Several forms of chromaffin granule cytochrome b-561 revealed by EPR spectroscopy.

Low-temperature EPR spectra of chromaffin granule membranes from bovine adrenal medulla reveal 3 different signals of the ferric cytochrome b-561. A typical gZ signal of a low-spin cytochrome observed at g approximately 3 is comprised of a high-potential component with gZ = 3.14 and a low-potential one with gZ = 3.11, the low-potential signal showing significantly faster relaxation. In addition, a highly temperature-sensitive heme signal at g = 3.7 is observed which is fully retained in the preparation of granule membranes with b-561 reduced by 50% but disappears upon full reduction of the cytochrome by ascorbate. The signal is strikingly similar to that of the mitochondrial low-potential cytochrome b heme (bL or b-566). The presence of several forms of b-561 in chromaffin granule membranes may provide a structural basis for the transmembrane electron transfer believe to be catalyzed by this hemoprotein.     

Binding of homogeneous cytochrome b5 to rat liver microsomes. Effect on N-demethylation reactions.

Incubation of rat homogeneous detergent-solubilized cytochrome b5 with rat liver microsomes resulted in specific binding of the hemoprotein which was rapidly reduced by NADH. The NADH cytochrome c reductase activity in these preparations increased in proportion to the amount of cytochrome bound. However, the extra-bound detergent-solubilized cytochrome b5 did inhibit NADPH-dependent N-demethylations, the NADH synergism and NADPH cytochrome P-450 reductase activity. Manganese protoporphyrin-apocytochrome complex when bound to microsomes in amounts equivalent to detergent-solubilised cytochrome b5 showed no effect on N-demethylation activity. Furthermore, the binding of cytochrome b5 preparations reconstituted from heme and apocytochrome b5 had no effect on either the NADPH-dependent N-demethylation of aminopyrene or ethylmorphine or the NADH synergism observed with rat liver microsomes. In addition, homogeneous cytochrome b5 eluted from three additional Sephadex G-100 columns showed no inhibitory effects when bound to liver microsomes. Spectral analyses of the acid-acetone extract of the hemoprotein showed an absorption peak at 278 nm suggesting that the homogeneous b5 contains contaminating amounts of tightly bound detergent which is responsible for the observed inhibition of mixed function oxidase activity and which is removed during extraction of the heme from the apocytochrome and during further gel filtration applications.     

Studies on the red oxidase (cytochrome o) of Azotobacter vinelandii

In an attempt to isolate and to study the electron transport system of $\text{Azotobacter vinelandii}$, we have isolated and purified a membrane-bound cytochrome $\text{o}$. The cytochrome $\text{o}$, purified as a detergent (Triton X-100) and hemoprotein complex, contained 1.6 nmoles heme per mg of protein. Cold-temperature spectrum showed that no other cytochrome was associated with the purified preparation, and electrophoresis revealed that only one type of hemoprotein was obtained. The purified cytochrome $\text{o}$ reacted with both carbon monoxide and cyanide readily. Only in the reduced form did it combine with carbon monoxide, whereas the oxidized form reacted with cyanide. An “oxygenated” form of the cytochrome $\text{o}$ was demonstrated to be spectrally distinguishable from both the oxidized and the reduced forms.     

Isolation of a heme binding subunit from bovine heart cytochrome C oxidase.

A subunit which retains heme has been isolated and purified up to a homogenous form on polyacrylamide gel electrophoretic column in the presence of sodium dodecyl sulfate and β-mercaptoethanol from cytochrome oxidase. The separation of the subunit does not rely on any detergent except cholate used in the preparation of cytochrome oxidase. The purification involves a reaction with pyridine, pH precipitation, and DEAE-cellulose column chromatography. The purified subunit has a molecular weight of 11,600 daltons and contains more than 40 nmol Fe per mg protein; the lower iron content than the calculated value is apparently due to the loss of heme $\text{a}$ in the course of the purification. The subunit is freely soluble in aqueous solution at neutral pH to give a dark green color. Spectral properties and amino acid composition of this subunit have been studied.     

