Your search keyword '"Ferredoxins analysis"' showing total 275 results

1. A new method to evaluate the unfolding activity of chaperone unit ClpA based on Fe-S cluster disruption.

Author

Ohgita T, Okuno T, Hama S, Tsuchiya H, and Kogure K

Subjects

Endopeptidase Clp chemistry, Endopeptidase Clp metabolism, Escherichia coli metabolism, Escherichia coli Proteins chemistry, Escherichia coli Proteins metabolism, Ferredoxins chemistry, Ferredoxins metabolism, Green Fluorescent Proteins analysis, Green Fluorescent Proteins chemistry, Green Fluorescent Proteins metabolism, Hydrogen-Ion Concentration, Molecular Chaperones chemistry, Molecular Chaperones metabolism, Protein Binding, Spectrophotometry methods, Chemistry, Pharmaceutical methods, Endopeptidase Clp analysis, Escherichia coli enzymology, Escherichia coli Proteins analysis, Ferredoxins analysis, Molecular Chaperones analysis, Protein Unfolding

Abstract

ATP-dependent proteases unfold their substrates and then refold (via chaperone activity) or degrade (via protease activity) them. The proteases choose between these two activities by selecting their substrates; however, little is known about their substrate selection mechanism. The present study attempts to clarify this mechanism by investigating the role of the Escherichia coli (E. coli) ATP-dependent protease ClpAP. To address this, a reaction system that can measure both chaperone and protease activities simultaneously must be constructed. However, the chaperone activities cannot be evaluated in the presence of protease units. Green fluorescent protein (GFP) is usually used as a model substrate of ClpAP; the fluorescence decrease reflects the degradation of substrates. However, it is difficult to evaluate the chaperone activity of ClpAP using this system, because it cannot distinguish between intact and refolded substrates. Therefore, it is necessary to evaluate the exact unfolding activity while avoiding restoration of substrate spectroscopic characteristics due to chaperone activity. In this study, E. coli Ferredoxin (Fd) was used as a new model substrate for ClpAP to evaluate its unfolding activity. Intact and refolded substrates may be distinguished by the existence of an Fd Fe-S cluster. To verify this hypothesis, the absorption spectrum of Fd complexed with ClpA, the chaperone unit of ClpAP, was measured. A decrease in two peaks derived from the Fe-S cluster was observed, indicating that the Fe-S cluster of Fd was disrupted by the ClpA chaperone. This reaction system should prove useful to evaluate the exact unfolding activity of ATP-dependent proteases.

Published

2011

2. Combining steady-state and dynamic methods for determining absolute signs of hyperfine interactions: pulsed ENDOR Saturation and Recovery (PESTRE).

Author

Doan PE

Subjects

Computer Simulation, Algorithms, Ferredoxins analysis, Ferredoxins chemistry, Magnetic Resonance Spectroscopy methods, Models, Chemical

Abstract

The underlying causes of asymmetric intensities in Davies pulsed ENDOR spectra that are associated with the signs of the hyperfine interaction are reinvestigated. The intensity variations in these asymmetric ENDOR patterns are best described as shifts in an apparent baseline intensity that occurs dynamically following on-resonance ENDOR transitions. We have developed an extremely straightforward multi-sequence protocol that is capable of giving the sign of the hyperfine interaction by probing a single ENDOR transition, without reference to its partner transition. This technique, Pulsed ENDOR Saturation and Recovery (PESTRE) monitors dynamic shifts in the 'baseline' following measurements at a single RF frequency (single ENDOR peak), rather than observing anomalous ENDOR intensity differences between the two branches of an ENDOR response. These baseline shifts, referred to as dynamic reference levels (DRLs), can be directly tied to the electron-spin manifold from which that ENDOR transition arises. The application of this protocol is demonstrated on (57)Fe ENDOR of a 2Fe-2S ferredoxin. We use the (14)N ENDOR transitions of the S = 3/2[Fe(II)NO](2+) center of the non-heme iron enzyme, anthranilate dioxygenase (AntDO) to examine the details of the relaxation model using PESTRE., (Copyright © 2010 Elsevier Inc. All rights reserved.)

Published

2011

3. Determining Rieske cluster reduction potentials.

Author

Brown EN, Friemann R, Karlsson A, Parales JV, Couture MM, Eltis LD, and Ramaswamy S

Subjects

Binding Sites, Computer Simulation, Crystallography, X-Ray, Electrochemistry, Electrodes, Electron Transport Complex III metabolism, Ferredoxins metabolism, Hydrogen-Ion Concentration, Oxidation-Reduction, Solvents chemistry, Electron Transport Complex III analysis, Electron Transport Complex III chemistry, Ferredoxins analysis, Ferredoxins chemistry, Pseudomonas chemistry

Abstract

The Rieske iron-sulfur proteins have reduction potentials ranging from -150 to +400 mV. This enormous range of potentials was first proposed to be due to differing solvent exposure or even protein structure. However, the increasing number of available crystal structures for Rieske iron-sulfur proteins has shown this not to be the case. Colbert and colleagues proposed in 2000 that differences in the electrostatic environment, and not structural differences, of a Rieske proteins are responsible for the wide range of reduction potentials observed. Using computational simulation methods and the newly determined structure of Pseudomonas sp. NCIB 9816-4 naphthalene dioxygenase Rieske ferredoxin (NDO-F9816-4), we have developed a model to predict the reduction potential of Rieske proteins given only their crystal structure. The reduction potential of NDO-F9816-4, determined using a highly oriented pyrolytic graphite electrode, was -150+/-2 mV versus the standard hydrogen electrode. The predicted reduction potentials correlate well with experimentally determined potentials. Given this model, the effect of protein mutations can be evaluated. Our results suggest that the reduction potential of new proteins can be estimated with good confidence from 3D structures of proteins. The structure of NDO-F9816-4 is the most basic Rieske ferredoxin structure determined to date. Thus, the contributions of additional structural motifs and their effects on reduction potential can be compared with respect to this base structure.

Published

2008

4. Crystallization and preliminary crystallographic analysis of the ferredoxin component of carbazole 1,9a-dioxygenase from Nocardioides aromaticivorans IC177.

Author

Inoue K, Ashikawa Y, Usami Y, Noguchi H, Fujimoto Z, Yamane H, and Nojiri H

Subjects

Bacterial Proteins analysis, Crystallization, Crystallography, X-Ray, Dioxygenases analysis, Ferredoxins analysis, Bacterial Proteins chemistry, Dioxygenases chemistry, Ferredoxins chemistry, Nocardiaceae enzymology

Abstract

Carbazole 1,9a-dioxygenase (CARDO) catalyzes the dihydroxylation of carbazole by angular position (C9a) carbon bonding to the imino nitrogen and its adjacent C1 carbon. CARDO consists of a terminal oxygenase component and two electron-transfer components: ferredoxin and ferredoxin reductase. The ferredoxin component of carbazole 1,9a-dioxygenase from Nocardioides aromaticivorans IC177 was crystallized at 293 K using the hanging-drop vapour-diffusion method with ammonium sulfate as the precipitant. The crystals, which were improved by macroseeding, diffract to 2.0 A resolution and belong to space group P4(1)2(1)2.

Published

2007

5. Is Helicobacter pylori a true microaerophile?

Author

Bury-Moné S, Kaakoush NO, Asencio C, Mégraud F, Thibonnier M, De Reuse H, and Mendz GL

Subjects

Aerobiosis, Anaerobiosis, Bacterial Proteins analysis, Carbon Dioxide, Culture Media chemistry, Ferredoxins analysis, Helicobacter pylori growth & development, Helicobacter pylori metabolism, Oxygen, Partial Pressure, Serum, beta-Cyclodextrins, Helicobacter pylori physiology

Abstract

Background: There is no general consensus about the specific oxygen and carbon dioxide requirements of the human pathogen Helicobacter pylori. This bacterium is considered a microaerophile and consequently, it is grown under atmospheres at oxygen tensions 5-19% and carbon dioxide tensions 5-10%, both for clinical and basic and applied research purposes. The current study compared the growth of H. pylori in vitro, under various gas atmospheres, and determined some specific changes in the physiology of bacteria grown under different oxygen partial pressures., Methods: Measurements of bacterial growth under various conditions were carried out employing classical solid and liquid culture techniques. Enzymatic activities were measured using spectrophotometric assays., Results: H. pylori and all the other Helicobacter spp. tested had an absolute requirement for elevated carbon dioxide concentrations in the growth atmosphere. In contrast with other Helicobacter spp., H. pylori can tolerate elevated oxygen tensions when grown at high bacterial concentrations. Under 5% CO(2), the bacterium showed similar growth in liquid cultures under oxygen tensions from microaerobic (< 5%) to fully aerobic (21%) at cell densities higher than 5 x 10(5) cfu/ml for media supplemented with horse serum and 5 x 10(7) cfu/ml for media supplemented with beta-cyclodextrin. Evidence that changes occurred in the physiology of H. pylori was obtained by comparing the activities of ferredoxin:NADH (nicotinamide adenine dinucleotide) oxidoreductases of bacteria grown under microaerobic and aerobic atmospheres., Conclusions: H. pylori is a capnophile able to grow equally well in vitro under microaerobic or aerobic conditions at high bacterial concentrations, and behaved like oxygen-sensitive microaerophiles at low cell densities. Some characteristics of H. pylori cells grown in vitro under microaerobic conditions appeared to mimic better the physiology of organisms grown in their natural niche in the human stomach.

Published

2006

6. Development of an ELISA approach for the determination of flavodoxin and ferredoxin as markers of iron deficiency in phytoplankton.

Author

Inda LA and Luisa Peleato M

Subjects

Antibodies chemistry, Antibodies immunology, Biomarkers analysis, Biomarkers chemistry, Chlorophyta chemistry, Horseradish Peroxidase chemistry, Horseradish Peroxidase immunology, Immunodiffusion methods, Linear Models, Phytoplankton metabolism, Sensitivity and Specificity, Enzyme-Linked Immunosorbent Assay methods, Ferredoxins analysis, Flavodoxin analysis, Iron Deficiencies, Phytoplankton chemistry

Abstract

Quantification of the iron-nutritional status of phytoplankton is of great interest not only for the study of oceans but also for fresh waters. Flavodoxin is a small flavoprotein proposed as a marker for iron deficiency, since it is induced as a consequence of iron deprivation, replacing the iron-sulphur protein ferredoxin. Flavodoxin and ferredoxin have been frequently used as markers for determination of iron deficiency in phytoplankton. Using purified flavodoxin and ferredoxin from Scenedesmus vacuolatus and polyclonal antibodies against both proteins, individual ELISA tests have been developed. The assays have a linear response in the range of 30-600 ng/ml of protein.

