Evidence for multiple terminal oxidases, including cytochrome d, in facultatively alkaliphilic Bacillus firmus OF4.

The terminal oxidase content of Bacillus firmus OF4, a facultative alkaliphile that grows well over the pH range of 7.5 to 10.5, was studied by difference spectroscopy. Evidence was found for three terminal oxidases under different growth conditions. The growth pH and the stage of growth profoundly affected the expression of one of the oxidases, cytochrome d. The other two oxidases, cytochrome caa3 and cytochrome o, were expressed under all growth conditions tested, although the levels of both, especially cytochrome caa3, were higher at more alkaline pH (P.G. Quirk, A.A. Guffanti, R.J. Plass, S. Clejan, and T.A. Krulwich, Biochim. Biophys. Acta, in press). These latter oxidases were identified in everted membrane vesicles by reduced-versus-oxidized difference spectra (absorption maximum at 600 nm for cytochrome caa3) and CO-reduced-versus-reduced difference spectra (absorption maxima at 574 and 414 nm for cytochrome o). All three terminal oxidases were solubilized from everted membranes and partially purified. The difference spectra of the solubilized, partially purified cytochrome caa3 and cytochrome o complexes were consistent with these assignments. Cytochrome d, which has not been identified in a Bacillus species before, was tentatively assigned on the basis of its absorption maxima at 622 and 630 nm in reduced-versus-oxidized and CO-reduced-versus-reduced difference spectra, respectively, resembling the maxima exhibited by the complex found in Escherichia coli. The B. firmus OF4 cytochrome d was reducible by NADH but not by ascorbate-N,N,N',N'-tetramethyl-p-phenylenediamine in everted membrane vesicles. Cytochrome d was expressed under two conditions: in cells growing exponentially at pH 7.5 (but not at pH 10.5) and in cells stationary phase at either pH 7.5 or 10.5. Protein immunoblots with antibodies against subunit I of the E. coli cytochrome d complex reacted only with membrane vesicles that contained spectrally identifiable cytochrome d. Additional evidence that this B. firmus OF4 cytochrome is related to the E. coli complex was obtained with a solubilized, partially purified fraction of cytochrome d that also reacted with antibodies against the subunits of the E. coli cytochrome d.     

Purification and partial characterization of squalene epoxidase from rat liver microsomes

Squalene epoxidase (EC 1.14.99.7, squalene 2,3-monooxygenase (epoxidizing) was purified to an apparent homogeneity from rat liver microsomes. The purification was carried out by solubilization of microsomes by Triton X-100, fractionation with ion exchangers, hydroxyapatite, Cibacron Blue Sepharose 4B, and chromatofocusing column chromatography. A total purification of 143-fold over the first DEAE-cellulose fraction was achieved. The purified enzyme gave a single major band on SDS-polyacrylamide gel electrophoresis and the Mr was estimated to be 51 000 as a single polypeptide chain. The enzyme showed no distinct absorption spectrum in the visible regions. The squalene epoxidase activity was reconstituted with the purified enzyme, NADPH-cytochrome P-450 reductase (EC 1.6.2.4), FAD, NADPH and molecular oxygen in the presence of Triton X-100. The apparent Michaelis constants for squalene and FAD were 13 microM and 5 microM, respectively. The Vmax was about 186 nmol per mg protein per 30 min for 2,3-oxidosqualene. The enzyme activity was not inhibited by potent inhibitors of cytochrome P-450. It is suggested that squalene epoxidase is distinct from cytochrome P-450 isozymes.     

Multiple molecular forms of purified human erythrocyte acetylcholinesterase.