Partial purification and properties of cytochromes P-450 and P-448 from rat liver microsomes

Cytochromes P-450 and P-448 in rat liver microsomes were solubilized with sodium cholate and were partially purified. The preparations contained 5.0–5.5 nmoles of cytochrome P-450 or P-448 per mg of protein; contamination with cytochrome P-420 and cytochrome b₅, was less than 10% of the total heme content. The absolute spectra of Cytochromes P-450 and P-448 differed only slightly; both hemoproteins had a Soret peak at 418–419 nm in the oxidized absolute spectra and at 448 and 450 nm in the reduced plus CO absolute spectra. Both hemoproteins showed typical type I (benzphetamine) and type II (aniline) binding spectra but differed in their binding of hexobarbital (another type I substrate). The total phospholipid content of the preparation (per mg protein) has been reduced by approximately 90% relative to microsomes and the hemoprotein has been purified 20–25 fold with respect to phospholipid. The partially purified hemoprotein fractions, after combination with a reductase and lipid fraction, were capable of oxidizing a variety of substrates inluding drugs, steroids, and chemical carcinogens.     

Heme maintains catalytically active structure of cytochrome P-450

Treatment of purified cytochrome P-450 LM2 and its liposome-bound form with hydrogen peroxide led to complete destruction of the P-450 heme. The apoenzyme thus produced could be reconstituted to catalytically active cytochrome P-450 by incubation with hemin, the reconstitution efficiency being 50% for the soluble enzyme and 80% for the liposome-bound enzyme. The removal of heme from the soluble hemoprotein resulted in a 3-fold decrease in the efficiency of its incorporation into sonicated liposomes. The contents of 5 secondary structure forms in the native, apoand reconstituted holoenzymes were estimated from their circular dichroism spectra. It was thus found that the helix content increased from 34% to 60% upon removal of the heme from the native enzyme. We suggest that the increase in the helix content leads to a reduction of the incorporation efficiency into liposomal membranes.     

Isolation and Partial Characterization of a Cytochrome b Complex and Cytochrome Oxidase from Yeast Mitochondria

A cytochrome b complex and cytochrome oxidase have been purified 14- and 20-fold respectively from yeast submitochondrial particles by a simple procedure involving their spontaneous precipitation from a deoxycholate extract. The recovery of both proteins was almost quantitative. The specific heme contents were 11 and 8 nmoles/mg protein for the cytochrome b complex and cytochrome oxidase respectively and both were spectrally pure. Sodium dodecyl sulfate gel electrophoresis resolved the cytochrome b complex into seven distinct subunits with molecular weights 42, 000, 33, 000, 27, 500, 23, 000, 15, 500, 13, 000 and 10, 500. Cytochrome oxidase contained five bands with molecular weights 42, 000, 26, 500, 21, 000, 14, 000 and 10, 500. Much of the cytochrome b complex (and all of the cytochrome oxidase) could be resolubilized in aqueous buffer following precipitation from the deoxycholate extract. The fraction of the cytochrome b preparation which remained insoluble appeared identical to the soluble protein in terms of polypeptide composition but contained less phospholipid and bound detergent, suggesting that insolubility may result from interaction between hydrophobic regions otherwise occupied by amphiphiles. The soluble cytochrome b complex migrated as a single species upon analytical ultracentrifugation and column chromatography, and during electrophoresis on polyacrylamide gels. Triton X-100, urea, or bile salts, failed to dissociate the complex. These findings suggest that the subunits are tightly associated in situ.     

Growth temperature-dependent stearoyl coenzyme A desaturase activity of Fusarium oxysporum microsomes.

The characteristics of the microsomal stearoyl CoA desaturase (EC 1.14.99.5) of vegetative Fusarium oxysporum cells grown at different temperatures were studied. The enzyme had an unusual preference for NADPH (Km = 38 micrometers) over NADH (Km = 89 micrometers) as electron donor, and a relatively high optimum pH of 8.3. Enzyme activity was highest in microsomes from cells grown at 37 degrees C and lowest in cells grown at 15 degrees C. This result correlated well with the observed changes in oleic acid content of the microsomal lipids. Both NADPH-linked reductase activities and hemoprotein content were lowest in cells grown at 37 degrees C. Spectrophotometric analysis of the microsomal hemoproteins indicated the absence of cytochrome b5 and the presence of a b-type heme with a pyridine hemochrome alpha band absorption maximum at 565 nm. Labile sulfide analysis and inhibitor studies with thenoyltrifluoroacetone suggested a role for an iron-sulfur protein in the electron transfer system associated with the desaturase.     

Effect of the hydrophile-lipophile balance of non-ionic detergents (Triton X-series) on the solubilization of biological membranes and their integral b-type cytochromes.

