UNIPROT:O14944 - FACTA Search

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Query: UNIPROT:O14944 (EPR)
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The coupling constants J between the iron atoms in ferredoxin type iron-sulfur proteins containing binuclear clusters were evaluated by two parallel methods. The temperature dependence of the EPR linewidths and integrated abosrption intensities are both related to the energy of the first excited state. The values of J obtained were: center S-1 in succinate dehydrogenase, 90 cm-1; Rieske's iron-sulfur center, 65 cm-1; adrenodoxin, 270 cm-1. The behavior of iron-sulfur center N-1a in NADH:UQ reductase was also examined; its similarity to that of center S-1 indicates that center N-1a is also a binuclear iron-sulfur center, with J = 90 cm-1. Greater rhombic distortion present in the EPR spectrum of a binuclear cluster was associated with smaller values of J.
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PMID:Determination of the exchange integral in binuclear iron-sulfur clusters in proteins of varying complexity. 19 6

The electron-spin relaxation of iron-sulphur centres in a range of simple proteins (ferredoxin, high-potential iron-sulphur protein and rubredoxin) was investigated by means of the temperature dependence and microwave power saturation of the EPR signal. The proteins containing [2Fe-2S] centres all showed temperature optima higher than those for [4Fe-4S] centres, but the difference between the slowest-relaxing [4Fe-4S] protein (Chromatium high-potential iron-sulphur protein) and the fastest-relaxing [2Fe-2S] protein (Halobacterium halobium ferredoxin) was small. A greater distinction was seen in the power saturation behaviour at low temperature (10--20 K). The behaviour of the signal intensity as a function of microwave power was analyzed in terms of the power for half saturation P 1/2 and the degree of homogeneous/inhomogeneous broadening. The effect of distorting the protein structure by salts, organic solvents and urea was to decrease the electron-spin relaxation rate as shown by a decreased value of P 1/2. The addition of Ni2+ as a paramagnetic perturbing agent caused an increase in the electron-spin relaxation rate of all the proteins, with the exception of adrenal ferredoxin, as shown by an increased P 1/2 and, in a few cases, broadening of the linewidth. Ferricyanide, a commonly used oxidizing agent, has similar effects. These results are discussed in relation to the use of paramagnetic probes to determine whether iron-sulphur centres are near to a membrane surface. Spin-spin interactions between two paramagnetic centres in a protein molecule such as a 2[4Fe-4S] ferredoxin, lead to more rapid electron-spin relaxation. This method was used to detect a spin-spin interaction between molybdenum V and centre Fe-SI in xanthine oxidase.
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PMID:Electron spin relaxation of iron-sulphur proteins studied by microwave power saturation. 21 17

Adrenodoxin of bovine adrenocortical mitochondria was spin-labeled with two different spin-labeling reagents, N-(2,2,5,5-tetramethyl-3-carbonylpyrroline-1-oxyl)imidazole (I) and N-(1-oxyl-2,2,6,6-tetramethyl-4-piperidinyl)maleimide (II), without major loss of its activity for electron transport from NADPH to cytochrome c. The EPR spectrum of adrenodoxin spin-labeled with either of the reagents showed a pattern typical of a moderately immobilized spin label. When adrenodoxin was treated with (I), approximately two amino acid residues per molecule were spin-labeled, whereas a single residue was labeled by (II). While assition of NADPH to adrenodoxin spin-labeled with (I) did not diminish the EPR signal intensity, addition of the reductant to the labeled adrenodoxin in the presence of adrenodoxin reductase caused slow reduction of the spin label, the rate of which was dependent on the aerobicity. Addition of adrenodoxin reductase to adrenodoxin spin-labeled with (I) or (II) resulted in the appearance of a more immobilized component in the EPR spectrum. The ratio of the more immobilized component to the less immobilized component was saturated at a molar ratio of one to one. Addition of cytochrome P-450scc to adrenodoxin labeled with (I) had similar effects on the EPR spectrum.
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PMID:Spin label studies on the interactions of bovine adrenodoxin with NADPH-adrenodoxin reductase and with cytochrome P-450scc. 22 49

