C-type cytochromes isloated from an extreme thermophile, Thermus thermophilus HB8.

Two cytochromes of the C-type, c-554 and c-549, were isolated from the soluble fraction of an extreme thermophile, Thermus thermophilus HB8. Highly purified cytochrome c-554 had absorption maxima at 554, 522, and 417 nm in the reduced state, and at 410 nm in the oxidized state. The alpha-band of the reduced state resembled that of "split-alpha" cytochromes. The isoelectric point was at pH 4.9, and the molecular weight was about 29,000. Cytochrome c-549, partially purified, had absorption maxima a6 549,520, and 416 nm in the reduced form, and at 408 nm in the oxidized form. The molecular weight was about 25,000. Both were slowly auto-oxidizable, and did not combine with CO.     

Purification and some properties of cytochrome c-552 from an extreme thermophile, Thermus thermophilus HB8.

A c-type cytochrome, cytochrome c-552, from a soluble fraction of an extreme thermophile, Thermus thermophilus HB8, was highly purified and its properties investigated. The absorption peaks were at 552, 522, and 417 nm in the reduced form, and at 408 nm in the oxidized form. The isoelectric point was at PH 10.8, the midpoint redox potential was about +0.23 V, and the molecular weight was about 15,000. The cytochrome c-552 was highly thermoresistant. The cytochrome reacted rapidly with pseudomonas aeruginosa nitrite reductase [EC 1.9.3.2], but slowly with bovine cytochrome oxidase [EC 1.9.3.1], yeast cytochrome c peroxidase [EC 1.11.1.5], or Nitrosomonas europaea hydroxylamine-cytochrome c reductase [EC 1.7.3.4].     

Isolation and properties of cytochrome c-553, cytochrome c-550, and cytochrome c-549, 554 from Nitrobacter agilis

Three c-type cytochromes isolated from Nitrobacter agilis were purified to apparent homogeneity: cytochrome c-553, cytochrome c-550 and cytochrome c-549, 554. Their amino acid composition and other properties were studied. Cytochrome c-553 was isolated as a partially reduced form and could not be oxidized by ferricyanide. The completely reduced form of the cytochrome had absorption maxima at 419, 524 and 553 nm. It had a molecular weight of 25 000 and dissociated into two polypeptides of equal size of 11 500 during SDS gel electrophoresis. The isoelectric point of cytochrome c-553 was pH 6.8. The ferricytochrome c-550 exhibited an absorption peak at 410 nm and the ferrocytochrome c showed peaks at 416, 521 and 550 nm. The molecular weight of the cytochrome estimated by gel filtration and by SDS gel electrophoresis was 12 500. It had an E_m(7) value of 0.27 V and isoelectric point pH 8.51. The N-terminal sequence of cytochrome c-550 showed a clear homology with the corresponding portions of the sequences of other c-type cytochromes. Cytochrome c-549, 554 possessed atypical absorption spectra with absorption peaks at 402 nm as oxidized form and at 419, 523, 549 and 554 nm when reduced with Na₂S₂O₄. Its molecular weight estimated by gel filtration and SDS polyacrylamide gel electrophoresis was 90 000 and 46 000, respectively. The cytochrome had an isoelectric point of pH 5.6. Cytochrome c-549, 554 was highly autoxidizable.     

Purification and some properties of cytochrome c-552 from a sulfur-oxidizing bacterium, Thiobacillus thiooxidans.

A soluble cytochrome c-552 from Thiobacillus thiooxidans was highly purified and its physico-chemical properteis were studied. The absorption maxima were at 552,523,418 nm in the reduced from and at 412 nm in the oxidized form. The pyridine hemochrome spectrum was the same as that of other cytochromes c. The molecular weight, estimated by the gel filtration method, was found to be 12,600. The isoelectric point was determined to be 9.2-9.3 by the electrofocusing technique. The standard oxidation-reduction potential of this cytochrome was +0.247 V.     