The solubilization of four integral membrane proteins (i.e. cytochrome b-561 of the chromaffin granule membrane, cytochrome b5 of the endoplasmic reticulum and the mitochondrial b-type cytochrome(s) as well as cytochrome c oxidase) has been studied at 0 degrees C using the non-ionic detergents of the Triton X-series having the common hydrophobic 4(1,1,3,3-tetramethylbutyl)phenoxy (t-octyl-phenoxy) group and a variable average number (n) of polar ethylene oxide units added. Following a pre-extraction of peripheral membrane and matrix proteins with low and high salt concentration and a weak non-ionic detergent (Tween 20, average hydrophile-lipophile balance (HLB) = 16.7), the amount of heme proteins solubilized by subsequent Triton X-solutions was measured. With the detergents tested the degree of solubilization decreased in the sequence cytochrome b-561 greater than cytochrome b5 greater than mitochondrial cytochrome(s) b and parallelled the effect of the detergents on light scattering and the phospholipid to protein ratio of the three membranes. For all the b-cytochromes, the solubilizing power of the detergent increased with decreasing average length of the polar ethylene oxide chain and the hydrophile-lipophile balance as long as clouding did not occur (e.g. Triton X-114,n = 7.5 and HLB = 12.4). Thus, the greatest difference in the degree os solubilization of the three cytochromes was observed with Triton X-405 (n = 40 and HLB = 17.9). All the cytochromes were most efficiently solubilized (i.e. approx. 90%) by Triton X-100 (n = 9.5 and HLB = 13.5).     

Purification and characterization of the cytochrome bd complex from Azotobacter vinelandii: comparison to the complex from Escherichia coli.

Partial purification of a cytochrome bd complex from Azotobacter vinelandii grown under high aeration was achieved by isolating respiratory particles enriched in this hemoprotein via differential centrifugation and detergent extraction. The cytochrome bd complex was subsequently solubilized from the inner membrane with dodecyl maltoside and purified to near homogeneity via DEAE-Sepharose chromatography. Sodium dodecyl sulfate-polyacrylamide gel electrophoresis indicated that the complex consisted of two subunits, with sizes in good agreement with those predicted from the cloned cyd locus (59.7 and 42 kDa). Spectral analysis of the purified complex indicated that the heme components present were cytochromes b560, b595, and d; CO difference spectral studies identified cytochrome d as a CO-reactive component. The complex had a Km for ubiquinol-1 approximately seven times larger than that for the analogous bd complex from Escherichia coli, and O2 consumption curves revealed a Km value for O2 three times greater than that which we determined for the E. coli bd complex.     

The membrane-bound hydrogenase from Paracoccus denitrificans. Purification and molecular characterization

The membrane-bound hydrogenase from Paracoccus denitrificans was purified 68-fold with a yield of 14.6%. The final preparation had a specific activity of 161.9 mumol H2 min-1 (mg protein)-1 (methylene blue reduction). Purification involved solubilization by Triton X-114, phase separation, chromatography on DEAE-Sephacel, ammonium-sulfate precipitation and chromatography on Procion-red HE-3B-Sepharose. Gel electrophoresis under denaturing conditions revealed two non-identical subunits with molecular masses of 64 kDa and 34 kDa. The molecular mass of the native enzyme was 100 kDa, as estimated by FPLC gel filtration in the presence of Chaps, a zwitterionic detergent. The isoelectric point of the Paracoccus hydrogenase was 4.3. Metal analysis of the purified enzyme indicated a content of 0.6 nickel and 7.3 iron atoms/molecule. ESR spectra of the reduced enzyme exhibited a close similarity to the membrane-bound hydrogenase from Alcaligenes eutrophus H16 with g values of 1.86, 1.92 and 1.98. The half-life for inactivation under air at 20 degrees C was 8 h. The Paracoccus hydrogenase reduced several electron acceptors, namely methylene blue, benzyl viologen, methyl viologen, menadione, cytochrome c, FMN, 2,6-dichloroindophenol, ferricyanide and phenazine methosulfate. The highest activity was measured with methylene blue (V = 161.9 U/mg; Km = 0.04 mM), whereas benzyl and methyl viologen were reduced at distinctly lower rates (16.5 U/mg and 12.1 U/mg, respectively). The native hydrogenase from P. denitrificans cross-reacted with purified antibodies raised against the membrane-bound hydrogenase from A. eutrophus H16. The corresponding subunits from both enzymes also showed immunological relationship. All reactions were of partial identity.     