Published

2003

7. Expression and characterization of ferredoxin and flavin adenine dinucleotide binding domains of the reductase component of soluble methane monooxygenase from Methylococcus capsulatus (Bath).

Author

Blazyk JL and Lippard SJ

Subjects

Binding Sites genetics, Cloning, Molecular, Electron Spin Resonance Spectroscopy, Electron Transport genetics, Ferredoxin-NADP Reductase biosynthesis, Ferredoxin-NADP Reductase chemistry, Ferredoxin-NADP Reductase genetics, Ferredoxins analysis, Flavin-Adenine Dinucleotide analysis, Kinetics, Methylococcus capsulatus genetics, NAD chemistry, Oxidation-Reduction, Oxygenases genetics, Protein Structure, Tertiary genetics, Recombinant Proteins biosynthesis, Recombinant Proteins chemistry, Solubility, Spectrometry, Mass, Electrospray Ionization, Spectrophotometry, Ultraviolet, Ferredoxins biosynthesis, Ferredoxins chemistry, Flavin-Adenine Dinucleotide biosynthesis, Flavin-Adenine Dinucleotide chemistry, Methylococcus capsulatus enzymology, Oxygenases biosynthesis, Oxygenases chemistry

Abstract

Soluble methane monooxygenase (sMMO) from Methylococcus capsulatus (Bath) catalyzes the selective oxidation of methane to methanol, the first step in the primary catabolic pathway of methanotrophic bacteria. A reductase (MMOR) mediates electron transfer from NADH through its FAD and [2Fe-2S] cofactors to the dinuclear non-heme iron sites housed in a hydroxylase (MMOH). The structurally distinct [2Fe-2S], FAD, and NADH binding domains of MMOR facilitated division of the protein into its functional ferredoxin (MMOR-Fd) and FAD/NADH (MMOR-FAD) component domains. The 10.9 kDa MMOR-Fd (MMOR residues 1-98) and 27.6 kDa MMOR-FAD (MMOR residues 99-348) were expressed and purified from recombinant Escherichia coli systems. The Fd and FAD domains have absorbance spectral features identical to those of the [2Fe-2S] and flavin components, respectively, of MMOR. Redox potentials, determined by reductive titrations that included indicator dyes, for the [2Fe-2S] and FAD cofactors in the domains are as follows: -205.2 +/- 1.3 mV for [2Fe-2S](ox/red), -172.4 +/- 2.0 mV for FAD(ox/sq), and -266.4 +/- 3.5 mV for FAD(sq/hq). Kinetic and spectral properties of intermediates observed in the reaction of oxidized MMOR-FAD (FAD(ox)) with NADH at 4 degrees C were established with stopped-flow UV-visible spectroscopy. Analysis of the influence of pH on MMOR-FAD optical spectra, redox potentials, and NADH reaction kinetics afforded pK(a) values for the semiquinone (FAD(sq)) and hydroquinone (FAD(hq)) MMOR-FAD species and two protonatable groups near the flavin cofactor. Electron transfer from MMOR-FAD(hq) to oxidized MMOR-Fd is extremely slow (k = 1500 M(-1) s(-1) at 25 degrees C, compared to 90 s(-1) at 4 degrees C for internal electron transfer between cofactors in MMOR), indicating that cofactor proximity is essential for efficient interdomain electron transfer.

Published

2002

8. Evidence for lateral transfer of genes encoding ferredoxins, nitroreductases, NADH oxidase, and alcohol dehydrogenase 3 from anaerobic prokaryotes to Giardia lamblia and Entamoeba histolytica.

Author

Nixon JE, Wang A, Field J, Morrison HG, McArthur AG, Sogin ML, Loftus BJ, and Samuelson J

Subjects

Alcohol Dehydrogenase analysis, Alcohol Dehydrogenase genetics, Amino Acid Sequence, Anaerobiosis, Animals, Bacteria genetics, Entamoeba histolytica enzymology, Fermentation, Ferredoxins analysis, Ferredoxins classification, Giardia lamblia enzymology, Iron-Sulfur Proteins genetics, Mitochondria genetics, Models, Biological, Molecular Sequence Data, Multienzyme Complexes analysis, Multienzyme Complexes genetics, NADH, NADPH Oxidoreductases analysis, NADH, NADPH Oxidoreductases genetics, Nitroreductases analysis, Nitroreductases classification, Nitroreductases genetics, Phylogeny, Prokaryotic Cells metabolism, Sequence Alignment, Sequence Analysis, Protein, Entamoeba histolytica genetics, Ferredoxins genetics, Gene Transfer, Horizontal, Giardia lamblia genetics, Oxidoreductases genetics

Abstract

Giardia lamblia and Entamoeba histolytica are amitochondriate, microaerophilic protists which use fermentation enzymes like those of bacteria to survive anaerobic conditions within the intestinal lumen. Genes encoding fermentation enzymes and related electron transport peptides (e.g., ferredoxins) in giardia organisms and amebae are hypothesized to be derived from either an ancient anaerobic eukaryote (amitochondriate fossil hypothesis), a mitochondrial endosymbiont (hydrogen hypothesis), or anaerobic bacteria (lateral transfer hypothesis). The goals here were to complete the molecular characterization of giardial and amebic fermentation enzymes and to determine the origins of the genes encoding them, when possible. A putative giardia [2Fe-2S]ferredoxin which had a hypothetical organelle-targeting sequence at its N terminus showed similarity to mitochondrial ferredoxins and the hydrogenosomal ferredoxin of Trichomonas vaginalis (another luminal protist). However, phylogenetic trees were star shaped, with weak bootstrap support, so we were unable to confirm or rule out the endosymbiotic origin of the giardia [2Fe-2S]ferredoxin gene. Putative giardial and amebic 6-kDa ferredoxins, ferredoxin-nitroreductase fusion proteins, and oxygen-insensitive nitroreductases each tentatively supported the lateral transfer hypothesis. Although there were not enough sequences to perform meaningful phylogenetic analyses, the unique common occurrence of these peptides and enzymes in giardia organisms, amebae, and the few anaerobic prokaryotes suggests the possibility of lateral transfer. In contrast, there was more robust phylogenetic evidence for the lateral transfer of G. lamblia genes encoding an NADH oxidase from a gram-positive coccus and a microbial group 3 alcohol dehydrogenase from thermoanaerobic prokaryotes. In further support of lateral transfer, the G. lamblia NADH oxidase and adh3 genes appeared to have an evolutionary history distinct from those of E. histolytica.

Published

2002

9. Hyperproduction of recombinant ferredoxins in escherichia coli by coexpression of the ORF1-ORF2-iscS-iscU-iscA-hscB-hs cA-fdx-ORF3 gene cluster.

Author

Nakamura M, Saeki K, and Takahashi Y

Subjects

Carbon-Sulfur Lyases genetics, Carbon-Sulfur Lyases metabolism, Cell Division genetics, Chromatography, High Pressure Liquid, Culture Media, Electrophoresis, Polyacrylamide Gel, Escherichia coli metabolism, Ferredoxins analysis, Gene Dosage, Genes, Reporter, HSP70 Heat-Shock Proteins genetics, HSP70 Heat-Shock Proteins metabolism, Heat-Shock Proteins genetics, Heat-Shock Proteins metabolism, Molecular Chaperones genetics, Molecular Chaperones metabolism, Open Reading Frames, Protein Engineering methods, Recombinant Proteins metabolism, Escherichia coli genetics, Escherichia coli Proteins, Ferredoxins genetics, Ferredoxins metabolism, Multigene Family, Recombinant Proteins genetics

Abstract

Fe-S proteins acquire Fe-S clusters by an unknown post-translational mechanism. To study the in vivo synthesis of the Fe-S clusters, we constructed an experimental system to monitor the expressed ferredoxin (Fd) as a reporter of protein-bound Fe-S clusters assembled in Escherichia coli. Overexpression of five Fds in a T7 polymerase-based system led to the formation of soluble apoFds and mature holoFds, indicating that assembly of the Fe-S cluster into apoFd polypeptides is a rate-limiting step. We examined the coexpression of the E. coli ORF1-ORF2-iscS-iscU-iscA-hscB-hsc A-fdx-ORF3 gene cluster, which has recently been suggested to be involved in the formation or repair of Fe-S protein [Zheng, L., Cash, V.L., Flint, D.H., and Dean, D.R. (1998) J. Biol. Chem. 273, 13264-13272], with reporter Fds using compatible plasmids. The production of all five reporter holoFds examined was dramatically increased by the coexpression of the gene cluster, and apparent specificity to the polypeptides or to the type of Fe-S clusters was not observed. The increase in holoFd production was observed under the coexpression conditions in all culture media examined, with either 2 x YT medium or Terrific broth, and with or without supplemental cysteine or iron. These results indicate that the proteins encoded by the gene cluster are involved in the assembly of the Fe-S clusters in a wide variety of Fe-S proteins.

Published

1999

10. Hsp60 is targeted to a cryptic mitochondrion-derived organelle ("crypton") in the microaerophilic protozoan parasite Entamoeba histolytica.

Author

Mai Z, Ghosh S, Frisardi M, Rosenthal B, Rogers R, and Samuelson J

Subjects

Alcohol Dehydrogenase analysis, Amino Acid Sequence, Animals, Chaperonin 60 genetics, Cytosol, Entamoeba histolytica genetics, Escherichia coli, Ferredoxins analysis, Glycine, Heat-Shock Response, Humans, Hydrogen, Methionine, Molecular Sequence Data, Mutagenesis, Organelles, Chaperonin 60 metabolism, Entamoeba histolytica metabolism, Mitochondria metabolism

Abstract

Entamoeba histolytica is a microaerophilic protozoan parasite in which neither mitochondria nor mitochondrion-derived organelles have been previously observed. Recently, a segment of an E. histolytica gene was identified that encoded a protein similar to the mitochondrial 60-kDa heat shock protein (Hsp60 or chaperonin 60), which refolds nuclear-encoded proteins after passage through organellar membranes. The possible function and localization of the amebic Hsp60 were explored here. Like Hsp60 of mitochondria, amebic Hsp60 RNA and protein were both strongly induced by incubating parasites at 42 degreesC. 5' and 3' rapid amplifications of cDNA ends were used to obtain the entire E. histolytica hsp60 coding region, which predicted a 536-amino-acid Hsp60. The E. histolytica hsp60 gene protected from heat shock Escherichia coli groEL mutants, demonstrating the chaperonin function of the amebic Hsp60. The E. histolytica Hsp60, which lacked characteristic carboxy-terminal Gly-Met repeats, had a 21-amino-acid amino-terminal, organelle-targeting presequence that was cleaved in vivo. This presequence was necessary to target Hsp60 to one (and occasionally two or three) short, cylindrical organelle(s). In contrast, amebic alcohol dehydrogenase 1 and ferredoxin, which are bacteria-like enzymes, were diffusely distributed throughout the cytosol. We suggest that the Hsp60-associated, mitochondrion-derived organelle identified here be named "crypton," as its structure was previously hidden and its function is still cryptic.