Cytochromes of the green sulfur bacterium Chlorobium vibrioforme f. thiosulfatophilum. Purification,characterization and sulfur metabolism

Three cytochromes of the thiosulfate-utilizing green sulfur bacterium Chlorobium vibrioforme f. thiosulfatophilum were highly purified by ion exchange column chromatography and ammonium sulfate fractionation. All three cytochromes are located in the soluble fraction. Cytochrome c-551 (highest purity index obtained: A₂₈₀/A₄₁₆=0.39) shows maxima at 551 nm (-band), 521 nm (-band), and 416 nm (-band) for the reduced form. This cytochrome is an acidic protein with a molecular weight of 32,000, a redox potential of 150 mV, and an isoelectric point at pH 6.0. Cytochrome c-553 (highest purity index obtained: A₂₈₀/A₄₁₇=0.8) is also an acidic protein with maxima at 553,5 nm, 523,5 nm and 417 nm for the reduced form, a molecular weight of 63,000, a redox potential of 90 mV, an isoelectric point at pH 6.3, and it contains FAD as flavin component. It is autoxidizable and participates in sulfide oxidation, but cannot catalyze the reverse reaction. The cytochrome c-555 (highest purity index obtained: A₂₈₀/A₄₁₈=0.16) is a small basic protein with maxima at 555 nm, 523 nm and 418 nm (reduced form), a molecular weight of 12,500, an isoelectric point between pH 10 and 10.5, and a redox potential of 155 mV. The ratio of the cytochrome contents to each other is constant and does not change when the organism has only thiosulfate or sulfide as the main electron donor in the medium.The soluble fraction further contains the non-heme ironcontaining proteins rubredoxin and ferredoxin. The anaerobic sulfide oxidation in a growing culture of Chlorobium vibrioforme f. thiosulfatophilum is accompanied by a rapid formation of thiosulfate, which is only utilized when sulfide is no longer available, while the elemental sulfur concentration increases constantly until thiosulfate is consumed.Non-common abbreviations C Chlorobium - SDS sodium dodecylsulfate - HIPIP high-potential-iron-sulfur-protein     

Purification and some properties of a soluble cytochrome (cytochrome c-551) from Erythrobacter species strain OCh 114

A soluble cytochrome, cytochrome c-551 was purified from an aerobic photosynthetic bacterium Erythrobacter species strain OCh 114 (ATCC No. 33942) by ammonium sulfate fractionation, ion-exchange chromatography and gel-filtration. The cytochrome had absorption maxima at 277, 410, and 524–525 nm in the oxidized form, and at 415, 522, and 550.5 nm in the reduced form. At 77 K, the -band of the absorption spectrum of the reduced form split in two at 547 and 549 nm. The millimolar absorption coefficient at 550.5 nm was 26.8 mM^-1 cm^-1 in the reduced form. This cytochrome was an acidic protein with an isoelectric point of 4.9. Its molecular weight was determined to be 15,000 by gel-filtration on Sephadex G-100 and 14,500 by sodium dodecyl sulfate polyacrylamide gel electrophoresis. The midpoint potential of this cytochrome was +250 mV at pH 7.0. This cytochrome did not bind CO.     

Characterization of electron donation to cytochrome c-555 in Chromatium vinosum from ferrocyanide, tetramethylphenylenediamine and reduced dimethylquinone. Effects of redox potential, pH and salt concentration

1. The dependences of the reduction of ferricytochrome c-555 in the reaction center-cytochrome c complex on the redox potential and pH were investigated using N,N,N',N'-tetramethyl-p-phenylenediamine (TMPD), ferrocyanide, and reduced 2,5-dimethyl-p-quinone as electron donors. 2. In the reduction of cytochrome c-555 by TMPD, the unprotonated form was the exclusive electron donor to the cytochrome with a second-order rate constant of 1.0 X 10(5) M-1.s-1. 3. Ferrocyanide reduced cytochrome c-555 slowly with a rate constant of 7.8 X 10(3) M-1.s-1 at infinite salt concentration. The value of -5.2 X 10(-4) elementary charge/A2 was estimated as the surface charge density in the vicinity of cytochrome c-555 by analyzing the salt effect on the cytochrome reduction using the Gouy-Chapman theory. 4. The characteristics of the dependences of the reduction of cytochrome c-555 by reduced 2,5-dimethyl-p-quinone on the redox potential and pH were well explained by the redox potential and pH dependences of the formation of the semiquinone. In the neutral-to-alkaline pH range the anionic semiquinone was the main electron-donating species with a second-order rate constant of 6.0 X 10(7) m-1.s-1.     

