Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UNIPROT:O14944 (EPR)
13,097 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The influence of solubilisation upon the reactivity of the nitroxyl BAPO with the free radicals produced in irradiated vesicle systems was investigated. The decomposition yield G(-BAPO) determined in didodecyldimethyl-ammonium bromide (DDAB) vesicle systems was found to be only 0.04, while in homogeneous aqueous solutions a value of 1.50 was observed. These results, as well as the EPR spectra of irradiated and nonirradiated samples, lead to the conclusion that BAPO is localized in the interior of the bilayer. This behavior is consistent with the hydrophobic character of the nitroxyl molecule due to its benzylidene group.
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PMID:Radiolysis of 4-benzylideneamino-2,2,6,6-tetramethylpiperidine-1-oxyl (BAPO) in aqueous didodecyldimethyl-ammonium bromide (DDAB) membrane mimetic systems. 283 2

The role of Cl- in photosynthetic O2 evolution has been investigated by measurement of the steady-state O2 rate and EPR of the electron donors responsible for the S2 multiline signal and Signal IIs upon Cl- depletion and substitution in Photosystem II membranes. Cl- removal has three effects upon the donor side of Photosystem II. (1) It abolishes O2 evolution reversibly, while decreasing the yield of the S2 multiline signal indicative of the manganese site of the O2-evolving complex in the S2 oxidation state. This decrease is brought about by (2) the reversible disconnection of the manganese complex from the reaction center; and by (3) deactivation of S1 centers having reduced primary acceptor QA to form SO centers having a reduced Signal IIs species. Reactivation of O2 evolution by anions confirms earlier work showing a requirement for a univalent anion of optimum charge density. The observed order of reactivation is Cl- greater than Br- approximately NO3- much greater than OH- approximately F-. Reactivation of the S2 multiline signal follows Cl- approximately Br- greater than NO3- approximately OH- greater than F-, in near correspondence with reactivation of O2-evolution rates. Cl- titrations of F- -inhibited samples reveal two binding sites for Cl- which differ in binding affinity by 11-fold. The higher-affinity site reactivates the S1----S2 light reaction, while the lower-affinity site reactivates the S3----S0 light reaction. The high affinity site is located within the O2-evolving complex at an undetermined site, while the lower-affinity site functions in coupling the reaction center photochemistry to the O2-evolving complex. The results are compared with Cl-/F- exchange equilibria for Mn3+ in solution. A model for the lower S-state transitions is presented in which specific oxidation state assignments are made for some of the donors and acceptors of Photosystem II.
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PMID:The effect of Cl- depletion and X- reconstitution on the oxygen-evolution rate, the yield of the multiline manganese EPR signal and EPR signal II in the isolated Photosystem-II complex. 300 78

Properties of the S2 state formed in photosystem II membranes in which Cl- had been replaced by various anions were investigated by means of thermoluminescence measurements and low temperature EPR spectroscopy. The Br--substituted membranes showed the normal thermoluminescence B-band arising from S2Q-B charge recombination, whereas the SO2-4-, F--, CH3COO--, and NO-3-substituted membranes showed modified B-bands with variously upshifted peak temperatures. The extent of the peak temperature upshift varied in parallel with the extent of inhibition of O2 evolution depending on the anion species. A normal EPR S2 multiline signal was induced in Br--substituted membranes, but its amplitude was reduced to less than 10% in F--, NO-3-, CH3COO--, and SO2-4-substituted membranes, In contrast, the g = 4.1 signal from S2 was markedly enhanced in F-- and NO-3-substituted membranes, not much affected in CH3COO-- and SO2-4-substituted membranes, and decreased to 70% in Br--substituted membranes. Based on these data, the effect of various types of S2 modification on the O2-evolving activity was discussed. It was suggested that anions have an important role in regulating the interaction between the Mn atoms, and thereby adjust the redox properties of the S2 state to enable further transitions beyond S2.
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PMID:Modification of the properties of S2 state in photosynthetic O2-evolving center by replacement of chloride with other anions. 303 16