Published

1999

11. Discovery of a novel ferredoxin from Azotobacter vinelandii containing two [4Fe-4S] clusters with widely differing and very negative reduction potentials.

Author

Gao-Sheridan HS, Pershad HR, Armstrong FA, and Burgess BK

Subjects

Bacterial Proteins chemistry, Chromatium chemistry, Circular Dichroism, Electrochemistry, Electron Spin Resonance Spectroscopy, Ferredoxins analysis, Iron-Sulfur Proteins chemistry, Oxidation-Reduction, Sequence Alignment, Sequence Analysis, Spectrophotometry, Azotobacter vinelandii chemistry, Ferredoxins chemistry

Abstract

Ferredoxins that contain 2[4Fe-4S]2+/+ clusters can be divided into two classes. The "clostridial-type" ferredoxins have two Cys-Xaa-Xaa-Cys-Xaa-Xaa-Cys-Xaa-Xaa-Xaa-Cys-Pro motifs. The "chromatium-type" ferredoxins have one motif of that type and one more unusual Cys-Xaa-Xaa-Cys-Xaa7-9-Cys-Xaa-Xaa-Xaa-Cys-Pro motif. Here we report the purification of a novel ferredoxin (FdIII) from Azotobacter vinelandii which brings to 12 the number of small [Fe-S] proteins that have now been reported from this organism. NH2-terminal sequencing of the first 56 amino acid residues shows that FdIII is a chromatium-type ferredoxin with 77% identity and 88% similarity to Chromatium vinosum ferredoxin. Studies of the purified protein by matrix-assisted laser desorption ionization-time of flight mass spectroscopy, iron analysis, absorption, circular dichroism, and electron paramagnetic resonance spectroscopies show that FdIII contains 2[4Fe-4S]2+/+ clusters in a 9,220-Da polypeptide. All 2[4Fe-4S]2+/+ ferredoxins that have been studied to date, including C. vinosum ferredoxin, are reported to have extremely similar or identical reduction potentials for the two clusters. In contrast, electrochemical characterization of FdIII clearly establishes that the two [4Fe-4S]2+/+ clusters have very different and highly negative reduction potentials of -486 mV and -644 mV versus the standard hydrogen electrode.

Published

1998

12. Identification and characterization of the natural electron donor ferredoxin and of FAD as a possible prosthetic group of benzoyl-CoA reductase (dearomatizing), a key enzyme of anaerobic aromatic metabolism.

Author

Boll M and Fuchs G

Subjects

Amino Acid Sequence, Anaerobiosis, Chromatography, Gel, Chromatography, Ion Exchange, Cloning, Molecular, Electron Transport, Ferredoxins analysis, Ferredoxins biosynthesis, Flavin-Adenine Dinucleotide analysis, Gram-Negative Anaerobic Straight, Curved, and Helical Rods growth & development, Kinetics, Molecular Sequence Data, Oxidoreductases isolation & purification, Recombinant Proteins biosynthesis, Recombinant Proteins metabolism, Sequence Alignment, Sequence Homology, Amino Acid, Spectrophotometry, Substrate Specificity, Ferredoxins metabolism, Flavin-Adenine Dinucleotide metabolism, Gram-Negative Anaerobic Straight, Curved, and Helical Rods enzymology, Oxidoreductases chemistry, Oxidoreductases metabolism, Oxidoreductases Acting on CH-CH Group Donors

Abstract

Under anoxic conditions most aromatic compounds are metabolized via benzoyl-CoA which becomes reduced by benzoyl-CoA reductase (dearomatizing); this enzyme was recently described in the bacterium Thauera aromatica [Boll, M. & Fuchs, G. (1995) Eur. J. Biochem. 234, 921-933]. It catalyzes the reaction benzoyl-CoA + 2 e- + 2 H+ + 2 MgATP + 2 H2O --> cyclohexa-1,5-diene-1-carboxyl-CoA + 2 MgADP + 2 Pi. The iron-sulfur protein has a native molecular mass of 160-170 kDa and consists of four different subunits. In addition a flavin may be present. The nature of the potential prosthetic group and the natural electron donor were determined. Purified benzoyl-CoA reductase preparations contained 0.25-0.3 mol FAD/mol enzyme. Cells grown anaerobically with aromatic substrates contained a ferredoxin which represented the main, if not the only ferredoxin present. It was purified from 200 g cells with a yield of 60 mg and its N-terminal amino acid sequence was determined. The native molecular mass was 9659 +/- 2 Da as determined by electrospray mass spectrometry. The protein contained 7.6 +/- 0.6 mol iron and 7.6 +/- 1 mol acid-labile sulfur/mol. The ultraviolet-visible spectrum of the protein was typical for ferredoxins with maxima at 280 nm and 390 nm (in the oxidized state). The estimated molar absorption coefficients were 63500 M(-1) cm(-1) at 280 nm and 40500 M(-1) cm(-1) at 390 nm. The difference spectrum between the oxidized and the reduced form had a maximum at 415 nm with delta epsilon415 = 8200 M(-1) cm(-1). 1 mol ferredoxin became reduced/mol dithionite added, suggesting the presence of two [4Fe-4S] clusters. The average midpoint potential of the iron-sulfur clusters was -450 mV. The ferredoxin gene was cloned and sequenced. It was located in a gene cluster coding for enzymes involved in anaerobic aromatic metabolism. The amino acid sequence of the T. aromatica ferredoxin showed high similarities to several other ferredoxins containing 2[4Fe-4S] clusters, e.g. from Clostridia and phototrophic bacteria. The reduced ferredoxin served as electron donor for benzoyl-CoA reduction at a three times higher rate compared with the rate obtained with the artificial electron donor reduced methyl viologen. The turnover number with the natural electron donor of 5 s(-1) can explain the bacterial growth rate with benzoate as substrate. Half-maximal enzyme activity was obtained with 6 microM reduced ferredoxin, at an estimated cellular concentration of 70 microM ferredoxin. Both the low apparent Km value and the turnover number are consistent with the proposed role of ferredoxin in aromatic-ring reduction.

Published

1998

13. Localization and specificity of cytochromes and other electron transfer proteins from sulfate-reducing bacteria.

Author

Le Gall J, Payne WJ, Chen L, Liu MY, and Xavier AV

Subjects

Amino Acid Sequence, Bacterial Proteins analysis, Bacterial Proteins isolation & purification, Cytochrome c Group analysis, Cytochrome c Group isolation & purification, Desulfovibrio growth & development, Desulfovibrio vulgaris metabolism, Electron Transport, Ferredoxins analysis, Ferredoxins isolation & purification, Hemerythrin, Hydrogenase analysis, Hydrogenase isolation & purification, Hydrogensulfite Reductase, Molecular Sequence Data, Oxidoreductases Acting on Sulfur Group Donors analysis, Oxidoreductases Acting on Sulfur Group Donors isolation & purification, Oxidoreductases Acting on Sulfur Group Donors metabolism, Protein Sorting Signals chemistry, Rubredoxins, Subcellular Fractions metabolism, Substrate Specificity, Bacterial Proteins metabolism, Cytochrome c Group metabolism, Desulfovibrio metabolism, Ferredoxins metabolism, Hydrogenase metabolism

Abstract

Recently data have accumulated concerning the electron transfer chains of sulfate-reducing bacteria in general and of the genus Desulfovibrio in particular. Because of the ever growing number of newly discovered individual redox proteins, it has become essential to try to assign them to physiologically relevant chains. This work presents some new data concerning the localization of these proteins within the bacterial cell and the specificity of electron transfer between the three types of hydrogenases which have been found so far in Desulfovibrio, namely the iron-only, the iron-nickel and the iron-nickel-selenium enzymes. The iron-only hydrogenase reduces cytochromes which have bis-histidinyl heme ligation or histidinyl-methionyl heme ligation. In contrast, the iron-nickel and iron-nickel-selenium hydrogenases cannot reduce cytochromes having a His-Met heme ligation, but are very active toward the cytochromes having a bis-histidinyl ligand. This observation has been used to demonstrate that the tetraheme cytochrome c3 can exchange electrons with the monoheme cytochrome c553. No clear specificity has been established for the reaction of hydrogenases toward the hexadecaheme cytochromes from either D vulgaris or D gigas.

Published

1994

14. Nigerythrin and rubrerythrin from Desulfovibrio vulgaris each contain two mononuclear iron centers and two dinuclear iron clusters.

Author

Pierik AJ, Wolbert RB, Portier GL, Verhagen MF, and Hagen WR

Subjects

Amino Acid Sequence, Bacterial Proteins analysis, Bacterial Proteins immunology, Electron Spin Resonance Spectroscopy, Ferredoxins analysis, Ferredoxins immunology, Hemerythrin analysis, Hemerythrin chemistry, Hemerythrin immunology, Molecular Sequence Data, Oxidation-Reduction, Rubredoxins, Spectrophotometry, Ultraviolet, Bacterial Proteins chemistry, Desulfovibrio vulgaris chemistry, Ferredoxins chemistry, Hemerythrin analogs & derivatives, Iron analysis

Abstract

The trivial name 'rubr-erythrin' is a contraction of two other trivial names: rubredoxin (ruber, red) and hemerythrin. It names a protein of undetermined biological function which putatively carries rubredoxin-like mononuclear iron and hemerythrin-like dinuclear iron. The name 'nigerythrin' (niger, black) is an analogy of rubrerythrin. It identifies a second protein of undetermined function which has prosthetic groups similar to rubrerythrin. Rubrerythrin was initially described [LeGall, J., Prickril, B. C., Moura, I., Xavier, A. V., Moura, J. J. G. & Huynh, B.-H. (1988) Biochemistry 27, 1636-1642] as a homodimer with four iron ions arranged into two rubredoxin sites and one inter-subunit dinuclear cluster. Nigerythrin is a novel protein. Here, we report that both proteins are homodimers, each dimer carrying not four but six iron ions in two mononuclear centers and two dinuclear clusters. Rubrerythrin and nigerythrin are probably both located in the cytoplasm; they are differentially characterized with respect to molecular mass, pI, N-terminal sequence, antibody cross-reactivity, optical absorption, EPR spectroscopy, and reduction potentials. All three reduction potentials in both proteins are > +200 mV. These appear too high to be of practical relevance in the cytoplasm of the sulfate reducer Desulfovibrio vulgaris (Hildenborough). We suggest the possibility of a non-redox role for both proteins with all six iron ions in the ferrous state.