Two cytochromes c of Methylomonas J

Two kinds of c-type cytochromes, cytochrome c-551 (I), and cytochrome c-551 (II), were highly purified and crystallized from cell-free extract of methanol-grown Methylomonas J (formerly Pseudomonas sp. J) and their physiochemical and biochemical properties were studied. Cytochrome c-551 (I) had an absorption peak at 409 nm in the oxidized form and peaks at 417, 523, 551 nm, and a shoulder at 532 nm in the reduced form. The millimolar extinction coefficient of the alpha-peak of the reduced form was 25.3. The isoelectric point was at pH 5.3 and its standard redox potential was 0.29 V at pH 7.0. The molecular weight was estimated to be 16,000. Cytochrome c-551 (II) had absorption maxima at 409 nm in the oxidized form, and at 416, 521, and 551 nm in the reduced form. The millimolar extinction coefficient of the alpha-peak of the reduced form was 22.4. The isoelectric point was at pH 4.3 and its standard redox form was 22.4. The isoelectric point was at pH 4.3 and its standard redox potential was 0.24 V at pH 7.0. The molecular weight was estimated to be 12,500. The two cytochromes were reduced by methanol dehydrogenase [EC 1.1.99.8] of this bacterium, and formaldehyde was detected as an oxidation product. Ammonium chloride was not essential for reduction of the cytochromes. No significant reduction of the cytochromes was observed by methylamine dehydrogenase isolated from methylamine-grown cells or by 2,6-dichlorophenol-indophenol (DCPIP)-dependent aldehyde dehydrogenase of the methanol-grown cells. The reduced forms of the cytochromes were oxidized by blue copper protein of the methanol-grown cells.     

Membrane-bound cytochrome c is an alternative electron donor for cytochrome aa3 in Nitrobacter winogradskyi.

We purified membrane-bound cytochrome c-550 [cytochrome c-550(m)] to an electrophoretically homogeneous state from Nitrobacter winogradskyi. The cytochrome showed peaks at 409 and 525 nm in the oxidized form and peaks at 416, 521, and 550 nm in the reduced form. The molecular weight of the cytochrome was estimated to be 18,400 on the basis of protein and heme c contents and 18,600 by gel filtration. The N-terminal amino acid sequence of cytochrome c-550(m) was determined to be A-P-T-S-A-A-D-A-E-S-F-N-K-A-L-A-S-A-?-A-E-?-G-A-?-L-V-K-P. We previously purified soluble cytochrome c-550 cytochrome c-550(s)] from N. winogradskyi and determined its complete amino acid sequence (Y. Tanaka, Y. Fukumori, and T. Y. Yamanaka, Biochim. Biophys. Acta 707:14-20, 1982). Although the sequence of cytochrome c-550(m) was completely different from that of cytochrome c-550(s), ferrocytochrome c-550(m) was rapidly oxidized by the cytochrome c oxidase of the bacterium. Furthermore, the liposomes into which nitrite cytochrome c oxidoreductase, cytochrome c oxidase, and nitrite were incorporated showed nitrite oxidase activity in the presence of cytochrome c-550(m). These results suggest that cytochrome c-550(m) may be an alternative electron mediator between nitrite cytochrome c oxidoreductase and cytochrome c oxidase.     

Purification and properties of a diheme cytochrome b561 of the Escherichia coli respiratory chain

A new b-type cytochrome, cytochrome b561 (Murakami, H., Kita, K., Oya, H., and Anraku, Y. (1984) Mol. Gen. Genet. 196, 1-5) was purified to near homogeneity from the cytochrome b561-amplified Escherichia coli K12 strain HM204/pAM5029. The purified cytochrome b561 was a single polypeptide with a molecular weight of 18,000, determined by sodium dodecyl sulfate-polyacrylamide gel electrophoresis. Its isoelectric point was determined to be 9.6. The difference spectrum of the cytochrome at 77 K shows a major alpha-absorption peak at 561 nm and a minor peak at 555 nm. The absolute spectrum at room temperature of the oxidized form of the cytochrome had an absorption peak at 414 nm, and that of the reduced form had peaks at 562, 530, and 428 nm. The oxidation-reduction potential of the cytochrome was estimated to be +20 mV. The cytochrome contained 91.2 nmol of heme/mg of protein, showing that it was a cytoplasmic membrane-bound, b-type diheme cytochrome.     