The role of heme in the regulation of tryptophan-2,3-dioxygenase activity and content of cytochrome P-450 in rat liver

The effects of exogenous heme on the activity of delta-aminolevulinate synthase, heme oxygenase, tryptophan-2.3-dioxygenase and microsomal cytochrome content in rat liver were studied. It was shown that hemin chloride diminishes the delta-aminolevulinate synthase activity and provokes heme oxygenase induction. This is paralleled with the induction of the tryptophan 2.3-dioxygenase apoenzyme and an increase in the saturation of the enzyme with heme. The cytochrome b5 content does not change thereby, whereas that of cytochrome P-450 shows a decrease. Upon combined administration of actinomycin D and hemin the cytochrome P-450 level is markedly increased. Actinomycin D by itself has no effect on the hemoprotein concentration. It is concluded that the increase in the cytochrome P-450 level results from the activation of heme-induced mRNA translation.     

Comparative study of the C27-steroid-hydroxylating system from bovine liver mitochondria

A method for purification of C27-steroid hydroxylating cytochrome P-450 (cytochrome P-450(27)) from bovine liver mitochondria was developed. The purification procedure included enzyme extraction from submitochondrial particles with sodium cholate, ammonium sulfate fractionation and biospecific chromatography on cholate-Sepharose and adrenodoxin-Sepharose. The resulting enzyme preparation (317-fold purification, 16% yield) was not electrophoretically homogeneous but did not contain hemoprotein admixtures. The kinetic parameters of 5 beta-cholestane-3 alpha,7 alpha,12 alpha-triol 27-hydroxylation in a reconstituted system containing hepatoredoxin reductase, hepatoredoxin and cytochrome P-450(27) (Km = 23 microM, kcat = 0.3 s-1 at 25 degrees C) were determined. A reciprocal functional equivalency of hepatoredoxin reductase and adrenodoxin reductase as well as of hepatoredoxin and adrenodoxin in reconstituted systems of steroid 27-hydroxylation (liver) and cholesterol side chain cleavage (adrenal cortex) was established. This equivalency was thought to be due to the similarity in essential physico-chemical properties of reductase components which was especially well-pronounced in the case of hepatoredoxin and adrenodoxin. Estimation of the functional role of lysine, dicarboxylic acid and histidine residues in ferredoxin molecules by the chemical modification method revealed the similarity of the structural organization of their protein globules: the polar residues were shown to be essential for the maintenance of native conformation; dicarboxylic acid residues formed a binding domain for the interaction with electron transport proteins, whereas histidine residues seem to participate in electron transport. At the same time, cytochrome P-450(27) and cytochrome P-450 which split the side chain of cholesterol differ in their substrate specificity, immunochemical and catalytic properties.     

Alterations of heme, cytochrome P-450, and steroid metabolism by mercury in rat adrenal

The treatment of male rats with Hg2+ resulted in significant alterations in heme and hemoprotein metabolism in the adrenal gland which, in turn, were reflected in abnormal steroidogenic activities and steroid output. Twenty-four hours after the administration of 30 mumol of HgCl2/kg (sc) the mitochondrial heme and cytochrome P-450 concentrations increased by approximately 50%. Also, Hg2+ treatment stimulated a porphyrinogenic response which included an 11-fold increase in the activity of delta-aminolevulinate synthetase. The increase in mitochondrial cytochrome P-450 content was reflected in elevated steroid 11 beta-hydroxylase and cholesterol side-chain cleavage activities. In contrast, Hg2+ treatment resulted in decreased concentrations of microsomal cytochrome P-450 (-75%) and heme (-45%). Similarly, the reduction in the microsomal cytochrome P-450 content was accompanied by reduced steroid 21 alpha-hydroxylase and benzo[alpha]pyrene hydroxylase activities. The mechanisms responsible for the loss of the microsomal cytochrome P-450 content appeared to involve a selective impairment of formation of the holocytochrome as well as an enhanced rate of heme degradation. This suggestion is made on the basis of findings that (a) the decrease in the microsomal cytochrome P-450 content was accompanied by a sevenfold increase in the activity of adrenal heme oxygenase, (b) no decrease in apocytochrome P-450 could be detected in sodium dodecyl sulfate-gel electrophoresis of the solubilized microsomal fractions stained for heme, and (c) the concentration of adrenal microsomal cytochrome b5 was significantly increased in the Hg2+-treated animals. It is suggested that Hg2+ directly caused a defect in adrenal steroid biosynthesis by inhibiting the activity of 21 alpha-hydroxylase. The apparent physiological consequences of this effect included lowered plasma levels of corticosterone and elevated concentrations of progesterone and dehydroepiandrosterone. This abnormal plasma steroid profile is indicative of a 21 alpha-hydroxylase impairment.     