Published

1993

15. A specific stain for the detection of nonheme iron proteins in polyacrylamide gels.

Author

Leong LM, Tan BH, and Ho KK

Subjects

Animals, Blood Proteins isolation & purification, Carrier Proteins isolation & purification, Cattle, Chromogenic Compounds, Electrophoresis, Polyacrylamide Gel methods, Ferredoxins isolation & purification, Ferricyanides, Ferritins isolation & purification, Fetal Blood chemistry, Horses, Humans, Iron-Binding Proteins, Isoelectric Focusing methods, Microchemistry methods, Myoglobin isolation & purification, Rosaniline Dyes, Serum Albumin, Bovine isolation & purification, Staining and Labeling, Transferrin isolation & purification, Transferrin-Binding Proteins, Triazines, Blood Proteins analysis, Carrier Proteins analysis, Ferredoxins analysis, Ferritins analysis, Iron analysis, Myoglobin analysis, Serum Albumin, Bovine analysis, Transferrin analysis

Abstract

Nonheme iron proteins can be visualized as blue bands in native polyacrylamide gels using a staining method that is both simple and rapid. The reaction of potassium ferricyanide with protein-bound iron atoms to form royal blue complexes occurs almost instantaneously and is sensitive enough to detect 1 microgram of analytical-grade ferritin and 2 micrograms of purified ferredoxin from cyanobacteria. No special treatment of reagents or apparatus was necessary. On comparison, this stain was found to be more specific than the Ferene S stain, not detecting bovine serum albumin even when present as a hundredfold excess over ferritin. The method was found to be effective for isoelectric focusing gels as well.

Published

1992

16. The distribution of soluble metallo-redox proteins in purple phototrophic bacteria.

Author

Bartsch RG

Subjects

Electron Transport, Oxidation-Reduction, Photosynthetic Reaction Center Complex Proteins analysis, Bacteria analysis, Cytochromes analysis, Ferredoxins analysis

Abstract

A comparison is made of types and distribution of cytochromes and certain ferredoxins (HiPIP) among photosynthetic bacteria. These are subdivided as to the type of reaction center each species is believed to contain. The proteins listed are assumed to be of periplasmic origin. Interrelationships suggested by the comparison are discussed.

Published

1991

17. Amino acid sequence and molecular modelling of a thermostable two (4Fe-4S) ferredoxin from the archaebacterium Methanococcus thermolithotrophicus.

Author

Bruschi M, Bonicel J, Hatchikian EC, Fardeau ML, Belaich JP, and Frey M

Subjects

Amino Acid Sequence, Amino Acids analysis, Ferredoxins analysis, Models, Molecular, Molecular Sequence Data, Protein Conformation, Sequence Homology, Nucleic Acid, Temperature, X-Ray Diffraction, Euryarchaeota analysis, Ferredoxins chemistry

Abstract

The amino acid sequence of a two (4Fe-4S) ferredoxin from the methanogenic bacterium Methanococcus thermolithotrophicus (FdMt) has been determined. This thermostable protein comprises 60 amino acid residues (Mr 6541) and two (4Fe-4S) clusters chelated to the protein through the eight cysteines. FdMt contains a relatively high number of lysines [5], threonines [4] and valines [10]. The three-dimensional molecular model generated from the Peptococcus aerogenes X-ray structure keeps the characteristic overall ferredoxin folding thanks to complementary substitutions of residues of the hydrophobic core. The major structural features of the model are the different environments of both clusters, and the patch of three lysines at one end of the molecule. The possible role of several structural factors in the thermostability of the protein is discussed.

Published

1991

18. Ferredoxin and ferredoxin-NADP reductase from photosynthetic and nonphotosynthetic tissues of tomato.

Author

Green LS, Yee BC, Buchanan BB, Kamide K, Sanada Y, and Wada K

Subjects

Amino Acid Sequence, Cytochrome c Group analysis, Ferredoxin-NADP Reductase metabolism, Ferredoxins metabolism, Solanum lycopersicum chemistry, Solanum lycopersicum enzymology, Molecular Sequence Data, Oxidation-Reduction, Photosynthesis physiology, Plant Leaves enzymology, Plant Leaves metabolism, Plant Proteins metabolism, Plant Roots enzymology, Plant Roots metabolism, Ferredoxin-NADP Reductase analysis, Ferredoxins analysis, Solanum lycopersicum metabolism, Plant Leaves chemistry, Plant Proteins analysis, Plant Roots chemistry

Abstract

Ferredoxin and ferredoxin-NADP+ oxidoreductase (FNR) were purified from leaves, roots, and red and green pericarp of tomato (Lycopersicon esculentum, cv VFNT and cv Momotaro). Four different ferredoxins were identified on the basis of N-terminal amino acid sequence and charge. Ferredoxins I and II were the most prevalent forms in leaves and green pericarp, and ferredoxin III was the most prevalent in roots. Red pericarp of the VFNT cv yielded variable amounts of ferredoxins II and III plus a unique form, ferredoxin IV. Red pericarp of the Momotaro cv contained ferredoxins I, II, and IV. This represents the first demonstration of ferredoxin in a chromoplast-containing tissue. There were no major differences among the tomato ferredoxins in absorption spectrum or cytochrome c reduction activity. Two forms of FNR were present in tomato as judged by anion exchange chromatography and by sodium dodecyl sulfate-polyacrylamide gel electrophoresis. FNR II had a lower apparent relative molecular weight, a slightly altered absorption spectrum, and a lower specific activity for cytochrome c reduction than FNR I. FNR II could be a partially degraded form of FNR I. The FNRs from the different tissues of tomato plants all showed diaphorase activity, with FNR II being more active than FNR I. The presence of ferredoxin and FNR in heterotrophic tissues of tomato is consistent with the existence of a nonphotosynthetic ferredoxin/FNR redox pathway to support the function of ferredoxin-dependent enzymes.

Published

1991

19. N-terminal amino acid sequence analysis of small subunits of photosystem I reaction center complex from a thermophilic cyanobacterium, Synechococcus elongatus Nägeli.

Author

Enami I, Kaiho H, Izumi H, Katoh S, Kotani N, Jone CS, Kamo M, and Tsugita A

Subjects

Amino Acid Sequence, Electrophoresis, Polyacrylamide Gel, Light-Harvesting Protein Complexes, Molecular Sequence Data, Molecular Weight, Photosynthetic Reaction Center Complex Proteins, Photosystem I Protein Complex, Apoproteins analysis, Chlorophyll isolation & purification, Cyanobacteria analysis, Ferredoxins analysis, Plant Proteins isolation & purification

Abstract

Four small subunits (14, 13, 10, and 8 kDa) of the photosystem I reaction center complex were isolated from a thermophilic cyanobacterium Synechococcus elongatus and their N-terminal amino acid sequences determined. Sequence analysis of the 10-kDa subunit revealed that the distribution of cysteine residues, Cys-X-X-Cys-X-X-Cys-X-X-X-Cys-Pro, is characteristic of bacterial-type ferredoxins, and that its partial sequence is highly homologous to that deduced from the chloroplast gene frx A of liverwort. This indicates that the 10-kDa polypeptide is an apoprotein carrying two iron-sulfur centers, FA and FB, assigned as [4Fe-4S] clusters, which mediated the light-activated transfer of electrons from P700 in photosystem I reaction center complex to soluble ferredoxin. The amino acid sequence of the 14-kDa polypeptide also showed similarity to that of the 20-kDa polypeptide from spinach chloroplast that can be chemically crosslinked with soluble ferredoxin. Thus, the 14-kDa polypeptide appears to be the ferredoxin 'docking' protein.

Published

1990

20. Electron transfer reactions of metalloproteins at peptide-modified gold electrodes.

Author

Barker PD, Di Gleria K, Hill HA, and Lowe VJ

Subjects

Azurin analysis, Cytochrome c Group analysis, Electrochemistry, Electron Transport, Ferredoxins analysis, Gold, Hydrogen-Ion Concentration, Oxidation-Reduction, Peptides, Plastocyanin analysis, Surface Properties, Electrodes, Metalloproteins analysis

Abstract

The electron transfer reactions of four small redox proteins, cytochrome c. ferredoxin, plastocyanin and azurin, have been investigated at novel peptide-modified gold electrodes. These proved to be effective and selective in facilitating electron transfer. Good, quasi-reversible electron transfer was achieved selectively at different peptide-protein configurations by changing the pH or the ionic strength of the solution. The use of peptides as promoters for protein electrochemistry opens up the possibility of designing very specific electrode surfaces for larger molecules like enzymes.

Published

1990

21. Detection and characterization of hyperfine-shifted resonances in the proton nuclear magnetic resonance spectrum of Anabaena 7120 ferredoxin at high magnetic fields.

Author

Skjeldal L, Westler WM, and Markley JL

Subjects

Eukaryota analysis, Ferredoxins analysis, Magnetic Resonance Spectroscopy methods

Abstract

This paper presents previously unobserved signals in the 1H NMR spectra of oxidized and reduced [2Fe-2S]-ferredoxin from Anabaena 7120 detected at 400, 500, and 600 MHz. The signals shifted to low field exhibited longitudinal relaxation (T1) values in the range of 100-400 microseconds and line widths in the range of 1-10 kHz (at 400 MHz), and the chemical shifts of all signals showed strong temperature dependence. Although the line widths were smaller at lower magnetic fields, the resolution was better at higher magnetic fields. In the oxidized state, a broad signal was detected at 37 ppm, which corresponds to at least 6 protons, and whose chemical shift exhibits positive temperature dependence. This signal also was found in oxidized ferredoxin reconstituted in 2H2O, which excludes the signal as arising from solvent-exchangeable amide protons. In the reduced state, four signals detected between 90 and 140 ppm exhibited negative temperature dependence. These consisted of two pairs of signals, each pair having one component with half the linewidth of the other. On the basis of their chemical shifts, linewidths, longitudinal relaxation properties, and temperature dependence we assigned these resonances to four of the beta hydrogens of the ligated cysteines. Two solvent-exchangeable hyperfine-shifted signals were found in the reduced state; these are located upfield of the diamagnetic region. The low-field hyperfine resonances of half-reduced ferredoxin in the presence of sodium dithionite showed a self electron transfer exchange rate that was slow on the NMR scale as observed earlier (Chan, T., and Markley, J. L. (1983) Biochemistry 22, 5982-5987), but the exchange rate was accelerated in the presence of methyl viologen.