Parallel electron donation pathways to cytochrome c(z) in the type I homodimeric photosynthetic reaction center complex of Chlorobium tepidum

We studied the regulation mechanism of electron donations from menaquinol:cytochrome c oxidoreductase and cytochrome c-554 to the type I homodimeric photosynthetic reaction center complex of the green sulfur bacterium Chlorobium tepidum. We measured flash-induced absorption changes of multiple cytochromes in the membranes prepared from a mutant devoid of cytochrome c-554 or in the reconstituted membranes by exogenously adding cytochrome c-555 purified from Chlorobium limicola. The results indicated that the photo-oxidized cytochrome c(z) bound to the reaction center was rereduced rapidly by cytochrome c-555 as well as by the menaquinol:cytochrome c oxidoreductase and that cytochrome c-555 did not function as a shuttle-like electron carrier between the menaquinol:cytochrome c oxidoreductase and cytochrome c(z). It was also shown that the rereduction rate of cytochrome c(z) by cytochrome c-555 was as high as that by the menaquinol:cytochrome c oxidoreductase. The two electron-transfer pathways linked to sulfur metabolisms seem to function independently to donate electrons to the reaction center.     

Spectral characterization of c-type cytochromes purified from Beggiatoa alba

Three c-type cytochromes were purified from the filamentous sulfur-oxidizing bacterium, Beggiatoa alba strain B18LD, by ammonium sulfate fractionation, flat bed isoelectric focusing and gel filtration. Two of the cytochromes; flavocytochrome c-554 and cytochrome c, were similar to cytochromes found in anoxygenic photosynthetic bacteria. Flavocytochrome c-554 had an apparent molecular weight of 21,000, an isoelectric focusing point at pH 4.4, contained FMN as the flavin component and had absorption maxima at 410, 450 and 470 nm in the oxidized form and at 417, 523 and 554 nm in the dithionite-reduced from. Cytochrome c was also an acidic protein with a pI of 4.8 and an apparent molecular weight of 18,000. The absorption spectra maxima were at 400, 490 and 635 nm in the oxidized form, at 424 and 550 nm in the dithione-reduced form and at 415 and 555 nm in the dithionite-reduced plus CO form. The third cytochrome characterized, cytochrome c-553 had an apparent molecular weight of 13,000, an isoelectric point at pH 4.4 and showed absorption maxima at 411 nm in the oxidized form and at 418, 523 and 553 nm in the dithionite-reduced form. Cytochrome c-553 was also isolated as a complex with a non-heme protein with a molecular weight of 16,000. The non-heme protein altered the absorption spectra and isoelectric point of cytochrome c-553.Abbreviations IEF isoelectric focusing - M _r molecular weight - pI isoelectric point     

Purification and partial characterization of microsomal cytochrome b555 from the higher plant Catharanthus roseus

Microsomal b-type hemoprotein designated, cytochrome b555 of C.roseus seedlings was solubilized using detergents and purified by a combination of ion exchange chromatography and gel filtration to a specific content of 18.5 nmol per mg of protein. The purified cytochrome b555 was homogeneous and estimated to have an apparent molecular weight of 16500 on SDS-PAGE. The absorption spectrum of the reduced form has major peaks at 424, 525 and 555 nm. The alpha-band of the reduced form is asymmetric with a pronounced shoulder at 559 nm. The spectrum of the pyridine ferrohemochrome shows absorption peaks at 557, 524 and 418 nm indicating that the cytochrome has protoheme prosthetic group. The purified cytochrome is autoxidizable and does not combine with carbon monoxide, azide or cyanide. It is reducible by NADH in the presence of NADH-cytochrome b555 reductase partially purified from C.roseus microsomes.     

Purification and properties of cytochrome c-556 from Agrobacterium tumefaciens B2a.

