly similar in sequence to previously derived primary sequences for the enzyme from three other organisms. As with the other reductases, an unusually long signal sequence is deduced and a common motif of GXXRRXXLG near the beginning of this sequence is present. The results of N-terminal sequencing of the mature nitrous-oxide reductase from the closely related organism Thiosphaera pantotropha indicate that processing of the P. denitrificans precursor occurs between amino acids at positions 57 and 58. The predicted signal peptide is therefore of the same length and of similar overall structure to that previously described for the P. denitrificans methylamine dehydrogenase small subunit (MauA). The P. denitrificans sequence for the mature nitrous-oxide reductase reduces from 14 to 11 and 6 to 4, respectively, the number of conserved histidine and methionine residues compared to previous sequences. Three cysteine and four tryptophan residues, previously identified as conserved amongst nitrous-oxide reductases, are found in the Paracoccus enzyme. A comparison of the sequence of the C-terminal region of the nitrous-oxide-reductase sequence with that for the CuA region of subunit II of the cytochrome aa3 from P. denitrificans reveals considerable sequence similarities. Upstream of the structural gene for nosZ are sequences TTGAAGCTTAACCAG (centred at position -21 with respect to the start codon) and CCCGGTGGTCATCAAG (centred at position -126). Although both could be FNR (ANR) boxes, the latter is far more probable to have this role because only it is likely to be upstream of a promoter site. This is the first indication at the DNA sequence level for the existence of this regulatory system in P. denitrificans. Analysis of the flanking DNA sequences revealed reading frames upstream and downstream of the nosZ gene showing similarity to the nosR and nosD genes, respectively, of Pseudomonas species. An S30 in vitro transcription/translation system was developed for P. denitrificans which permitted the expression of the cloned gene for nitrous-oxide reductase and which will be of general value in other studies of this organism.
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PMID:Sequence and expression of the gene encoding the respiratory nitrous-oxide reductase from Paracoccus denitrificans. New and conserved structural and regulatory motifs. 824 76

Cytochrome aa3-600 is a terminal quinol oxidase of Bacillus subtilis, belonging to the large family of structurally and functionally related respiratory enzymes to which the mitochondrial cytochrome c oxidase also belongs. However, the CuA center typical of the cytochrome c oxidases is lacking from cytochrome aa3-600. The presence of only one copper, viz. CuB of the binuclear heme iron-copper site, makes cytochrome aa3-600 especially suitable for XAS analysis of this structure. Cu and Fe XAS data for fully oxidized cytochrome aa3-600 indicate a structure for the binuclear site similar to that previously reported for mitochondrial cytochrome c oxidase (see Powers et al. (1981) Biophys. J. 34, 465-468). Heme Fea3 has a proximal histidine nitrogen ligand 2.10 +/- 0.02 A from the iron, and a distal S or Cl ligand at 2.36 +/- 0.03 A. The latter is also a ligand of CuB (2.21 +/- 0.02 A), and apparently forms a bridge between the two metals which are 3.70 +/- 0.06 A apart. CuB has two more close-lying ligands at 1.95 +/- 0.02 A, which are likely histidine nitrogens. The similarity between EXAFS of CuB and type 1 'blue' copper is contrasted to EPR and optical spectroscopic properties of CuB, and the nature of the bridging ligand is discussed.
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PMID:Structure of the binuclear heme iron-copper site in the quinol-oxidizing cytochrome aa3 from Bacillus subtilis. 828 99

Inner membranes were prepared from Escherichia coli strain RG 145, which is deficient in cytochrome bd, but overexpresses cytochrome bo [Au and Gennis (1987) J. Bacteriol. 169, 3237-3242]. The latter was purified 7-fold by extracting the membranes with octyl beta-D-glucopyranoside, followed by chromatography on DEAE-Sepharose, yielding 150 mg of protein/150 g wet weight of cells. Optical e.p.r. and low-temperature m.c.d. (magnetic circular dichroism) spectroscopies were used to investigate the nature of the protein ligands to the two haems in cytochrome bo from E. coli. Low-spin ferric haem b, the origin of a rhombic e.p.r. spectrum with g = 2.98, 2.26 and 1.50, gives rise to a charge-transfer band in the near-i.r. m.c.d. spectrum at 1622 nm. It is therefore concluded that haem b is co-ordinated by two histidine residues. The low-temperature m.c.d. spectrum of dithionite-reduced cytochrome bo comprises bands due both to low-spin ferrous haem b and to high-spin ferrous haem o. The bands arising from haem o show a direct correspondence with those in the m.c.d. spectrum of five-co-ordinate histidine-ligated ferrous haems such as myoglobin, implying that the protein residue liganding haem o is also histidine. This assignment was confirmed by measuring the e.p.r. spectrum of the nitric oxide derivative of fully reduced cytochrome bo. This showed a rhombic spectrum with g = 2.098, 2.008 and 1.987, and nuclear hyperfine splitting consistent with the co-ordination of ferrous haem by NO and histidine. The hyperfine splittings observed were 1.95 +/- 0.05 mT for the 14N of the NO ligand and 0.75 +/- 0.05 mT for the 14N of the proximal histidine. The e.p.r. spectrum of some samples of oxidized cytochrome bo show, at temperatures below 15 K, broad signals at g = 7.6, 3.6 and 2.8, and other preparations in the presence of glycerol yield signals at g = 10.8, 3.2 and 2.6. These signals, which are abolished by the addition of cyanide, are assigned to the binuclear centre, cytochrome o-CuB, suggesting that the binuclear site may display heterogeneity. Carbon monoxide reacts with the reduced enzyme with a stoichiometry of 1:1, and the dissociation constant for this reaction was determined to be 1.7 x 10(-6)M. The second-order rate constants for this reaction were measured and shown to be similar to those determined for bovine cytochrome aa3 [Gibson and Greenwood (1963) Biochem. J. 86, 541-554].
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PMID:Cytochrome bo from Escherichia coli: identification of haem ligands and reaction of the reduced enzyme with carbon monoxide. 838 47