1. Human erythrocyte acetylcholinesterase was solubilized by Triton X-100 and purified by affinity chromatography to a specific activity of 3800 IU/mg of protein. The yield of the purified enzyme was 25--45%. 2. Gel filtration on Sepharose 4-B in the presence of Triton X-100 revealed one peak of enzyme activity with a Stokes' radius of 8.7 nm. Density gradient centrifugation in 0.1% Triton X-100 showed one peak of enzyme activity with an S4 value of 6.3S. 3. Isoelectric focusing in Triton X-100 resolved the enzyme into five molecular forms with isoelectric points of 4.55, 4.68, 4.81, 4.98 and 5.18. Upon incubation with neuraminidase the enzyme activity in the first four forms was decreased with a concommitant increase in activity in the form with the higher isoelectric point. 4. After removal of excess Triton X-100 on Bio-Gel HTP, polyacrylamide gel electrophoresis showed seven bands of protein and corresponding bands of enzyme activity. Density gradient centrifugation of the detergent-depleted enzyme at high ionic strength revealed five multiple molecular forms with S4 values of 6.3 S, 10.2 S, 12.2 S, 14.2 S and 16.3 S. At low ionic strength, higher aggregates were observed in addition to the other forms. Dodecylsulfate-polyacrylamide gel electrophoresis gave one subunit only with an apparent molecular weight of 80 000. 5. These results suggest that human erythrocyte acetylcholinesterase, solubilized by Triton X-100, exists in various forms differing in net charge but of apparently similar molecular dimensions. After removal of the detergent, forms with different molecular sizes are observed.     

Comparative receptor study in gamete chemotaxis of the seaweeds Ectocarpus siliculosus and Cutleria multifida. An approach to interspecific communication of algal gametes

The terminal component of the electron transport chain, cytochrome c oxidase (ferrocytochrome c: oxygen oxidoreductase) was purified from Bacillus subtilis W23. The enzyme was solubilized with alkyglucosides and purified to homogeneity by cytochrome c affinity chromatography. The enzyme showed absorption maxima at 414 nm and 598 nm in the oxidized form and at 443 nm and 601 nm in the reduced form. Upon reaction with carbon monoxide of the reduced purified enzyme the absorption maxima shifted to 431 nm and 598 nm. Sodium dodecylsulfate polyacrylamide gel electrophoresis indicated that the purified enzyme is composed out of three subunits with apparent molecular weights of 57 000, 37 000 and 21 000. This is the first report on a bacterial aa3-type oxidase containing three subunits. The functional properties of the enzyme are comparable with those of the other bacterial cytochrome c oxidases. The reaction catalyzed by this oxidase was strongly inhibited by cyanide, azide and monovalent salts. Furthermore a strong dependence of cytochrome c oxidase activity on negatively charged phospholipids was observed. Crossed immunoelectrophoresis experiments strongly indicated a transmembranal localization of cytochrome c oxidase.     

Error in assay due to time dependency of carbon monoxide difference spectrum of reduced yeast cytochrome P-450: Slow reduction caused by Triton X-100 present

Triton X-100, added to yeast Saccharomyces cerevisiae for the purpose of stabilization or solubilization affects the carbon monoxide difference spectrum of reduced cytochrome P-450 and consequently the measurement of cytochrome P-450. Eight minutes is needed for 450-nm peak to reach its maximum height. Triton X-100 is shown to behave as a Type II substrate (absorption maximum at 418 nm and minimum at 390 nm) and to modulate the spin state of cytochrome P-450 from high to low form. Low-spin yeast cytochrome P-450 is reduced more slowly than the high-spin form.     

Purification and some properties of ubiquinol oxidase from obligately chemolithotrophic iron-oxidizing bacterium, Thiobacillus ferrooxidans NASF-1

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.     