Published

1990

22. Multinuclear magnetic resonance studies of the 2Fe.2S* ferredoxin from Anabaena species strain PCC 7120. 3. Detection and characterization of hyperfine-shifted nitrogen-15 and hydrogen-1 resonances of the oxidized form.

Author

Oh BH and Markley JL

Subjects

Amino Acid Sequence, Bacterial Proteins, Hydrogen, Iron analysis, Magnetic Resonance Spectroscopy methods, Molecular Sequence Data, Nitrogen Isotopes, Eukaryota analysis, Ferredoxins analysis

Abstract

All the nitrogen signals from the amino acid side chains and 80 of the total of 98 backbone nitrogen signals of the oxidized form of the 2Fe.2S* ferredoxin from Anabaena sp. strain PCC 7120 were assigned by means of a series of heteronuclear two-dimensional experiments [Oh, B.-H. Mooberry, E. S., & Markley, J. L. (1990) Biochemistry (second paper of three in this issue )]. Two additional nitrogen signals were observed in the one-dimensional 15N NMR spectrum and classified as backbone amide resonances from residues whose proton resonances experience paramagnetic broadening. The one-dimensional 15N NMR spectrum shows nine resonances that are hyperfine shifted and broadened. From this inventory of diamagnetic nitrogen signals and the available X-ray coordinates of a related ferredoxin [Tsukihara, T., Fukuyama, K., Nakamura, M., Katsube, Y., Tanaka, N., Kakudo, M., Wada, K., Hase, T., & Matsubara, H. (1981) J. Biochem. 90, 1763-1773], the resolved hyperfine-shifted 15N peaks were attributed to backbone amide nitrogens of the nine amino acids that share electrons with the 2Fe.2S* center or to backbone amide nitrogens of two other amino acids that are close to the 2Fe.2S* center. The seven 15N signals that are missing and unaccounted for probably are buried under the envelope of amide signals. 1H NMR signals from all the amide protons directly bonded to the seven missing and nine hyperfine-shifted nitrogens were too broad to be resolved in conventional 2D NMR spectra.(ABSTRACT TRUNCATED AT 250 WORDS)

Published

1990

23. Multinuclear magnetic resonance studies of the 2Fe.2S* ferredoxin from Anabaena species strain PCC 7120. 1. Sequence-specific hydrogen-1 resonance assignments and secondary structure in solution of the oxidized form.

Author

Oh BH and Markley JL

Subjects

Amino Acid Sequence, Bacterial Proteins, Hydrogen, Iron analysis, Magnetic Resonance Spectroscopy methods, Molecular Sequence Data, Peptide Mapping, Protein Conformation, Eukaryota analysis, Ferredoxins analysis

Abstract

Complete sequence-specific assignments were determined for the diamagnetic 1H resonances from Anabaena 7120 ferredoxin (Mr = 11,000). A novel assignment procedure was followed whose first step was the identification of the 13C spin systems of the amino acids by a 13C(13C) double quantum correlation experiment [Oh, B.-H., Westler, M. W., Darba, P., & Markley, J. L. (1988) Science 240, 908-911]. Then, the 1H spin systems of the amino acids were identified from the 13C spin systems by means of direct and relayed 1H(13C) single-bond correlations [Oh, B.-H., Westler, W. M., & Markley, J. L. (1989) J. Am. Chem. Soc. 111, 3083-3085]. The sequential resonance assignments were based mainly on conventional interresidue 1H alpha i-1HNi + 1 NOE connectivities. Resonances from 18 residues were not resolved in two-dimensional 1H NMR spectra. When these residues were mapped onto the X-ray crystal structure of the homologous ferredoxin from Spirulina platensis [Fukuyama, K., Hase, T., Matsumoto, S., Tsukihara, T., Katsube, Y., Tanaka, N., Kakudo, M., Wada, K., & Matsubara, H. (1980) Nature 286, 522-524], it was found that they correspond to amino acids close to the paramagnetic 2Fe.2S* cluster. Cross peaks in two-dimensional homonuclear 1H NMR spectra were not observed for any protons closer than about 7.8 A to both iron atoms. Secondary structural features identified in solution include two antiparallel beta-sheets, one parallel beta-sheet, and one alpha-helix.

Published

1990

24. Multinuclear magnetic resonance studies of the 2Fe.2S* ferredoxin from Anabaena species strain PCC 7120. 2. Sequence-specific carbon-13 and nitrogen-15 resonance assignments of the oxidized form.

Author

Oh BH, Mooberry ES, and Markley JL

Subjects

Amino Acid Sequence, Bacterial Proteins, Carbon Isotopes, Iron analysis, Magnetic Resonance Spectroscopy methods, Molecular Sequence Data, Nitrogen Isotopes, Peptide Mapping, Protein Conformation, Eukaryota analysis, Ferredoxins analysis

Abstract

Multinuclear two-dimensional NMR techniques were used to assign nearly all diamagnetic 13C and 15N resonances of the plant-type 2Fe.2S* ferredoxin from Anabaena sp. strain PCC 7120. Since a 13C spin system directed strategy had been used to identify the 1H spin systems [Oh, B.-H., Westler, W. M., & Markley, J. L. (1989) J. Am. Chem. Soc. 111, 3083-3085], the sequence-specific 1H assignments [Oh, B.-H., & Markley, J. L. (1990) Biochemistry (first paper of three in this issue)] also provided sequence-specific 13C assignments. Several resonances from 1H-13C groups were assigned independently of the 1H assignments by considering the distances between these nuclei and the paramagnetic 2Fe.2S* center. A 13C-15N correlation data set was used to assign additional carbonyl carbons and to analyze overlapping regions of the 13C-13C correlation spectrum. Sequence-specific assignments of backbone and side-chain nitrogens were based on 1H-15N and 13C-15N correlations obtained from various two-dimensional NMR experiments.

Published

1990

25. 13C-NMR of Clostridium pasteurianum ferredoxin after reductive methylation of the amines using [13C]formaldehyde.

Author

Gluck M and Sweeney WV

Subjects

Amines, Carbon Isotopes, Chemical Phenomena, Chemistry, Formaldehyde, Magnetic Resonance Spectroscopy methods, Methylation, Oxidation-Reduction, Protein Conformation, Spectrophotometry, Ultraviolet, Clostridium metabolism, Ferredoxins analysis

Abstract

Clostridium pasteurianum 2(4Fe-4S) ferredoxin has been reductively methylated using [13C]formaldehyde and sodium cyanoborohydride. Lys3 and the N-terminal alanine, the only amines in the protein, are both dimethylated by this procedure. 13C-NMR titration of the apo, oxidized and reduced modified ferrodoxin indicate that the lysine pK is slightly over 10 in all three forms of the protein. In contrast, the N-terminal alanine shifts from a pK of 7.7 in the apoprotein to greater than 9 in both the oxidized and reduced modified ferredoxin. The unexpectedly high pK observed for the N-terminus is consistent with the presence of an ion pair in both the oxidized and reduced native forms of the protein. The methylated ferrodoxin is considerably less stable than the native protein, indicating an important role for the amines in protein stability.

Published

1990

26. Primary structure of a 7Fe ferredoxin from Streptomyces griseus.

Author

Trower MK, Marshall JE, Doleman MS, Emptage MH, and Sariaslani FS

Subjects

Amino Acid Sequence, Amino Acids analysis, Cytochrome P-450 Enzyme System metabolism, Ferredoxins metabolism, Molecular Sequence Data, Molecular Weight, Mycobacterium analysis, Peptide Fragments, Sequence Homology, Nucleic Acid, Serine Endopeptidases, Sulfur analysis, Trypsin, Ferredoxins analysis, Iron analysis, Streptomyces griseus analysis

Abstract

The complete primary structure of a Streptomyces griseus (ATCC 13273) 7Fe ferredoxin, which can couple electron transfer between spinach ferredoxin reductase and S. griseus cytochrome P-450soy for NADPH-dependent substrate oxidation, has been determined by Edman degradation of the whole protein and peptides derived by Staphylococcus aureus V8 proteinase and trypsin digestion. The protein consists of 105 amino acids and has a calculated molecular weight, including seven irons and eight sulfurs, of 12,291. The ferredoxin sequence is highly homologous (73%) to that of the 7Fe ferredoxin from Mycobacterium smegmatis. The N-terminal half of the sequence, which is the Fe-S clusters binding domain, has more than 50% homology with other 7Fe ferredoxins. In particular, the seven cysteines known from the crystal structure of Azotobacter vinelandii ferredoxin I to be involved in binding the two Fe-S clusters are conserved.

Published

1990

27. Purification and properties of ferredoxinNAP, a component of naphthalene dioxygenase from Pseudomonas sp. strain NCIB 9816.

Author

Haigler BE and Gibson DT

Subjects

Dioxygenases, Ferredoxins analysis, Ferredoxins metabolism, Molecular Weight, Ferredoxins isolation & purification, Multienzyme Complexes analysis, Oxygenases analysis, Pseudomonas analysis

Abstract

One of the three components of the naphthalene dioxygenase occurring in induced cells of Pseudomonas sp. strain NCIB 9816 has been purified to homogeneity. The protein contained 2 g-atoms each of iron and acid-labile sulfur and had an apparent molecular weight of 13,600. The evidence indicates that it is a ferredoxin-type protein that functions as an intermediate electron transfer protein in naphthalene dioxygenase activity.