Cytochrome c-556 from Agrobacterium mefaciens B2a was isolated in a pure, homoneous state. The best purification procedure volved ammonium sulphate fractionation, delting on Sephadex G-25, column chromatographic fractionation on DEAE- and CM-cellulose, and gel filtration on Sephadex G-75 superfine. Substitution of the CM-cellulose step by isoelectric focusing was successful. The purity of the final preparation is warranted by the purity index value, the electrophoretic patterns in the absence and presence of sodium dodecylsulphate, the sedimentation profile and the N-terminal amino acid analysis (alanine). The absorption spectrum of reduced cytochrome c-556 has maxima at 318, 419, 526 and 555.5 nm. The molar extinction coefficient for the alpha-band is 20 200M-1cm-1. The isoelectric point, determined both by preparative and analytical isoelectric focusing, is 5.55 +/- 0.10. The molecular weight of cytochrome c-556 was determined by gel filtration as 12000 and by dodecylsulphate gel electrophoresis as 11 500.     

Two types of cytochrome cd1 in the aerobic photosynthetic bacterium, Erythrobacter sp. OCh 114

Components I and II of cytochrome cd1 which had different spectral features were purified from the aerobic photosynthetic bacterium, Erythrobacter sp. strain OCh 114. Component I showed an absorption maxima at 700 and 406 nm in the oxidized form, and at 621, 552.5, 548 and 416 nm in the reduced form. Component II showed an absorption maxima at 635 and 410 nm in the oxidized form and at 628, 552.5, 548 and 417 nm in the reduced form. The relative molecular mass, Mr, of both cytochromes was determined to be 135,000 with two identical subunits. Components I and II showed pI values of 7.6 and 6.8, respectively. The redox potential of hemes ranged from +234 mV to +242 mV, except for the heme d1 of component I (Em7 = +134 mV). Components I and II showed both cytochrome c oxidase and nitrite reductase activities. Cytochrome c oxidase activity was strongly inhibited by a low concentration of nitrite and cyanide. Erythrobacter cytochromes c-551 and c-552 were utilized as electron donors for the cytochrome c oxidase reaction. The high affinity of cytochrome c-552 to component II (Km = 1.27 microM) suggested a physiological significance for this cytochrome. Erythrobacter cytochromes cd1 are unique in their presence in cells grown under aerobic conditions as compared to other bacterial cytochromes cd1 which are formed only under denitrifying conditions.     

A new membrane-bound b-type cytochrome, cytochrome b-558, from photosynthetically grown Rhodopseudomonas sphaeroides

A new membrane-bound b-type cytochrome, cytochrome b-558, was removed from chromatophore membranes of photosynthetically grown Rhodopseudomonas sphaeroides strain R-26 by deoxycholate-cholate extraction. The cytochrome was purified by ammonium sulfate fractionation and ion-exchange chromatography. Cytochrome b-558 had absorption maxima at 280 and 405 nm in the oxidized form, and at 558, 528, and 420 nm in the reduced form. It had a midpoint potential of--130 mV at pH 7.0. The minimal molecular weight of this protein was 42,000 by sodium dodecyl sulfate-polyacrylamide gel electrophoresis, and it contained one mole heme per mole of protein. The isoelectric point was 8.5. The electrophoretic pattern of heme-carrying proteins and the redox potentiometry showed that cytochrome b-558 was present in membranes from wild type, strain R-26, and strain GA grown photosynthetically, but not from any strain grown aerobically.     

Purification and characterization of cytochrome c-553 from Helicobacter pylori

Helicobacter pylori, a microaerophilic Gram-negative spiral bacterium residing in the human stomach, contains a small size soluble cytochrome c. This cytochrome c was purified from the soluble fraction of H. pylori by conventional chromatographies involving octyl-cellulose and CM-Toyopearl. Its reduced form gave an alpha absorption band at 553 nm, and thus the cytochrome was named H. pylori cytochrome c-553. The cytochrome, giving a band below 10,000 Da upon SDS-PAGE, was determined to have a mass of 8,998 by time of flight mass spectroscopy. Its N-terminal peptide sequence was TDVKALAKS---, indicating that the nascent polypeptide was cleaved to produce a signal peptide of 19 amino acid residues and a mature protein composed of 77 amino acid residues. The cb-type cytochrome c oxidase oxidized ferrocytochrome c-553 of this bacterium actively (V(max) of about 250 s(-1)) with a small K(m) (0.9 microM). Analysis of the effect of the salt concentration on the oxidase activity indicated that oxidation of cytochrome c-553 is highly inhibited under high ionic conditions. The amino acid sequence of H. pylori cytochrome c-553 showed the closest similarity to that of Desulfovibrio vulgaris cytochrome c-553, and these sequences showed a weak relationship to that of the cytochrome c(8)-group among class I cytochromes c.     