Quinol-cytochrome c oxidoreductase from the thermophilic bacterium PS3. Purification and properties of a cytochrome bc1(b6f) complex

A quinol-cytochrome c oxidoreductase (cytochrome bc1 complex) has been purified from plasma membranes of a thermophilic Bacillus, PS3, by ion-exchange chromatography in the presence of Triton X-100. The purified enzyme shows absorption bands at 561-562 nm and 553 nm at room temperature, and 560, 551, and 547 nm at 80 K upon reduction, and gives an ESR signal similar to that of a Rieske-type iron sulfur center. Its contents of protohemes, heme c, and non-heme iron are about 23, 10, and 21 nmol/mg of protein, respectively. The enzyme consists of four polypeptides with molecular masses of 29, 23, 21, and 14 kDa judging from their electrophoretic mobilities in the presence of sodium lauryl sulfate. Since the staining intensities of the respective bands are almost proportional to their molecular masses, the monomer complex (87 kDa) of the subunits probably consists of a cytochrome b having two protohemes, a cytochrome c1 and an Fe2-S2-type iron sulfur center. The 29 and 21 kDa subunits were identified as cytochromes c1 and b, respectively, and the 23-kDa subunit is probably an iron-sulfur protein, since the 14-kDa polypeptide can be removed with 3 M urea without reducing the content of non-heme iron. Several characteristics of the subunits and chromophores indicate that the PS3 enzyme is rather similar to cytochrome b6f (a bc1 complex equivalent) of chloroplasts and Cyanobacteria. The PS3 complex catalyzes reduction of cytochrome c with various quinol compounds in the presence of P-lipids and menaquinone. The turnover number at pH 6.8 was about 5 s-1 at 40 degrees C and 50 s-1 at 60 degrees C. The enzyme is heat-stable up to 65 degrees C.     

Immunological characterization of the cytochrome o terminal oxidase from Escherichia coli

The cytochrome o terminal oxidase from Escherichia coli was immunochemically purified and monospecific antiserum toward cytochrome o was obtained. This antiserum is able to precipitate 100% of the ubiquinol-1 oxidase activity in Triton X-100 extracts of membranes from an E. coli strain in which cytochrome o is the only terminal oxidase. Cytochrome o was analyzed and quantitated using crossed immunoelectrophoresis, rocket immunoelectrophoresis, and sodium dodecyl sulfate-polyacrylamide gel electrophoresis. Analysis by sodium dodecyl sulfate-polyacrylamide gel electrophoresis shows that cytochrome o is composed of four subunits of approximate equimolar stoichiometry with molecular weights of 51,000, 28,500, 18,000, and 12,700. The low temperature (77 K) reduced - oxidized spectrum of the immunoprecipitate shows two peaks at 555 and 562 nm, indicating b-type cytochromes. With the anti-cytochrome o and antiserum toward the cytochrome d terminal oxidase complex which was previously obtained, it is possible to immunochemically assay for all the cytochromes in the cytoplasmic membrane of aerobically grown E. coli. Preliminary results indicate that the biosynthesis of cytochrome o is repressed when cytochrome d is induced by lowering the dissolved oxygen concentration during cell growth.     

Cytochrome aa3 from Nitrosomonas europaea

Cytochrome c oxidase has been purified from the ammonia oxidizing chemoautotroph Nitrosomonas europaea by ion-exchange chromatography in the presence of Triton X-100. The enzyme has absorption maxima at 420 and 592 nm in the resting state and at 444 and 598 nm in the dithionite-reduced form; optical extinction coefficient (598 nm minus 640 nm) = 21.9 cm-1 nM-1. The enzyme has approximately 11 nmol of heme a and approximately 11 nmol of copper per mg of protein (Lowry procedure). There appear to be three subunits (approximate molecular weights 50,800, 38,400, and 35,500), two heme groups (a and a3), and two copper atoms per minimal unit. The EPR spectra of the resting and partially reduced enzyme are remarkably similar to the corresponding spectra of the mitochondrial cytochrome aa3-type oxidase. Although the enzyme had been previously classified as "cytochrome a1" on the basis of its ferrous alpha absorption maximum (598 nm), its metal content and EPR spectral properties clearly show that it is better classified as a cytochrome aa3. Neither the data reported here nor a review of the literature supports the existence of cytochrome a1 as an entity discrete from cytochrome aa3. The purified enzyme is reduced rapidly by ferrous horse heart cytochrome c or cytochrome c-554 from N. europaea, but not with cytochrome c-552 from N. europaea. The identity of the natural electron donor is as yet unestablished. With horse heart cytochrome c as electron donor, the purified enzyme could account for a significant portion of the terminal oxidase activity in vivo.     