The properties of the vanadium-containing bromoperoxidases from the seaweeds Ascophyllum nodosum, Laminaria saccharina and the lichen Xanthoria parietina were studied. Upon reduction with sodium dithionite, these bromoperoxidases show EPR spectra which are typical of a vanadyl cation (VO2+). From the spectral parameters and a comparison with inorganic vanadyl complexes, we conclude that the ligand environment largely consists of oxygen donors. The data also show that the structure of the active sites in these enzymes is very similar. Since EPR spectra of vanadium(IV) bromoperoxidase are only obtained after reduction, the metal ion is present in the native enzymes in the 5+ oxidation state. All these enzymes loose their enzymic activity upon dialysis against citrate-phosphate (PO4(3-)) buffer at pH 3.8, containing EDTA. The brominating activity could be reconstituted by the addition of vanadate (VO4(3-)). The experiments suggest that vanadate is incorporated into these enzymes. In line with the EPR data, we propose a structure of the active site in which at least 4 oxygen atoms are present as donors for the central vanadium(V) ion. Since several inorganic peroxovanadium(V) complexes have been described, we suggest that the vanadium ion in bromoperoxidases serves as a binding site for H2O2. Upon subsequent binding of bromide this ion is oxidized by the peroxo-intermediate to form hypobromite. This model does not require valence state changes of the metal ion itself and indeed no changes in the EPR spectrum of reduced bromoperoxidase are observed upon addition of H2O2 or Br-. Further, bromoperoxidase reduced with a small excess of sodium dithionite is not active in the bromination reaction. The bromoperoxidases from the various sources show similarity in the amino-acid composition with a predominance of acidic amino acids. Distinct pH optima are observed in the bromination reaction catalysed by the bromoperoxidases. Despite the presence of the same prosthetic group in these enzymes with comparable vanadium ligand-field environment, the enzymic properties are very different. The specific activity as well as the Km for bromide differ greatly. Unlike the enzymes from the seaweeds A. nodosum and L. saccharina the bromoperoxidase from the lichen X. parietina is inhibited by low concentrations (1-5 mM) of nitrate. These bromoperoxidases have a remarkable resistance towards organic solvents such as methanol, ethanol and propanol.
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PMID:Structure and function of vanadium-containing bromoperoxidases. 340 34

The effect of cationic, anionic and nonionic detergents on the EPR spectrum of spin-labeled somatostatin has been studied. At detergent concentrations well above the critical micelle concentration, nonionic detergents do not alter the EPR spectrum. Sodium dodecyl sulfate markedly alters both the line height ratio and the hyperfine splitting constant, whilst dodecyltrimethylammonium bromide alters only slightly the hyperfine splitting constant and line height ratio. The somatostatin-sodium dodecyl sulfate complex appeared monodisperse by sedimentation equilibrium with about 17 g bound detergent per g peptide. Circular dichroic and difference spectra of the dodecyl sulfate-somatostatin complex show that the tryptophanyl residue is buried in a nonpolar environment and that the secondary and tertiary structure of the peptide is markedly altered. Sedimentation equilibrium studies suggest that two types of dodecyltrimethylammonium-somatostatin complex exist. One type resembles the dodecyl sulfate-peptide complex, whilst the other appears to include several peptide units with only about one gram bound detergent per gram peptide.
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PMID:Somatostatin-detergent interaction. 610 70

It has been reported by Johnson et al. ((1977) Biochem. Biophys. Res. Commun. 74, 384-389) that phenacyl bromide reacts with a single reactive sulfhydryl group of aconitase, abolishing enzyme activity. Substrate or analogs have a protective effect. This group is therefore at the catalytic site of the enzyme. Aconitase is also known to be an Fe-S protein, paramagnetic as obtained on purification (Ruzicka and Beinert (1978) J. Biol. Chem. 253, 2514-2517). We have attempted to obtain information on the location of the Fe-S cluster of aconitase with respect to the catalytically active site by attaching nitroxide-labelled sulfhydryl reagents of the bromoacyl and maleimide type to the sensitive sulfhydryl group. The EPR signals of those spin-labelled sulfhydryl reagents that abolish enzyme activity disappear during reaction with aconitase. EPR spectra at 13 K of the product obtained by reaction of three spin labels (two maleimides and one bromoacyl) with aconitase included a half-field transition at g approximately equal to 4.0 which is characteristic of spin-spin interaction. On the basis of calculations of the dependence of the intensity of the half-field transition on the distance between two interacting unpaired electrons (Eaton and Eaton, (1982) J. Am. Chem. Soc. 104, 5002-5003) the distances between the nitroxide N-O bond and the center of the Fe-S cluster for the three spin labels were calculated to be 10.5, 11 and 13 A. Combined distance and orientation data for the three spin labels indicate that the reactive sulfhydryl group is about 12 A from the center of the Fe-S cluster.
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PMID:A spin-label study of the disposition of the Fe-S cluster with respect to the active center of aconitase. 630 21