The temperature dependence of EPR spectra of oxidized [4Fe-4S](-1,-2) ferredoxins (previously designated HiPIP) and a reduced [4Fe-4S](-2,-3) ferredoxin have been analyzed so as to determine the energy of a low-lying excited electronic state. The values obtained were: Center S-3 from beef heart, 44 cm-1; Center S-3 from mung bean, 53 cm-1; the [4Fe-4S](-1,-2) ferredoxin from Thermus thermophilus, 78 cm-1; Center N-2 of NADH ubiquinone reductase, 83 cm-1. Increasing axial distortion in the EPR spectra of the [4Fe-4S](-1,-2), ferrodoxins was associated with higher energy differences. Center N-2, a [Fe-4S](-2,-3) iron-sulfur cluster does not fit this relationship.
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PMID:Exchange integral for a variety of tetranuclear ferredoxins. 22 31

1. Ferricytochrome c3 from D. gigas exhibits two low-spin ferric heme EPR resonances with gz-values at 2.959 and 2.853. Ferrocytochrome c3 is diamagnetic based on the absence of any EPR signals. 2. EPR potentiometric titrations result in the resolution of the two low-spin ferric heme resonances into two additional heme components representing in total the four hemes of the cytochrome, with EM values of -235 mV and -315 mV at heme resonance I and EM values of -235 mV and -306 mV at heme resonance II. 3. EPR spectroscopy has detected a significant diminution of intensity (approx. 60 p. 100) in the gx amplitude of ferricytochrome c3 in the presence of D. gigas ferredoxin II. The presence of ferredoxin II also causes a more negative shift in the EM of the second components of the signals at heme resonances I and II of cytochrome C3. Both observations suggest that an interaction has occurred between cytochrome C3 and ferredoxin II. 4. The results presented suggest that the heme ligand environment of ferricytochrome c3 from D. gigas is less perturbed and/or less asymmetric than environment for ferricytochrome c3 from D. vulgaris whose EPR behavior indicates the non-equivalence of all four hemes.
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PMID:Oxidation-reduction potentials of the hemes in cytochrome C3 from Desulfovibrio gigas in the presence and absence of ferredoxin by EPR spectroscopy. 22 77

The sensitivity of the molybdenum-iron(MoFe)-protein of Clostridium pasteurianum nitrogenase toward oxidation has been studied by determining the enzymatic activity of this component after incubating it anaerobically in ferricyanide solutions of various oxidizing strengths (as measured by their oxidation potentials). It was found that the MoFe-protein remains active at potentials up to +350 mV (vs. standard hydrogen electrode) but becomes readily inactivated at more oxidizing potentials, after a lag period, depending on the potential level and temperature. Oxidative inactivation by ferricyanide results in the release of most of the Mo, Fe and S atoms from the protein which causes the loss of the absorption bands in the visible region. The metals and sulfur could be re-incorporated by incubation in a mixture containing thiol, sulfide, molybdate, and ferric iron. The EPR spectrum of the oxidatively inactivated MoFe-protein showed that both the high- and low-field signals are readily affected. Re-incorporation of the metals and sulfur into the "bleached" protein produced an EPR spectrum similar to that of the air-inactivated protein. Incubation of the Mo-Fe-protein with mersalyl abolished its enzymic activity. The difference spectrum before and after mersalyl treatment resembles that of the soluble spinach ferredoxin.
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PMID:Oxidative inactivation of the molybdenum-iron-protein component of nitrogenase from clostridium pasteurianum. 22 73

Photosystem I particles from spinach were reduced by illumination at 77 K. Under these conditions the one-electrom transfer from P-700 resulted in a reduction of only one acceptor molecule of the reaction centre. The EPR signals at g=2.05, 1.94 and 1.86 were attributed to reduced centre A and the smaller signals at g=2.07, 1.92 and 1.89 to reduced centre B. Reduction of both centres by dithionite in the dark lead to signals at g=2.05, 1.99, 1.96, 1.94, 1.92 and 1.89. Thus, the features at g=2.07 and 1.86 disappeared and new signals at g=1.99 and 1.96 were observed. From the spectral changes it followed that the iron-sulphur centres A and B interact magnetically. Temperature dependent EPR spectra demonstrated a faster electron spin relaxation of centre A than of centre B. These conclusions were corroborated using microwave power saturation of the respective EPR signals. The saturation data of the fully reduced centres A and B could not be fitted using the saturation equation for a one-electron spin system. The magnetic interaction between the (4Fe-4S) CENTRes of the electron acceptors A and B resulted in saturation properties which are simular to those of the 2(4Fe-4S) ferredoxin from Clostridium pasteurianum. For centre X a high proportion of homogeneous broadening of the EPR lines was inferred from the inhomogeneity parameter (b=1.83). It was, therefore, concluded that centre X is most probably an anion radical of chlorophyll. From the low temperature necessary for observing the EPR signal of centre X followed that the drastic relaxation enhancement has to be attributed to a magnetic interaction of the anion radical with iron.
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PMID:The electron spin relaxation of the electron acceptors of photosystem I reaction centre studied by microwave power saturation. 22 15