Cytochrome b reducible by succinate in an isolated succinate dehydrogenase-cytochrome b complex from Bacillus subtilis membranes

In previous work with membranes of Bacillus subtilis, the succinate dehydrogenase complex was isolated by immunoprecipitation of Triton X-100-solubilized membranes. The complex included a polypeptide with an apparent molecular weight of 19,000, probably attributable to apocytochrome. This paper reports the further characterization of this cytochrome and its relation to the respiratory chain of B. subtilis. The cytochrome was identified as cytochrome b, and its difference absorption spectra showed maxima at 426, 529, and 558 nm at room temperature. The oxidized cytochrome had an absorption maximum at 413 nm. The cytochrome was reduced by succinate in the isolated succinate dehydrogenase complex and in Triton X-100-solubilized membranes. In whole membranes cytochromes b, c, and a were reduced by succinate. In membranes from a mutant containing normal cytochromes but lacking succinate dehydrogenase no reduction of cytochrome was seen with succinate. It was concluded that the isolated succinate dehydrogenase-cytochrome b complex is a functional unit in the intact B. subtilis membrane. An accompanying paper describes cytochrome b as a structural unit involved in the membrane binding of succinate dehydrogenase.     

Purification and characterization of cytochrome c oxidase from rat liver mitochondria.

Cytochrome c oxidase has been purified from rat liver mitochondria using affinity chromatography. The preparation contains 10.5 to 13.4 nmol of heme a + a3 per mg of protein and migrates as a single band during polyacrylamide gel electrophoresis under nondissociating conditions. It has a heme a/a3 ratio of 1.12 and is free of cytochromes b, c, and c1 as well as the enzymes, NADH dehydrogenase, succinic dehydrogenase, coenzyme Q-cytochrome c reductase, and ATPase. The enzyme preparation consists of six polypeptides having apparent Mr of 66,000, 39,000, 23,000, 14,000, 12,500 and 10,000 as determined by sodium dodecyl sulfate-polyacrylamide gel electrophoresis. The peptide composition is similar to those found for cytochrome c oxidases from other systems. The enzymatic activity of the purified enzyme is completely inhibited by carbon monoxide or cyanide, partially inhibited by Triton X-100 and dramatically enhanced by Tween 80 or phospholipids.     

Molecular properties of cytochrome P-45011 beta from adrenal cortex mitochondria.

Cytochrome P-45011 beta has been solubilized and partially purified from bovine adrenal cortex mitochondria using chromatography on Octyl-Sepharose CL-4B or DEAE-Sepharose CL-6B. The partially purified P-450 preparations were about 90% pure as judged by SDS-polyacrylamide gel electrophoresis. In the presence of purified preparations of adrenodoxin reductase and adrenodoxin, the partially purified P-450 preparations catalyzed NADPH-supported 11 beta-hydroxylation of unconjugated and sulphoconjugated deoxycorticosterone. In presence of Triton X-100 the partially purified cytochrome P-45011 beta had a Stoke's radius of 4.5 nm, a sedimentation coefficient of 3.1 S and a partial specific volume of about 0.85 cm3/g. These results indicate that the cytochrome P-45011 beta-Triton X-100 complex has a molecular weight of about 100 000 and that P-45011 beta bound about 1.1 g of Triton X-100 per g of protein. The P-45011 beta-Triton X-100 complex was catalytically active in hydroxylation reactions supported by NADPH or the hydroxylating agent ortho-nitroiodosobenzene, suggesting that the monomer of cytochrome P-45011 beta is an active form of the protein.     