Published

1990

28. Rubredoxin.

Author

Lovenberg W and Walker MN

Subjects

Amino Acid Sequence, Anaerobiosis, Clostridium analysis, Cytochrome c Group, Desulfovibrio analysis, Micrococcus analysis, Oxidation-Reduction, Peptostreptococcus analysis, Rubredoxins isolation & purification, Species Specificity, Spectrophotometry methods, Ferredoxins analysis, Rubredoxins analysis

Published

1978

29. Nucleotide sequence of the Klebsiella pneumoniae nifD gene and predicted amino acid sequence of the alpha-subunit of nitrogenase MoFe protein.

Author

Ioannidis I and Buck M

Subjects

Amino Acid Sequence, Base Sequence, Cysteine analysis, Klebsiella pneumoniae genetics, Molecular Sequence Data, Species Specificity, Ferredoxins analysis, Genes, Bacterial, Klebsiella pneumoniae enzymology, Molybdoferredoxin analysis, Nitrogen Fixation genetics, Nitrogenase genetics

Abstract

The nucleotide sequence of the Klebsiella pneumoniae nifD gene is presented and together with the accompanying paper [Holland, Zilberstein, Zamir & Sussman (1987) Biochem. J. 247, 277-285] completes the sequence of the nifHDK genes encoding the nitrogenase polypeptides. The K. pneumoniae nifD gene encodes the 483-amino acid-residue nitrogenase alpha-subunit polypeptide of Mr 54156. The alpha-subunit has five strongly conserved cysteine residues at positions 63, 89, 155, 184 and 275, some occurring in a region showing both primary sequence and potential structural homology to the K. pneumoniae nitrogenase beta-subunit. A comparison with six other alpha-subunit amino acid sequences has been made, which indicates a number of potentially important domains within alpha-subunits.

Published

1987

30. [Resonance Raman scattering of metal-containing proteins].

Author

Hayashi H and Tasumi M

Subjects

Ferredoxins analysis, Hemeproteins analysis, Rhodopseudomonas analysis, Metalloproteins analysis, Spectrum Analysis, Raman

Published

1983

31. Quantitative analysis of the mitochondrial cytochrome P-450-linked monooxygenase system: NADPH-hepatoredoxin reductase, hepatoredoxin, and cytochrome P-450s27 in livers of patients with cerebrotendinous xanthomatosis.

Author

Miki H, Takeuchi H, Yamada A, Nishioka M, Matsuzawa Y, Hamamoto I, Hiwatashi A, and Ichikawa Y

Subjects

Adrenal Cortex enzymology, Adrenal Cortex ultrastructure, Adult, Animals, Brain Diseases complications, Cattle, Cholestanetriol 26-Monooxygenase, Cytochrome P-450 Enzyme System metabolism, Female, Humans, Steroid Hydroxylases metabolism, Tendons, Xanthomatosis complications, Brain Diseases enzymology, Cytochrome P-450 Enzyme System analysis, Ferredoxin-NADP Reductase analysis, Ferredoxins analysis, Isoenzymes analysis, Mitochondria, Liver enzymology, NADH, NADPH Oxidoreductases analysis, Oxygenases analysis, Xanthomatosis enzymology

Abstract

We studied the mitochondrial cytochrome P-450-linked monooxygenase system in livers of two patients with cerebrotendinous xanthomatosis (CTX). The three components of this system, which catalyzes steroid 27-hydroxylation, NADPH-hepatoredoxin reductase, hepatoredoxin, and cytochrome P-450s27, were stained on a nitrocellulose sheet with antibodies against NADPH-adrenodoxin reductase, adrenodoxin, and cytochrome P-450scc, respectively, from bovine adrenocortical mitochondria. The concentrations of hepatoredoxin in the patients were not significantly different from a control, but the level of NADPH-hepatoredoxin reductase was three times that of the control. Cytochrome P-450s27 was not detected in the patients, but it was present (22.8 pmol/mg of protein) in the control liver. This implies that a defect of mitochondrial cytochrome P-450s27 prevents steroid 27-hydroxylation of hepatic mitochondria in patients with CTX.

Published

1986

32. Structure of the extracellular ferredoxin from Rhodospirillum rubrum: close similarity to clostridial ferredoxins.

Author

Matsubara H, Inoue K, Hase T, Hiura H, Kakuno T, Yamashita J, and Horio T

Subjects

Amino Acid Sequence, Clostridium analysis, Ferredoxins analysis, Rhodospirillum rubrum analysis

Abstract

The amino acid sequence of an [8Fe-8S] ferredoxin isolated from the culture medium of Rhodospirillum rubrum, a photosynthetic purple non-sulfur bacterium, was determined by a combination of various conventional procedures. The sequence was A-Y-K-I-E-E-T-C-I-S-C-G-A-C-A-A-E-C-P-V-N-A-I-E-Q-G-D-T-I-F-V-V-N-A-D-T-C-I-D-C - G-N-C-A-N-V-C-P-V-G-A-P-V-A-E (55 amino acid residues). It lacked methionine, leucine, histidine, arginine, and tryptophan. The molecular weight was calculated to be 5,568 excluding iron and sulfur atoms. The distribution of 8 cysteine residues was exactly the same as that of clostridial-type ferredoxin, suggesting retention of the duplication of the bacterial ancestral ferredoxin gene. The extracellular ferredoxin of R. rubrum was compared with other ferredoxins observed in closely related photosynthetic bacteria and the evolutionary significance of this ferredoxin is discussed.

Published

1983

33. A quantitative approach to sequence comparisons of nitrogenase MoFe protein alpha- and beta-subunits including the newly sequenced nifK gene from Klebsiella pneumoniae.

Author

Holland D, Zilberstein A, Zamir A, and Sussman JL

Subjects

Amino Acid Sequence, Base Sequence, Klebsiella pneumoniae genetics, Molecular Sequence Data, Molybdoferredoxin genetics, Species Specificity, Ferredoxins analysis, Genes, Bacterial, Klebsiella pneumoniae enzymology, Molybdoferredoxin analysis, Nitrogen Fixation genetics, Nitrogenase genetics

Abstract

The nucleotide sequence was determined for part of the Klebsiella pneumoniae nif gene cluster containing the 3' end of the nifD gene and the entire length of the nifK gene (encoding the alpha- and beta-subunits of the nitrogenase MoFe protein respectively), as well as the putative start of the nifY gene, a gene of as yet unknown function. A broad-based comparison of a number of MoFe protein alpha-subunits, beta-subunits and alpha-versus beta-subunits was carried out by the use of a computer program that simultaneously aligns three protein sequences according to the mutation data matrix of Dayhoff. A new kind of quantitative statistical measure of the similarity between the aligned sequences was obtained by calculating and plotting standardized similarity scores for overlapping segments along the aligned proteins. This calculation determines if a test sequence is similar to the consensus sequence of two other proteins that are known to be related to each other. The different beta-subunits compared were found to be significantly similar along most of their sequence, with the exception of two relatively short regions centred around residues 225 and 300, which contain insertions/deletions. The overall pattern of similarity between different alpha-subunits exhibits resemblance to the overall pattern of similarity between different beta-subunits, including regions of low similarity centred around residues 225 and 340. Comparison of alpha-subunits with beta-subunits showed that a region of significant similarity between the two types of subunits was located approximately between residues 120 and 180 in both subunits, but other parts of the proteins were only marginally similar. These results provide insights into likely tertiary structural features of the MoFe protein subunits.

Published

1987

34. [Purification and properties of plastocyanin and ferredoxin from Ceratophyllum demersum L].

Author

Oganezova EP and Nalbandian RM

Subjects

Amino Acids analysis, Chromatography, DEAE-Cellulose, Chromatography, Gel, Copper analysis, Electrophoresis, Polyacrylamide Gel, Ferredoxins isolation & purification, Iron analysis, Molecular Weight, Plastocyanin isolation & purification, Ferredoxins analysis, Plant Extracts analysis, Plant Proteins analysis, Plastocyanin analysis

Abstract

A copper-containing protein plastocyanin and iron-containing protein ferredoxin were isolated in electrophoretically homogenous states from Ceratophyllum demersum L. Molecular weights, protein compositions as well as optical and EDP specta of both proteins are presented. The proteins studied showed considerable differences in ultraviolet spectrum and amino acid composition as compared to analogous proteins from surface higher plants and green algae.

Published

1976

35. Characterization and N-terminal amino acid sequence of multiple ferredoxins in kidney and adrenal mitochondria.

Author

Driscoll WJ and Omdahl JL

Subjects

Amino Acid Sequence, Animals, Cattle, Cytochrome P-450 Enzyme System analysis, Cytochrome c Group analysis, Enzyme-Linked Immunosorbent Assay, Ferredoxins immunology, Ferredoxins isolation & purification, Immunoblotting, Swine, Adrenal Glands analysis, Ferredoxins analysis, Kidney analysis, Mitochondria analysis

Abstract

Two separate ferredoxins that differ in molecular mass by about 1.5 kDa were isolated from both pig kidney and bovine adrenal mitochondria. The proteins had different biochemical and immunological properties and appeared to be distinct gene products. The smaller ferredoxin from pig kidney (renodoxin, Mr approximately equal to 13,500) was very similar to bovine adrenodoxin (Mr = 14,048). Both proteins had nearly identical N-terminal amino acid sequences and electron-transfer activities. However, renodoxin and adrenodoxin expressed distinct antigenic determinants, although they were immunologically cross-reactive. The larger kidney (approximately equal to 15-kDa) and adrenal (approximately equal to 15.3-kDa) ferredoxins were biochemically similar to each other but they had lower specific activities and their N-terminal sequences were different when compared to renodoxin and adrenodoxin. Each of the four ferredoxins had a visible absorption spectrum characteristic of a [2Fe-2S] chromophore. But in addition, the larger ferredoxins displayed a prominent A276 peak due to their higher tyrosine content and the presence of tryptophan, which is absent in adrenodoxin and renodoxin. Consequently, the larger ferredoxins were termed Trp-ferredoxin. Using antibody to pig kidney Trp-ferredoxin, the larger adrenal and kidney ferredoxins were found to be very similar immunologically; however, the Trp-containing and adrenodoxin-type ferredoxins did not cross-react in immunoblot analysis. Nevertheless, it was shown from competition ELISA and activity-inhibition analysis that the two ferredoxin types had limited common antigenic determinants. Trp-ferredoxin was the major iron-sulfur protein in kidney whereas adrenodoxin was the dominant molecular form in adrenal gland.