An iron-sulfur protein has been isolated from bovine brain mitochondria and purified 200-fold. The optical spectrum (peaks at 412 and 455 nm which disappear upon reduction) and the EPR spectrum (g values at 1.94 and 2.02) were typical for a ferredoxin. In reconstitution experiments, the protein could replace adrenodoxin in the cholesterol side chain cleavage reaction. The additional detection of cytochrome P-450 in brain mitochondria indicates that the isolated ferredoxin is part of a cytochrome P-450-dependent hydroxylation system.
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PMID:The presence of an adrenodoxin-like ferredoxin and cytochrome P-450 in brain mitochondria. 43 90

The properties of the periplasmic hydrogenase from Desulfovibrio desulfuricans ATCC 7757, previously reported to be a single-subunit protein [Glick, B. R., Martin, W. G., and Martin, S. M. (1980) Can. J. Microbiol. 26, 1214-1223] were reinvestigated. The pure enzyme exhibited a molecular mass of 53.5 kDa as measured by analytical ultracentrifugation and was found to comprise two different subunits of 42.5 kDa and 11 kDa, with serine and alanine as N-terminal residues, respectively. The N-terminal amino acid sequences of its large and small subunits, determined up to 25 residues, were identical to those of the Desulfovibrio vulgaris Hildenborough [Fe]-hydrogenase. D. desulfuricans ATCC 7757 hydrogenase was free of nickel and contained 14.0 atoms of iron and 14.4 atoms of acid-labile sulfur/molecule and had E400, 52.5 mM-1.cm-1. The purified hydrogenase showed a specific activity of 62 kU/mg of protein in the H2-uptake assay, and the H2-uptake activity was higher than H2-evolution activity. The enzyme isolated under aerobic conditions required incubation under reducing conditions to express its maximum activity both in the H2-uptake and 2H2/1H2 exchange reaction. The ratio of the activity of activated to as-isolated hydrogenase was approximately 3. EPR studies allowed the identification of two ferredoxin-type [4Fe-4S]1+ clusters in hydrogenase samples reduced by hydrogen. In addition, an atypical cluster exhibiting a rhombic signal (g values 2.10, 2.038, 1.994) assigned to the H2-activating site in other [Fe]-hydrogenases was detected in partially reduced samples. Molecular properties, EPR spectroscopy, catalytic activities with different substrates and sensitivity to hydrogenase inhibitors indicated that D. desulfuricans ATCC 7757 periplasmic hydrogenase is a [Fe]-hydrogenase, similar in most respects to the well characterized [Fe]-hydrogenase from D. vulgaris Hildenborough.
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PMID:Further characterization of the [Fe]-hydrogenase from Desulfovibrio desulfuricans ATCC 7757. 132 76

A ferredoxin (Fd) was purified from a thermophilic hydrogen-oxidizing bacterium, Bacillus schlegelii. This ferredoxin was a monomer with apparent molecular weight of 13,000 and contained 7 mol Fe/mol ferredoxin. The oxidized ferredoxin showed the characteristic EPR spectrum for [3Fe-4S]1+ (1.2 spin/mol Fd). This signal disappeared upon reduction with dithionite and new signals due to [3Fe-4S]0 and [4Fe-4S]1+ (0.7 spin/mol Fd) appeared. The quantitation of EPR signals and the iron content reveal that B. schlegelii ferredoxin contains one [3Fe-4S]1+/0 and one [4Fe-4S]2+/1+ cluster. The ferredoxin has the characteristic distribution of cysteines (-Cys8-X7-Cys16-X3-Cys20-Pro-) for 7Fe ferredoxins in the N-terminus.
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PMID:Purification and characterization of a 7Fe ferredoxin from a thermophilic hydrogen-oxidizing bacterium, Bacillus schlegelii. 133 29

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