The active form of cytochrome P-45011beta from adrenal cortex mitochondria.

Cytochrome P-45011beta has been solubilized and partially purified from bovine adrenal cortex mitochondria by means of chromatography on Octyl-Sepharose CL-4B or DEAE-Sepharose CL-6B. The partially purified P-450 preparations were about 90% pure as judged by sodium dodecyl sulfate-polyacrylamide gel electrophoresis, but had a low specific content of P-450 (between 1 and 2 nmol of P-450 per mg of protein). In the presence of purified preparations of adrenodoxin reductase and adrenodoxin, the partially purified P-450 preparations catalyzed NADPH-supported 11beta-hydroxylation of unconjugated and sulfoconjugated deoxycorticosterone. In the reconstituted system the hydroxylation of deoxycorticosterone sulfate proceeded at a much higher rate than in intact mitochondria, indicating that in the former case interactions between the hydrophilic substrate and P-450 were facilitated. In the presence of Triton X-100 the partially purified cytochrome P-45011beta had a Stokes radius of 4.5 nm, a sedimentation coefficient of 3.1 S, and a partial specific volume of about 0.85 cm3/g. These results indicate that the cytochrome P-45011beta . Triton X-100 complex had a molecular weight of about 100,000 and that P-45011beta bound about 1.1 g of Triton X-100 per g of protein. The P-45011beta . Triton X-100 complex was catalytically active in hydroxylation reactions supported by NADPH or the hydroxylating agent ortho-nitroiodosobenzene, suggesting that the monomer of cytochrome P-45011beta is the active form of the protein.     

Carbon monoxide-binding cytochromes in the respiratory chain of the thermophilic bacterium PS3 grown with sufficient or limited aeration

The effects of aeration on the growth and cytochrome patterns of thermophilic bacterium PS3 were studied; bacteria grown with strong aeration synthesized cytochromes c, b, and aa3, while those grown with low aeration, showing non-exponential growth, synthesized higher amounts of cytochromes c and b including o, and a lower amount of cytochrome a (a3). The CO-difference spectra indicated that the terminal oxidase was cytochrome aa3 for high aeration conditions and the cytochrome o for low aeration conditions. Cytochrome o can be solubilized by Triton X-100 from the membrane fraction of bacteria grown under oxygen-limited conditions. The carbon monoxide complex of cytochrome o, obtained by exposing this extract to CO, was photolyzed and the subsequent rebinding of CO was analyzed; it followed first order kinetics with a rate constant of around 8 s-1 at 25 degrees C. At liquid nitrogen temperature, CO-rebinding did not occur. The CO-difference spectrum of purified cytochrome oxidase sample from the bacteria grown with strong aeration (Sone, N., et al. (1979) FEBS Lett. 106, 39-42) revealed the presence of a small amount of a cytochrome o-like pigment besides cytochrome aa3. Analysis of the CO complexes of these chromophores showed rate constants of 29-30 s-1 for cytochrome aa3 and 35-42 s-1 for the o-like pigment, indicating that the cytochrome o-like pigment contaminating the purified cytochrome oxidase preparation was not typical cytochrome o.     

Purification and partial characterization of the b-type cytochrome from human polymorphonuclear leukocytes