Published

1989

36. Rubredoxin from Clostridium perfringens: complete amino acid sequence and participation in nitrate reduction.

Author

Seki Y, Seki S, Satoh M, Ikeda A, and Ishimoto M

Subjects

Amino Acid Sequence, Chromatography, Gel, Chromatography, High Pressure Liquid, Hydrolysis, Isoelectric Focusing, Molecular Sequence Data, Molecular Weight, NADH, NADPH Oxidoreductases metabolism, Oxidation-Reduction, Protein Conformation, Rubredoxins metabolism, Clostridium perfringens analysis, Ferredoxins analysis, Nitrates metabolism, Rubredoxins analysis

Abstract

The complete primary structure of rubredoxin (Rd) isolated from Clostridium perfringens was sequenced to be: MKKFICDVCGYIYDPAVGDPDNGVEPGTEFKDIPDDWVCPLCGVDKSQFSETEE. The sequence was highly homologous to that of C. pasteurianum Rd but was different at 13 sites out of the total 54 amino acid residues (76% homology). It contained 1 Fe atom, 4 cysteine residues, and no labile sulfur, had a molecular weight of 6,056, and shared the general properties of classical anaerobic Rds. The pI was 4.4. The Rd was reduced with NADH in the presence of a specific NAD(P)H oxidoreductase preparation from the bacterium. The Km value of nitrate reductase for Rd as an electron-donor was 12 microM, a value comparable to that of the 13 microM for ferredoxin (Fd). These results taken together provide additional support for its role as the electron carrier in the nitrate reductase system [Seki, S., Ikeda, A., and Ishimoto, M. (1988) J. Biochem. 103, 583-584].

Published

1989

37. Characterization of ferredoxin, flavodoxin, and rubredoxin from Clostridium formicoaceticum grown in media with high and low iron contents.

Author

Ragsdale SW and Ljungdahl LG

Subjects

Clostridium analysis, Culture Media metabolism, Dose-Response Relationship, Drug, Electron Transport, Ferredoxins analysis, Flavodoxin analysis, Molecular Weight, Rubredoxins analysis, Clostridium metabolism, Ferredoxins metabolism, Flavodoxin metabolism, Flavoproteins metabolism, Iron metabolism, Rubredoxins metabolism

Abstract

Ferredoxin, flavodoxin, and rubredoxin were purified to homogeneity from Clostridium formicoaceticum and characterized. Variation of the iron concentration of the growth medium caused substantial changes in the concentrations of ferredoxin and flavodoxin but not of rubredoxin. The ferredoxin has a molecular weight of 6,000 and is a four iron-four sulfur protein with eight cysteine residues. The spectrum is similar to that of other ferredoxins. The molar extinction coefficients are 22.6 X 10(3) and 17.6 X 10(3) at 280 and 390 nm, respectively. From 100 g wet weight of cells grown with 3.6 microM iron and with 40 microM iron, 5 and 20 mg offerredoxin were isolated, respectively. The molecular weight of rubredoxin is 5,800 and it contains one iron and four cysteines. The UV-visible absorption spectrum is dissimilar to those of other rubredoxins in that the 373 nm absorption peak is quite symmetric, lacking the characteristic 350-nm shoulder found in other rubredoxins. The flavodoxin is a 14,500-molecular-weight protein which contains 1 mol of flavin mononucleotide per mol of protein. It forms a stable, blue semiquinone upon light irradiation in the presence of EDTA or during enzymatic reduction. When cells were grown in low-iron medium, flavodoxin constituted at least 2% of the soluble cell protein; however, it was not detected in extracts of cells grown in high-iron medium. The rubredoxin and ferredoxin expressed during growth in low-iron and high-iron media are identical as judged by iron, inorganic sulfide, and amino acid analysis, as well as light absorption spectroscopy.

Published

1984

38. 35Cl Nuclear magnetic resonance studies of anion binding to halophilic proteins: ferredoxin from Halobacterium of the Dead Sea.

Author

Reimarsson P, Lindman B, and Werber MM

Subjects

Anions, Bacterial Proteins analysis, Magnetic Resonance Spectroscopy, Protein Binding, Ferredoxins analysis, Halobacterium analysis

Published

1980

39. Primary structure of a high potential iron-sulfur protein from the purple non-sulfur photosynthetic bacterium Rhodopseudomonas gelatinosa.

Author

Tedro SM, Meyer TE, and Kamen MD

Subjects

Amino Acid Sequence, Amino Acids analysis, Bacterial Proteins analysis, Binding Sites, Iron analysis, Photosynthesis, Protein Binding, Species Specificity, Sulfur analysis, Ferredoxins analysis, Rhodopseudomonas analysis

Abstract

The third amino acid sequence of a high potential iron-sulfur protein, that of the non-sulfur purple photosynthetic bacterium Rhodopseudomonas gelatinosa, has been determined. It consists of a single polypeptide chain of 74 amino acid residues, which is slightly smaller than the high potential iron-sulfur proteins from the sulfur purple bacteria Chromatium vinosum (85 residues) and Thiocapsa pfennigii (81 residues). The sequence of the gelatinosa protein is similar to the C. vinosum and T. pfennigii proteins with 38% and 37% identically matching residues, although six gaps are proposed for the comparison (the C. vinosum and T. pfennigii proteins have 44% identically matching residues out of 73 positions compared with only one 4-residue gap). Only 17 redisues, including the 4 cystein residues essential for binding the four-iron-sulfur chromophore, are invariant in the three known sequences. A discussion of the role of conserved residues in maintenance of the three-dimensional structure and in electron transport is presented.

Published

1976

40. Complete amino acid sequence of the 4Fe-4S, thermostable ferredoxin from Clostridium thermoaceticum.

Author

Elliott JI, Yang SS, Ljungdahl LG, Travis J, and Reilly CF

Subjects

Amino Acid Sequence, Amino Acids analysis, Bacillus analysis, Desulfovibrio analysis, Hot Temperature, Iron-Sulfur Proteins analysis, Peptostreptococcus analysis, Clostridium analysis, Ferredoxins analysis

Abstract

The complete amino acid sequence of the 4Fe-4S ferredoxin from the thermophilic bacterium Clostridium thermoaceticum has been determined. The protein is extremely thermostable and is the only known clostridial ferredoxin to contain a single [4Fe-4S] cluster. The sequence totals 63 residues and includes the first tryptophan (Trp-26) reported for a clostridial ferredoxin, and other amino acids not commonly found in clostridial or clostridial-like ferredoxins: methionine (Met-1), histidine (His-33), arginine (Arg-49), and leucine (Leu-9, -19, and -31). Sequence homology to clostridial and other 8Fe-8S ferredoxins is limited to eight to nine residues at the amino-terminal sulfhydryl grouping (Cys-10, -13, -16, and -20) and two to five residues in the carboxyterminal region. This ferredoxin is, thus, sequentially distinct from all known clostridial ferredoxins and from other bacterial ferredoxins in both the 8Fe-8S and 4Fe-4S classes.

Published

1982

41. Amino acid sequence of the major component of Aphanothece sacrum ferredoxin.

Author

Hase T, Wada K, and Matsubara H

Subjects

Amino Acid Sequence, Amino Acids analysis, Biological Evolution, Chloroplasts, Cysteine analysis, Peptide Fragments analysis, Plants analysis, Cyanobacteria, Ferredoxins analysis

Abstract

The amino acid sequence of the major ferredoxin component isolated from a blue-green alga, Aphanothece sacrum, has been fully determined. Chymotryptic and tryptic peptides of carboxymethyl-ferredoxin and chymotryptic peptides of oxidized ferredoxin were prepared and their sequences were analyzed...

Published

1976

42. EPR spectra of photosystem I and other iron protein components in intact cells of cyanobacteria.

Author

Cammack R, Luijk LJ, Maguire JJ, Fry IV, and Packer L

Subjects

Electron Spin Resonance Spectroscopy, Ferredoxins analysis, Manganese, Cyanobacteria analysis, Iron analysis, Metalloproteins analysis, Photosynthesis, Plant Proteins analysis

Abstract

Electron paramagnetic resonance (EPR) spectra were recorded of whole filaments of the cyanobacteria Nostoc muscorum and Anabaena cylindrica. Signals due to manganese were removed by freezing and thawing the cells in EDTA. EPR spectra were assigned on the basis of their g values, linewidths, temperature dependence and response to dithionite and light treatments. The principal components identified were: (i) rhombic Fe3+ (signal at g = 4.3), probably a soluble storage form of iron; (ii) iron-sulfur centers A and B of Photosystem I; (iii) the photochemical electron acceptor 'X' of Photosystem I; this component was also observed for the first time in isolated heterocysts; (iv) soluble ferredoxin which was present at a concentration of 1 molecule per 140 +/- 20 chlorophyll molecules; (v) a membrane-bound iron-sulfur protein (g = 1.92). A signal g = 6 in the oxidized state was probably due to an unidentified heme compound. During deprivation of iron the rhombic Fe3+, centers A, B and X of Photosystem I, and soluble ferredoxin were all observed to decrease.

Published

1979

43. Physicochemical characterization of the four-iron-four-sulphide ferredoxin from Bacillus stearothermophilus.

Author

Mullinger RN, Cammack R, Rao KK, Hall DO, Dickson DP, Johnson CE, Rush JD, and Simopoulos A

Subjects

Amino Acids, Chemical Phenomena, Chemistry, Electron Spin Resonance Spectroscopy, Ferredoxins isolation & purification, Iron analysis, Magnetics, Molecular Weight, Spectrum Analysis, Sulfides analysis, Temperature, Ferredoxins analysis, Geobacillus stearothermophilus analysis

Abstract

1. A stable ferredoxin was prepared from Bacillus stearothermophilus and purified by chromatography on DEAE-cellulose and by electrophoresis. 2. The minimum molecular weight determined from the amino acid composition was about 7900 and this was in reasonable agreement with a value of 8500 determined by polyacrylamide-gel electrophoresis. The ferredoxin contained four iron atoms and four labile sulphide groups per molecule. 3. The optical absorption, optical-rotatory-dispersion and circular-dichroism spectra are typical of ferredoxins containing 4Fe-4S clusters. 4. Oxidation-reduction titrations, combined with electron-paramagnetic-resonance (e.p.r.) spectroscopy, showed that the protein has a mid-point potential, at pH8, of -280 +/- 10mV, and that only one electron-accepting paramagnetic species is present. 5. The e.p.r. spectrum of the reduced ferredoxin is more readily saturated with microwave power at low temperatures than those of the eight-iron ferredoxins, indicating that there is another mechanism of electron-spin relaxation in the latter. 6. Mossbauer spectra of both redox states were observed over a range of temperatures and in magnetic fields. At high temperatures (77 degrees K and above) both redox states appear as quadrupole-split doublets; in the reduced state two resolved doublets are seen, suggesting appreciable localization of the additional reducing electron. 7. The average chemical shift indicates formal valences of two Fe3+ and two Fe2+ in the oxidized state and three Fe2+ and one Fe3+ in the reduced state. However, the spectra indicate that there are differing degrees of electron delocalization over the iron atoms. 8. At low temperatures (4.2 degrees K) the oxidized form shows no hyperfine magnetic interaction, even in an applied magnetic field, evidence that the oxidized ferredoxin is in a non-magnetic state as a result of antiferromagnetic coupling between the iron atoms. 9. At 4.2 degrees K the reduced form shows a broad asymmetric pattern resulting from magnetic hyperfine interaction. This contrasts with the reduced ferredoxin of Clostridium pasteurianum, which shows a doublet, suggesting that in the latter there may be interaction between the two 4Fe-4S centres. 10. In large applied magnetic fields, positive and negative hyperfine fields are seen in the Mossbauer spectra of the reduced ferredoxin, evidence for antiferromagnetic coupling between the iron atoms in the 4Fe-4S centre. The high-field spectra of the reduced ferredoxin of B. stearothermophilus are similar to those of the reduced ferredoxin of C. pasteurianum.