Isolation and properties of cytochrome P-450 from rabbit liver microsomes]

A purified low-spin form of cytochrome P-450 was isolated from phenobarbital-induced rabbit liver microsomes. The preparation was functionally active and free from cytochromes b5 and P-420 and phospholipids. The specific content of the cytochrome was 18 nmoles per mg of protein. At the molecular weight of the hemoprotein of 50,000, it corresponds to 90% of purification. The purified hemoprotein binds substrates of type II and some substrates of type I. The complexes formed reveal spectral properties, similar to those for the complexes of these substrates with the microsomal form of cytochrome P-450.     

Effect of cis-platinum on kidney cytochrome P-450 and heme metabolism: evidence for the regulatory role of the pituitary hormones

A novel action of the gonadotropic hormones of the adenohypophysis on the regulation of kidney heme metabolism and cytochrome P-450 concentrations is described. The treatment of rats with cis-platinum for 7 days caused a greater than twofold increase in the microsomal cytochrome P-450 and heme concentrations in the kidney. The sodium dodecyl sulfate-gel electrophoresis of the microsomal preparation revealed increased levels of both apocytochrome P-450 and heme in the molecular weight region corresponding to cytochrome P-450. In hypophysectomized rats, similar increases in heme and the cytochrome contents in the kidney were observed. Conversely, the treatment of rats with human chorionic gonadotropin (hCG) fully reversed the effect of cis-platinum on heme and cytochrome P-450 concentrations. The cellular basis of increases in concentrations of heme and the hemoprotein was explored by measuring the incorporation of [14C]glycine-labeled hemoglobin heme into the kidney microsomal heme fractions. In comparison with the control rats, the specific 14C activity of heme in microsomal fraction was not increased. Moreover, the effect of cis-platinum on kidney cytochrome P-450 appeared to be unrelated to alterations in the activities of the rate-limiting enzymes of heme biosynthesis and degradation pathways, delta-aminolevulinate synthetase, and heme oxygenase, respectively. On the other hand, ferrochelatase activity and the concentration of total porphyrins in the kidney were profoundly altered by cis-platinum treatment; a twofold increase in ferrochelatase activity and a marked reduction (40%) in the total porphyrin concentration were observed. Also, the activities of uroporphyrinogen-I synthetase and delta-aminolevulinate dehydratase were decreased in cis-platinum-treated animals. The latter effects reflect a direct inhibitory action of cis-platinum. It appears that the cis-platinum-mediated increase in the microsomal heme concentrations involves an accelerated rate of heme production as a consequence of increased ferrochelatase activity. This, in turn, could increase the production of cytochrome P-450. It is suggested that the anterior pituitary hormones control the concentration of the cytochrome P-450 in the kidney, and this process may be interrupted by cis-platinum.     

Reconstruction and study of a multi-enzyme system by 11 beta-hydroxylase steroids

The reconstitution of the steroid 11 beta-hydroxylase system based on the homogeneous proteins isolated from bovine adrenocortical mitochondria, cytochrome P-450 (P-450 (11 beta), 19-20.5 nmol of heme P-450 per 1 mg of protein), adrenodoxin (Adx) and adrenodoxin reductase (AR) was carried out. The reconstitution of the multienzyme system requires the presence of a non-ionic detergent due to the high hydrophobicity of P-450 (11 beta). Low concentrations of Tween 20 (below 0.015% or 115 microM) stimulate the reaction of steroid 11 beta-hydroxylation by improving the hemoprotein solubility. With a further increase in the detergent concentration, the reaction is inhibited due to the inactivation of the cytochrome and its impaired interaction with Adx. The electron transfer activity of adrenodoxin reductase and the dienzyme AR-Adx complex does not change within the Tween 20 concentration range of 0-0.4%. In solutions with the optimal concentration of Tween 20 (0.010-0.015%), the concentrations of AR and Adx providing for the half-maximum hydroxylation activity are 9 nM for AR and 280 nM for Adx. It was shown that in a reconstituted 11 beta-hydroxylase system, 75% of the reducing equivalents are involved in the formation of oxygen radicals, whereas 25%--in hydroxylation. 74% of the radical species are, in their turn, formed in the active site of the hemoprotein, while 26%--in the Fe2S2 center of adrenodoxin. The radical formation process predominates over the 11 beta-hydroxylation within a wide range of Adx/cytochrome ratios, i.e., 1.0-100. The hydroxylation substrate induces a 4-fold increase in the electron transfer rate by stimulating the enzymatic reduction of P-450 (11 beta), but only 35% of the additional reduced equivalents are consumed by the 11 beta-hydroxylation and 65%--by the oxygen radical formation.     