Polymorphonuclear leukocytes contain an oxidase system that can be activated to produce superoxide radicals and hydrogen peroxide. A nonmitochondrial b cytochrome, functioning in the generation of these oxygen species, has been purified to apparent homogeneity from human polymorphonuclear phagocytes. After solubilization of the cytochrome with Triton X-100, the cell extract was subsequently chromatographed on Blue Sepharose and Sephacryl S-300. The final preparation was maximally purified 170-fold with a specific content of 5.33 +/- 2.03 nmol mg-1 of protein (mean +/- S.D.; n = 7) and a yield of 21 +/- 13% (n = 5). The apparent molecular mass of the nondenatured cytochrome was estimated by gel filtration to be 235 kDa. Upon polyacrylamide gel electrophoresis in the presence of sodium dodecyl sulfate, a single polypeptide was found with a molecular mass of 127 kDa. From the pyridine hemochrome spectrum 1 protoheme IX/polypeptide was calculated. The light absorbance bands of the dithionite-reduced cytochrome were found to be at 558.5 (alpha), 529 (beta), and 426 nm (Soret), and that of the oxidized cytochrome at 413.5 nm. The difference absorbance coefficients are delta epsilon (426.5 - 440 nm) = 160.6 +/- 11 mM-1 cm-1 and delta epsilon (558.5 - 542 nm) = 29.3 +/- 2 mM-1 cm-1 (mean +/- S.D.; n = 5). Carbon monoxide binds to the cytochrome in a time-dependent fashion (maximum binding after 50-60 min). The midpoint potential of the solubilized nonpurified cytochrome is identical to the cytochrome in situ (Em7.0 = -218 +/- 7 mV (mean +/- S.D.; n = 5)). However, purified cytochrome b shows a significantly decreased midpoint potential, estimated at -407 +/- 18 mV (n = 4). The protein does not contain noncovalently bound FAD or FMN, and no spectral evidence was obtained for the presence of covalently bound flavin. Preliminary amino acid analysis of the cytochrome shows a high content of hydrophilic residues.     

Membrane-bound D-gluconate dehydrogenase from Pseudomonas aeruginosa. Purification and structure of cytochrome-binding form.

A membrane-bound D-gluconate dehydrogenase [EC 1.1.99.3] was solubilized from membranes of Pseudomonas aeruginosa and purified to a homogeneous state with the aid of detergents. The solubilized enzyme was a monomer in the presence of at least 0.1% Triton X-100, having a molecular weight of 138,000 on polyacrylamide gel electrophoresis or 124,000--131,000 on sucrose density gradient centrifugation. In the absence of Triton X-100, the enzyme became dimeric, having a molecular weight of 240,000--260,000 on sucrose density gradient centrifugation. Removal of Triton X-100 caused a decrease in enzyme activity. Enzyme activity was stimulated by addition of phospholipid, particularly cardiolipin, in the presence of Triton X-100. The enzyme had a cytochrome c1, c-554(551), which might be a diheme cytochrome, and it also contained a covalently bound flavin but not ubiquinone. In the presence of sodium dodecyl sulfate, the enzyme was dissociated into three components with molecular weights of 66,000, 50,000, and 22,000. The components of 66,000 and 50,000 daltons corresponded to a flavoprotein and cytochrome c1, respectively, but that of 22,000 dalton remained unclear as to its function.     

Purification and characterization of amphiphilic trehalase from rabbit small intestine

Rabbit intestinal trehalase (alpha,alpha-trehalose glucohydrolase, EC 3.2.1.28) was solubilized with Triton X-100 and purified in the presence of EDTA. The purified enzyme was homogeneous on polyacrylamide gel electrophoresis in the presence of Triton X-100 or SDS. It showed amphiphilic properties on gel filtration. polyacrylamide gel electrophoresis, charge-shift electrophoresis and phenyl-Sepharose chromatography. Its molecular weight was estimated to be about 330 000 by gel filtration under nondenaturing conditions and in the presence of Triton X-100, the value being in satisfactory agreement with the sum of the weight of one Triton X-100 micelle and twice the molecular weight (105 000) of purified hydrophilic trehalase which had been deprived of the anchor segment. The two purified trehalases gave almost the same molecular weights (about 75 000) on SDS-polyacrylamide gel electrophoresis. These results suggest that intestinal trehalase consists of two subunits with a molecular weight of 75 000 and that its anchor segment is small (less than 5000). Triton X-100 extracts freshly prepared from intestinal microvilli essentially showed one form of trehalase, which behaved on phenyl-Sepharose and Con A-Sepharose chromatography in the same manner as purified amphiphilic trehalase.     