Three variants of horse heart myoglobin (Mb) in which the proximal His93 residue has been replaced with a Cys residue have been constructed and studied by NMR, EPR, and MCD spectroscopy to evaluate the contributions of proximal and distal residues to the coordination environment of the heme iron in these proteins. Although no experimental conditions were identified that allowed quantitative ligation of the cysteine residue to the heme iron in the His93Cys variant, all of the spectroscopic evidence collected for the His93Cys/His64Ile and His93Cys/His64Val double variants supports the assignment of thiolate as the ligand to iron in the oxidized forms of these variants. The double metMb variants exhibit Soret maxima that are considerably blue-shifted, 1H NMR spectra with decreased mean methyl resonances, and EPR spectra with highly rhombic g values. These spectroscopic data for the Fe(III) variants resemble the corresponding properties reported for ferricytochrome P-450. The decrease in the reduction potential of the double variants by 280 mV relative to wild-type protein is also consistent with the low midpoint potential of cytochrome P-450. MCD spectroscopy of these variants confirms that the proximal cysteine residue is not bound in the reduced forms of these proteins and, in the case of the His93Cys variant, that the distal histidine is coordinated to the iron. Similar coordination environments were created in the ferrimyoglobin variants by cyanogen bromide modification, which resulted in cyanation of the sulfur atom and prevented the ligation of Cys93 to the heme iron.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Trans effects on cysteine ligation in the proximal His93Cys variant of horse heart myoglobin. 754 91

Sonodynamic therapy is a promising new modality for cancer treatment based on the synergistic effect on tumor cell killing by combination of a drug (typically a photosensitizer) and ultrasound. The mechanism of sonodynamic action was suggested to involve photoexcitation of the sensitizer by sonoluminescent light, with subsequent formation of singlet oxygen. In this work we studied the aqueous sonochemical reactions of the gallium-porphyrin derivative ATX-70, one of the most active sonodynamic agents found, using 50 kHz ultrasound. The experiments were carried out in the presence of 2,2,6,6-tetramethyl-4-piperidone hydrochloride (TMP), which reacts with singlet oxygen or .OH radicals to give the EPR-detectable nitroxide 2,2,6,6-tetramethyl-4-piperidone-N-oxyl (TMP-NO). Recently it has been suggested that the enhancement of TMP-NO yields in the presence of aqueous solutions of ATX-70 exposed to ultrasound was evidence for the formation of singlet oxygen in the system. Our results show that the surfactant cetyltrimethylammonium bromide (CTAB) can mimic the ATX-70-induced increase in the TMP-NO signal, but it fails to reproduce the behavior of ATX-70 in D2O: while the yields of TMP-NO in the presence of ATX-70 increase in D2O, the opposite effect was found with the surfactant CTAB. However, our data show that the increased TMP-NO yields in D2O are paralleled by an increased concentration of ATX-70 dimer, a form that is inactive in the photochemical generation of singlet oxygen. Our finding that the ATX-70-dependent enhancement of the TMP-NO signal was highest at approximately 20% O2, in both N2/O2 and argon/O2 mixtures, and decreased with increasing oxygen concentration is not compatible with the singlet oxygen mechanism. Finally, our results on the temperature dependence of the ATX-70-induced formation of TMP-NO are not consistent with the photochemical excitation of ATX-70 by sonoluminescent light: the ATX-70-dependent enhancement of TMP-NO signal increased with temperature in the range 10-25 degrees C, while the intensity of sonoluminescence of aqueous solutions both in multiple-bubble fields and in single-bubble experiments is known to decrease with increasing temperature.
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PMID:Effect of gallium-porphyrin analogue ATX-70 on nitroxide formation from a cyclic secondary amine by ultrasound: on the mechanism of sonodynamic activation. 763 Oct 12