Published

1975

44. Determination of molybdenum and tungsten in biological materials.

Author

Cardenas J and Mortenson LE

Subjects

Azo Compounds analysis, Cations, Divalent, Chlorella analysis, Clostridium analysis, Evaluation Studies as Topic, Ferredoxins analysis, Hydrogen-Ion Concentration, Iron, Methods, Osmolar Concentration, Phosphates, Spectrophotometry, Sulfhydryl Compounds, Sulfuric Acids, Temperature, Toluene, Molybdenum analysis, Tungsten analysis

Published

1974

45. [Various properties of purified hepatoredoxin from bovine liver mitochondria].

Author

Gilevich SN, Gur'ev OL, Shkumatov VM, Chashchin VL, and Akhrem AA

Subjects

Adrenal Cortex analysis, Adrenodoxin analysis, Amino Acids analysis, Animals, Cattle, Circular Dichroism, Electrophoresis, Polyacrylamide Gel, Ferredoxins isolation & purification, Immunodiffusion, Isoelectric Focusing, Kidney analysis, Mitochondria analysis, Mitochondria, Liver enzymology, Protein Conformation, Steroid Hydroxylases analysis, Ferredoxins analysis, Mitochondria, Liver analysis

Abstract

Hepatoredoxin purified to homogeneity from bovine liver mitochondria has been characterized for the first time in terms of its most important physico-chemical properties. The protein was found to contain in its active center a [2Fe-2S] cluster and has in the oxidized state an absorption maxima at 280, 320, 415 and 455 nm. The spectrophotometric index of purity, A415/A280 of the homogeneous native preparation is 0.84; extinction coefficient, epsilon 415, is 9800 M-1cm-1. The Mr of hepatoredoxin as evidenced by data from SDS gel electrophoresis is 12 500 Da; pI is 4.2. Hepatoredoxin is necessary for the reconstitution of the C27-steroid hydroxylase activity and can be substituted for by a related protein, adrenodoxin. All the above parameters as well as the circular dichroism spectra, immunochemical properties and sequence of the initial five N-terminal amino acids of hepatoredoxin and adrenodoxin are either coincident or very close. At the same time, the amino acid composition of these ferredoxins, apart from some common features, has individual peculiarities.

Published

1985

46. Equisetum (horsetail) ferredoxin: characterization of the active centre and position of the four cysteine residues in this 2Fe-2S protein.

Author

Kagamiyama H, Rao KK, Hall DO, Cammack R, and Matsubara H

Subjects

Amino Acid Sequence, Binding Sites, Valine, Cysteine analysis, Ferredoxins analysis, Plants analysis

Abstract

Analysis of the ferredoxin of the primitive vascular plant Equisetum indicates that the cysteine residue normally found at position 18 of plant-type ferredoxins is replaced by a valine, although the spectroscopic properties of the ferredoxins are unaffected. It is concluded that the iron--sulphur cluster in plant-type ferredoxins is attached to cysteine residues 39, 44, 47 and 77.

Published

1975

47. On the origin of molecular "handedness" in living systems.

Author

Noyes HP and Bonner WA

Subjects

Catalysis, Chemical Phenomena, Chemistry, Elementary Particles, Ferredoxins analysis, Ferric Compounds, Magnetics, Origin of Life, Ultraviolet Rays, Biological Evolution, Isomerism, Models, Chemical

Abstract

Elementary particle effects (beta-decay) provide at best only a weakly handed radiation in the biologically effective energy ranges. Global magnetic effects coupled to sunlight are randomized by paleomagnetic reversals. Hence a persistent terrestrial handed bias at possible local biopoetic sites offers a more promising explanation for the origin of the "handedness" of the molecules found among living systems on earth. Magnetite in lava flows maintains a handed bias for surface catalysis through many magnetic reversals. Magnetite contaminated with sulfur has already been proposed by Granick as a biopoetic site because it provides a weak source of chemical energy derived by photochemical conversion. Indirect evidence for this hypothesis has been provided by the molecular structure of ferredoxin - a single strand of the 14 primordial amino acids wrapped around an FeS core. Lava flows have been suggested as biopoetic sites by Fox, since their temperature and chemical composition might allow for the rapid synthesis of prebiotic compounds at the surface of the primitive earth. The additional fact that magnetite in lave flows also provides a persistent handed site for surface catalysis offers a further argument for the experimental investigation of this specific biopoetic environment.

Published

1975

48. Synthesis and properties of Clostridium acidi-urici (Leu2)-ferredoxin: a function of the peptide chain and evidence against the direct role of the aromatic residues in electron transfer.

Author

Lode ET, Murray CL, Sweeney WV, and Rabinowitz JC

Subjects

Amino Acid Sequence, Amino Acids analysis, Autoanalysis, Electron Spin Resonance Spectroscopy, Electron Transport, Leucine, Peptides analysis, Tyrosine analysis, Clostridium analysis, Ferredoxins analysis

Abstract

Tyrosyl or other aromatic residues generally occur in two conserved positions in the peptide chain of clostridial-type ferredoxins and have been implicated in the electron transfer function of these iron-sulfur proteins. We have prepared and determined some of the properties of a derivative of Clostridium acidi-urici ferredoxin, [Leu(2)]-ferredoxin, in which a leucyl residue has been substituted for the tyrosyl residue in position 2 from the amino terminus. [Leu(2)]-ferredoxin is fully active as an electron carrier in two biological assays, the phosphoroclastic enzyme system and the ferredoxin-dependent reduction of cytochrome c in the presence of ferredoxin-TPN reductase and TPNH. Quantitative electron paramagnetic resonance experiments indicate that [Leu(2)]-ferredoxin accepts nearly two electrons upon enzymatic reduction by pyruvate-ferredoxin oxidoreductase and an excess of pyruvate. If electron transfer to an iron-sulfur cluster is the rate-limiting step in the assays used, and if the rate of electron transfer through Tyr(30) is not much faster than through Tyr(2), these results indicate that the primary pathway of electron transfer in clostridial-type ferredoxins is not via Tyr or other aromatic amino-acid residues. The syntheses of other ferredoxin derivatives with amino-acid substitutions or deletions in positions 1 and 2 indicate that a large bulky residue, but not necessarily an aromatic residue, is needed in position 2 for the stability of this ferredoxin. The residue in position 2, therefore, appears to act as a hydrophobic shield for an iron-sulfur cluster.

Published

1974

49. Isolation and properties of a ferredoxin from leaves of Sambucus racemosa L.

Author

Altosaar I, Bohm BA, and Taylor IE

Subjects

Amino Acids analysis, Electron Transport, Ferredoxins isolation & purification, Ferredoxins metabolism, Iron analysis, Molecular Weight, NADP metabolism, Ferredoxins analysis, Plants

Abstract

Ferredoxin was isolated in good yield from leaves of Sambucus racemosa L. by the following procedure: (1) homogenization in buffered acetone-water (1:1v/v); (2) ion-exchange chromatography on several columns of DEAE-cellulose; and (3) purification by gel filtration with Sephadex G-75. The ultraviolet and visible spectrum showed maxima at 277, 331, 423, and 466 nm. The electron paramagnetic resonance spectrum was centered around g = 1.957. The protein sustained an initial photoreduction rate of 86 mumol NADP per milligram chlorophyll per hour. The amino acid composition was found to be Lys 5, His 2, Arg1, Asx11, Thr5, Ser7, Glx17, Pro6, Gly7, Ala6-7, Cys4, Val8, Ile5, Leu7, Tyr3, Phe2, and Trp1. The molecule had a molecular weight of 10 700 and contained two atoms of iron. The amino-terminal residue was alanine. These properties are highly similar to those of other angiosperm ferredoxins. Sambucus ferredoxin was found to be most closely related to that of Leucaena.

Published

1977

50. A new plant-type ferredoxin from halobacteria.

Author

Kerscher L, Oesterhelt D, Cammack R, and Hall DO

Subjects

Amino Acids analysis, Circular Dichroism, Electron Spin Resonance Spectroscopy, Iron analysis, Molecular Weight, Oxidation-Reduction, Protein Conformation, Spectrophotometry, Spectrophotometry, Ultraviolet, Sulfur analysis, Ferredoxins analysis, Halobacterium analysis, Plant Proteins analysis

Abstract

A stable, 2Fe-type ferredoxin has been prepared from Halobacterium halobium and purified by chromatography. A similar ferredoxin was also found in three other Halobacteria. The ferredoxin is present in large amounts-about 1 percent of the total soluble protein. From amino acid composition a molecular weight of 14800 +/- 200 was calculated. The ferredoxin was found to contain two atoms each of iron and sulphide. The midpoint redox potential of the protein is about -345 mV. The electron paramagnetic resonance spectrum of the reduced form shows much similarity to plant and algal ferredoxins with gx = 1.90, gy = 1.97 and gz = 2.07. The same similarity is observed in the optical absorption, optical rotatory dispersion and circular dichroism spectra. However it does not seem to mediate electron transport in the NADP-photoreduction system of chloroplasts. Extracts of the bacterial cells catalyze the reduction of the ferredoxin by NADH.

Published

1976