Structure at 1.3 A resolution of Rhodothermus marinus caa(3) cytochrome c domain

The cytochrome c domain of subunit II from the Rhodothermus marinus caa(3) HiPIP:oxygen oxidoreductase, a member of the superfamily of heme-copper-containing terminal oxidases, was produced in Escherichia coli and characterised. The recombinant protein, which shows the same optical absorption and redox properties as the corresponding domain in the holo enzyme, was crystallized and its structure was determined to a resolution of 1.3 A by the multiwavelength anomalous dispersion (MAD) technique using the anomalous dispersion of the heme iron atom. The model was refined to final R(cryst) and R(free) values of 13.9% and 16.7%, respectively. The structure reveals the insertion of two short antiparallel beta-strands forming a small beta-sheet, an interesting variation of the classical all alpha-helical cytochrome c fold. This modification appears to be common to all known caa(3)-type terminal oxidases, as judged by comparative modelling and by analyses of the available amino acid sequences for these enzymes. This is the first high-resolution crystal structure reported for a cytochrome c domain of a caa(3)-type terminal oxidase. The R.marinus caa(3) uses HiPIP as the redox partner. The calculation of the electrostatic potential at the molecular surface of this extra C-terminal domain provides insights into the binding to its redox partner on one side and its interaction with the remaining subunit II on the other side.     

Isolation and partial characterization of the cytochrome c oxidase of Micrococcus luteus (lysodeikticus)

The cell membrane of Micrococcus luteus (lysodeikticus) contains a respiratory chain composed of hemes a, b, and c, which contain 171, 457, and 407 pmol/mg protein, respectively. Cytochrome c oxidase, the heme a containing component, has been purified after solubilization in Triton X-100, by gel filtration on Sepharose 4B-CL ammonium sulfate precipitation and ion-exchange and affinity chromatographies on a yeast cytochrome c-Sepharose 4B column. The purified complex, which contains three polypeptides of apparent Mr 47,000, 31,000, and 19,000, has CN-sensitive ferrocytochrome c oxidase activity (Ki = 0.35 microM) and a characteristic absorption spectrum with maxima in the oxidized form at 595 and 426 nm and in the reduced form at 601 and 444 nm. The purified enzyme contains 17.4 nmol/mg protein and its copper content is 23.2 nmol/mg protein. The enzyme was purified about 100-fold with respect to its content in crude membranes. The total heme a yield, also with respect to crude membranes content, was 6.8%.     

Specific overproduction and purification of the cytochrome b558 component of the cytochrome d complex from Escherichia coli

In Escherichia coli strain GR84N[pNG10], the cloned gene for subunit I of the membrane-bound cytochrome d complex resulted in the overproduction of cytochrome b558 and facilitated purification of this cytochrome. Extracting membranes with 1% Triton X-100 followed by two chromatographic steps yielded a single band on sodium dodecyl sulfate-polyacrylamide gels corresponding to subunit I (Mr 57 000). Purified cytochrome b558 was in its native state as determined by difference absorption spectroscopy and by potentiometric analysis. Both the membranes of strain GR84N[pNG10] and the purified subunit I lacked the other two spectroscopically defined cytochromes, b595 (previously "a1") and d, of the cytochrome d complex. Reconstitution of cytochrome b558 in phospholipid vesicles demonstrated that cytochrome b558 can be reduced by ubiquinol but that it does not reduce molecular oxygen. Heme extraction of cytochrome b558 yielded an extinction coefficient of 22 000 M-1 cm-1 for the wavelength pair of 560 and 580 nm in the reduced-minus-oxidized spectrum. The mutation on pNG10 that eliminates subunit II was mapped to a 250 base pair DNA fragment.