The copper center of the Pseudomonas aeruginosa His117Gly azurin mutant is accessible to exogenous ligands through an aperture in its surface created by the removal of the endogenous imidazole ligand. Depending on the exogenous ligand, a surprising variety of type 1 and type 2 copper sites can be obtained that are readily distinguished by electronic, EPR, and resonance Raman (RR) spectroscopy. The RR spectrum of type 1 H117G with exogenous imidazole is nearly identical to that of wild-type azurin, indicating that the trigonal geometry and short Cu-S(Cys) bond of approximately 2.15 A have been maintained. With anionic ligands (e.g., Cl-, Br-, N3-), the RR spectra show increased intensity at 370 and 400 cm-1 and a corresponding decrease in intensity at 410 cm-1, suggesting a lengthening of the Cu-S(Cys) bond as the site achieves a more tetrahedral character. An extreme example is the hydroxide adduct of H117G which is green in color and has optical and RR spectra reminiscent of the tetrahedral type 1 site in Achromobacter cycloclastes nitrite reductase. The fact that the basic RR pattern is little changed in most of the type 1 adducts indicates that the RR spectrum is due primarily to vibrations of the Cu-cysteinate moiety and that its coplanar conformation is conserved. Type 2 H117G proteins are formed by the addition of bidentate exogenous ligands such as histidine and histamine. They have their absorption maxima blue-shifted to 400 nm and their EPR A parallel values increased to approximately 160 x 10(-4) cm-1, both of which are characteristic of tetragonal Cu sites with Cu-S(thiolate) bonds of > 2.25 A. The RR spectra of the type 2 H117G proteins are still dominated by multiple cysteinate-related vibrational modes. However, the vibrational modes with the greatest intensity and Cu-S(Cys) stretching character have shifted approximately 100 cm-1 to lower energy compared to the type 1 sites, consistent with a longer (Cys)S-Cu bond. It is proposed that the tetragonal type 2 character of the bidentate ligand complexes is due to the addition of a fourth strong ligand in the equatorial ligand plane.
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PMID:Resonance Raman spectroscopy of the azurin His117Gly mutant. Interconversion of type 1 and type 2 copper sites through exogenous ligands. 824 Nov 36

The presence of vanadium-containing bromoperoxidases in various types of seaweed is well-documented. We now report that the terrestrial fungus Curvularia inaequalis excretes a novel chloroperoxidase which also contains vanadium as a prosthetic group. The chloroperoxidase is excreted in the medium as the only protein and is, therefore, almost purely obtained. Atomic absorption spectroscopy measurements showed that the chloroperoxidase contained vanadium, which was essential for enzymatic activity, in a stoichiometry of 1 mol vanadium per mol of enzyme. When the fungus was grown in media containing low concentrations of vanadate (VO4(3-)) or when vanadate was absent, the enzyme was excreted in an apoform. Addition of vanadate to the apoenzyme purified from the medium, dialyzed holo-enzyme or growth medium led to incorporation of the metal and to a subsequent increase in specific activity from 0.7 to about 7.5 units/mg. The reduced enzyme showed an axially symmetric EPR spectrum (g(o) = 1.971, Ao = 91.7 x 10(-4) cm-1) with 16 hyperfine lines that is essentially the same as the EPR spectrum of the vanadium-containing bromoperoxidase of the seaweed Ascophyllum nodosum. This demonstrates that the active sites in the two enzymes are very similar. The chlorinating and brominating activities of the chloroperoxidase from C. inaequalis were also studied and compared to those of the vanadium bromoperoxidase from A. nodosum. The chlorinating reaction catalyzed by the chloroperoxidase had a pH optimum around 5.5 and the Km for Cl- was small (0.25 mM at pH 4.5), but the logarithm of its value increased linearly with increasing pH. At high bromide concentrations, the pH optima of chloroperoxidase and bromoperoxidase in the brominating reaction were about the same (5.5). However, at low bromide concentrations the pH optimum of the chloroperoxidase was at higher pH values than that of the bromoperoxidase.
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PMID:The chloroperoxidase from the fungus Curvularia inaequalis; a novel vanadium enzyme. 838 70


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