Expression, purification, and characterization of recombinant forms of membrane-bound cytochrome c-550nm from Bacillus subtilis

Bacillus subtilis expresses a cytochrome c-550nm that participates in respiratory electron transfer and is an integral membrane protein. Analysis of the B. subtilis cytochrome c-550nm amino acid sequence predicts a single N-terminal transmembrane helix attached to a water-soluble heme binding domain [C. von Wachenfeldt and L. Hederstedt (1990) J. Biol. Chem. 265, 13939-13948]. We have purified cytochrome c-550nm from wild-type B. subtilis and B. subtilis transformed with the shuttle vector pHP13 containing the gene for B. subtilis cytochrome c-550nm (cccA). In B. subtilis transformed with pHP13/cccA there is better than eightfold more membrane-bound cytochrome c-550nm than in wild-type B. subtilis. The overexpressed cytochrome c-550nm can be purified by chromatography on hydroxylapatite and Q-Sepharose media. A six-histidine tag has been added to the C-terminus of cytochrome c-550nm from B. subtilis as a further aid for purification. This strain produces cytochrome c-550nm to a level fourfold greater than wild type and allows for one-step purification using metal affinity chromatography. UV-Vis spectroscopy detects no change in the heme C spectrum due to the addition of six histidines. Neither form of B. subtilis cytochrome c-550nm is stable in its reduced state in aerated buffer, unless EDTA is added. The two forms, wild-type and his-tagged, of cytochromes c have similar midpoint redox potentials of 195 and 185 mV, respectively, and are equally good substrates for B. subtilis cytochrome c oxidase. We conclude that the addition of the histidine tag eases the purification of cytochrome c-550nm from B. subtilis plasma membranes and that the additional metal binding site does not compromise the stability or functional properties of the protein.     

Thiobacillus ferrooxidans cytochrome c-552: purification and some of its molecular features

Soluble cytochrome c-552 was purified from Thiobacillus ferrooxidans to an electrophoretically homogeneous state. The cytochrome showed absorption peaks at 276, 411 and 523 nm in the oxidized form and peaks at 315, 417, 523 and 552 nm in the reduced form. The molecular weight of the cytochrome was estimated to be 13,800 on the basis of the amino acid composition and heme content, and 14,000 from SDS-polyacrylamide gel electrophoresis analysis. Its midpoint redox potential at pH 7.0 was determined to be +0.36 V. The N-terminal amino acid sequence of the cytochrome was determined as follows: A-G-G-A-G-G-P-A-P-Y-R-I-S-?-D-?-M-V-?-S-G-M-P-G-. Ferrocytochrome c-552 was oxidized by the membrane fraction of T. ferrooxidans, and the oxidation rate was more rapid at pH 3.0 than at pH 6.5. Ferricytochrome c-552 was reduced by Fe(II)-cytochrome c oxidoreductase with Fe2+ at pH 3.5, while horse ferricytochrome c was not reduced by the enzyme under the same reaction conditions.     

Purification and properties of monomeric cytochrome f from charlock, Sinapis arvensis L

Monomeric cytochrome f has been purified to homogeneity, as judged by polyacrylamide gel electrophoresis, isoelectric focusing and analytical ultracentrifugation, from the leaves of charlock, Sinapis arvensis L. The cytochrome was obtained in an aqueous extract following extraction of leaf lipids with butan-2-one, and was subsequently purified by acetone precipitation and chromatography on DEAE-cellulose, Sephadex G-100 and hydroxylapatite. The purified cytochrome had adsorbance ratios of A422/A280 = 7.3 and A554/A280 = 1.07 in the reduced form. There was no indication of the presence of an absorbance band at 695 nm in the oxidised form. The cytochrome had a midpoint redox potential of +365 mV and was oxidised very rapidly by parsley plastocyanin. The molecular weight of the cytochrome was approximately 27 000 as determined by sedimentation equilibrium and by polyacrylamide gel electrophoresis in the presence of dodecylsulphate. The sedimentation coefficient (so20,w) of cytochrome f was 2.48 S. The cytochrome had an isoelectric point at pH 5.50 determined by isoelectric focusing in polyacrylamide gels.