Mitochondrial biogenesis during fungal spore germination: respiratory cytochromes of dormant and germinating spores of Botryodiplodia.

The mitochondrial respiratory cytochrome contents of dormant and germinating conidia of Botryodiplodia theobromae were examined. Oxidized versus reduced difference spectra at 77 degrees K of whole mitochondria from physiologically mature germinated spores showed a typical a-band pattern for cytochromes c, b, and a, with absorption maxima at 549, 554 + 559, and 604 nm, respectively, whereas the difference spectrum of the counterpart mitochondrial fraction from dormant spores showed no cytochrome a bands. However, a fraction prepared from dormant spore mitochondria by detergent extraction and (NH4)2SO4 fractionation contained readily detectable quantities of cytochromes c and b (as shown by the a and Soret absorption bands), but it did not contain the a or Soret bands of cytochrome a observed in a counterpart preparation from germinated spores. The pyridine hemochromogen preparation from the dormant spore mitochondria contained no material that is spectroscopically characteristic of a-type heme and protoheme. These results suggest that cytochrome a is not present as a functional molecule in dormant spores. The first spectroscopically detectable cytochromes were observed in whole mitochondria at 210 min of spore germination, and the amount of each of the cytochromes increased with cell growth. A precursor of the heme porphyrin, delta-[4-14C]aminolevulinic acid, was first incorporated (at accelerating rates) into acid-insoluble spore material at 180 min of germination, which appears to be the approximate time of organization of new mitochondria in these spores.     

Purification of cytochrome B-561 from chromaffin granules and its physico-chemical properties

A soft method of purification of cytochrome-561 from the membranes of chromaffin granules has been developed. It permits isolating a protein in its natural microsurroundings, i.e. a complex with lipids, provided that a buffer with high ionic force is used without a detergent. This method helps obtaining an electrophoretically homogeneous preparation as a high-molecular lipoprotein hexamer whose molecular weight is about 400 kDa. Basic physicochemical parameters of this preparation (subunit composition, content and composition of lipids, heme content, spectra of optical absorption of the oxidized and reduced forms) are determined. Possible presence of two forms of cytochrome b-561 in the chromaffin granules is discussed.     

Two extracellular proteins with alkaline peroxidase activity, a novel cytochrome c and a catalase-peroxidase, from Bacillus sp. No.13

A novel cytochrome c and a catalase-peroxidase with alkaline peroxidase activity were purified from the culture supernatant of Bacillus sp. No.13 and characterized. The cytochrome c exhibited absorption maxima at 408 nm (Soret band) in its oxidized state, and 550 (alpha-band), 521 (beta-band), and 415 (Soret band) nm in its reduced state. The native cytochrome c with a relative molecular mass of 15,000 was composed of two identical subunits. The cytochrome c showed over 50 times higher peroxidase activity than those of known c-type cytochromes from various sources. The optimum pH and temperature of the peroxidase activity were about 10.0 and 70 degrees C, respectively. The peroxidase activity is stable in the pH range of 6.0 to 10.8 (30 degrees C, 1-h treatment), and at temperatures up to 80 degrees C (pH 8.5, 20-min treatment). The heme content was determined to be 1 heme per subunit. The amino acid sequence of the cytochrome c showed high homology with those of the c-type cytochromes from Bacillus subtilis and Bacillus sp. PS3. The catalase-peroxidase showed high catalase activity and considerable peroxidase activity, the specific activities being 55,000 and 0.94 micromol/min/mg, respectively. The optimum pH and temperature of the peroxidase activity were in the range of 6.4 to 10.1 and 60 degrees C, respectively. The catalase-peroxidase showed a lower K(m) value (0.67 mM) as to H(2)O(2) than known catalase-peroxidases.