An analysis of resonance Raman scattering data from CO-bound cytochrome c oxidase and from the photodissociated enzyme indicates that histidine may not be coordinated to the iron atom of cytochrome a3 in the CO-bound form of the enzyme. Instead, the data suggest that either a water molecule or a different amino acid residue occupies the proximal ligand position. From these data, it is postulated that ligand exchange on cytochrome a3 can occur under physiological conditions. Studies of mutant hemoglobins have demonstrated that tyrosinate binds preferentially to histidine in the ferric forms of the proteins. In cytochrome c oxidase tyrosine residues are located near the histidine residues recently implicated in coordination to cytochrome a3 (Shapleigh et al., 1992; Hosler et al., this volume). Expanding on these concepts, we propose a model for proton translocation at the O2-binding site based on proximal ligand exchange between tyrosine and histidine on cytochrome a3. The pumping steps take place at the level of the peroxy intermediate and at the level of the ferryl intermediate in the catalytic cycle and are thereby consistent with the recent results of Wilkstrom (1989) who found that proton pumping occurs only at these two steps. It is shown that the model may be readily extended to account for the pumping of two protons at each of the steps.
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PMID:Proton translocation in cytochrome c oxidase: redox linkage through proximal ligand exchange on cytochrome a3. 838 49

Cytochrome aco3 of Bacillus YN-2000 was purified by an improved procedure and its molecular features and catalytic activity were extensively studied. The enzyme molecule was composed of three subunits with M(r)s of 50,000, 41,000, and 22,000, and contains 1 molecule each of cytochrome a, cytochrome c, and cytochrome o3 in the minimal structural unit (M(r), 113,000). The 41,000 subunit (subunit II) contains heme c. The EPR, optical, and resonance Raman spectra of the oxidized enzyme demonstrated the presence of CuA whose coordination environment bore close resemblance to that of the aa3-type cytochrome c oxidase. Resonance Raman studies demonstrated that the cytochrome a moiety was similar to that of an aa3-type oxidase and also that the cytochrome o3 contained a five-coordinated high-spin heme with histidine as an axial ligand. The Fe-CO stretching mode of the cytochrome o3.CO complex was observed at 520 cm-1, which is the same frequency as that of cytochrome aa3.CO. The oxygen consumption activity of cytochrome aco3 was measured using several kinds of cytochromes c as the electron mediators. The reaction between cytochrome aco3 and eucaryotic cytochromes c was completely inhibited by poly-L-lysine. In contrast, poly-L-lysine was indispensable for sufficient reaction between the oxidase and Bacillus YN-2000 cytochrome c-553, the physiological electron donor. The combined results on the structure and enzymatic properties suggest that the cytochrome aco3 is very similar to cytochrome caa3 except that the cytochrome aco3 has cytochrome o3 in place of cytochrome a3 and the cytochrome c component has a very low redox midpoint potential (95 mV).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:The molecular features and catalytic activity of CuA-containing aco3-type cytochrome c oxidase from a facultative alkalophilic Bacillus. 840 82

The terminal segment of the aerobic respiratory chain of the thermoacidophilic archaeon Sulfolobus sp. strain 7 is an unusual caldariellaquinol oxidase supercomplex, which contains at least one b-type and three spectroscopically distinguishable a-type cytochromes, one copper, and a Rieske-type FeS center. In this paper, we report the purification and characterization of two different forms of the archaeal a-type cytochromes, namely, a three-subunit cytochrome a583-aa3 subcomplex and a single-subunit cytochrome aa3 derived from the cytochrome subcomplex, in order to facilitate further studies on the terminal oxidase segment of Sulfolobus. The optical and EPR spectroscopic analyses suggest the presence of two different low-spin heme centers and one high-spin heme center in the purified cytochrome a583-aa3 subcomplex, and one low-spin and one high-spin hemes in cytochrome aa3, respectively. The Rieske-type FeS center detected in the purified cytochrome supercomplex was absent in two forms of the a-type cytochrome oxidase, indicating its association with cytochrome b562. The crystal field parameters of the lowspin heme a583 center indicate that its axial ligands may be similar to those of cytochromes c, rather than conventional bis-histidine ligation. In spite of the absence of any c-type cytochrome, a ferrocytochrome c oxidase activity was detected in the archaeal purified cytochrome a583-aa3 subcomplex with no quinol oxidase activity, but not in the purified cytochrome oxidase supercomplex, which has been tentatively interpreted as a representative of electron transfer from the Rieske FeS center to cytochrome a583 in vivo. Thus, our results indicate the following scheme for the intramolecular electron transfer of the terminal oxidase supercomplex from Sulfolobus sp. strain 7: [caldariellaquinol-->] b562-->Rieske FeS center-->a583 aa3-->molecular oxygen.
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PMID:Resolution of the aerobic respiratory system of the thermoacidophilic archaeon, Sulfolobus sp. strain 7. II. Characterization of the archaeal terminal oxidase subcomplexes and implication for the intramolecular electron transfer. 853 43


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