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)

We have carried out a detailed redox titration monitored by EPR on the hydrogenase from Desulfovibrio vulgaris Miyazaki. Typical 3Fe and nickel signals have been observed, which are very similar to those given by Desulfovibrio gigas hydrogenase in all the characteristic redox states of the enzyme. This confirms that D. vulgaris Miyazaki hydrogenase is a Ni-Fe enzyme closely related to that from D. gigas, as was recently proposed on the basis of sequence comparisons (Deckers, H.M., Wilson, F.R. and Voordouw, G. (1990) J. Gen. Microb. 136, 2021-2028).
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PMID:EPR and redox properties of Desulfovibrio vulgaris Miyazaki hydrogenase: comparison with the Ni-Fe enzyme from Desulfovibrio gigas. 132 73

Dynamics and/or order of the hydrophobic part of phosphatidylcholine (PC) liposomes and rat brain total lipid (TL) liposomes and synaptosomes were studied and compared by EPR spectroscopy using the spin probes 5 or 16-doxyl stearic acid and 14-doxyl phosphatidylcholine. The dynamics and/or order of the hydrophobic part of TL liposomes or synaptosomes were similar but differed largely from those of PC liposomes. The dynamics of the hydrophobic part of the liposomes decreased gradually with the increasing TL/PC ratio in the sample. To obtain in TL liposomes or synaptosomes the same EPR spectrum parameters as in PC liposomes at 37 degrees C, the formers have to be heated to temperatures of approximately 50-60 degrees C. The dynamics and/or order of the hydrophobic part of lecithin liposomes at 5-10 degrees C were comparable with those of TL liposomes or synaptosomes at 37 degrees C. The results emphasize the role of the lipid composition in studies concerning drug-lipid and protein-lipid interactions in model and biological membranes.
Gen Physiol Biophys 1991 Aug
PMID:Comparison of dynamics of lecithin liposomes and brain total lipid liposomes with synaptosomal membranes. An EPR spectroscopy study. 166 57

Thermal behavior of intact and LC-2 deficient myosin obtained from bovine heart was studied using EPR and DSC techniques. The reactive thiol sites (Cys 704) of myosin was labelled with 4-maleimidopiperidine-nitroxyl, and the measurements were taken in X-band in the conventional and saturation transfer EPR time domains. DSC scans were made from 5 degrees up to 60 degrees C with 0.25 degree C/min scan rate. Bovine heart myosin was isolated by standard methods. The LC-2 deficient myosin was prepared by cleaving myosin with alpha-chymotrypsin (400:1 molar ratio) for 1.5 min at 25 degrees. Our basic finding was a conformational change in LC-2 deficient myosin detected at 18 degrees C. It was not observed in intact myosin suggesting that the dissociation of the regulatory light chain resulted in a local structural change in the neighbourhood of the attached label in the 20 kD domain. The rotational correlation time of the label and the microwave saturation behavior of myosin at 25 degrees C exhibited no significant differences after removal of the LC-2 light chain. However, the mobility of the same label was significantly diminished in skeletal muscle. Studying the melting behavior of myosin, six endothermic peaks were detected at 19; 41.3; 43.3; 45.5; 48.5; and 54.3 degrees C (enthalpies: 708.4; 399; 773.8; 1089; 1612.8; and 3304.8 kJ/mol). They were assigned to the segment containing the essential thiols: HMM S-2, HMM S-1 (50kD and 20kD plus 27kD) and LMM. Removal of the LC-2 light chain was associated with the disappearance of the 18 degrees transition showing again a structural change in LC-2 deficient myosin which extended to a larger region.
Gen Physiol Biophys 1990 Dec
PMID:Conformational changes in bovine heart myosin as studied by EPR and DSC techniques. 196 39

Certain reagents, such as ascorbate or iron salts and thiols, enhance the bacteriostatic action of nitrite on food-spoilage bacteria. This may be due to the formation of nitric oxide and iron-thiol-nitrosyl [( Fe-S-NO]) complexes. The minimum concentrations of these reagents required to inhibit growth of Clostridium sporogenes were investigated. A mixture of nitrite (0.72 mM) with iron (1.44 mM) and cysteine (2.16 mM) was found to be extremely inhibitory when autoclaved and diluted into the culture medium. This mixture caused rapid cessation of growth and loss of cell viability at a final concentration corresponding to 40 microM-nitrite. If added to the initial culture medium, it prevented growth at 5 microM-nitrite. The mixture was more inhibitory, on the basis of the nitrite concentration used, than the 'Perigo factor', obtained by autoclaving nitrite in growth medium. [Fe-S-NO] compounds of known chemical structure were tested to determine if they were responsible for this effect. Total inhibition of cell growth was observed with the tetranuclear clusters [Fe4S3(NO)7] (Roussin's black salt), [Fe4S4(NO)4] or [Fe4Se3(NO)7], added at concentrations equivalent to 10 microM-nitrite, or with [Fe2(SMe)2(NO)4] (methyl ester of Roussin's red salt), equivalent to 200 microM-nitrite. The rate of hydrogen production in growing cell cultures was inhibited by [Fe4S3(NO)7] at levels equivalent to 2.5 microM-nitrite. EPR spectra of the inhibited cells showed features with g-values of 2.03, characteristic of mononuclear iron-nitrosyl species, and, under non-reducing conditions, an unusual signal at g = 1.65. There was no correlation between growth inhibition and the g = 2.03 signal, though there was a better correlation between inhibition and the g = 1.65 signal. The direct effects of the compounds were tested on the iron-sulphur proteins of the phosphoroclastic system, namely ferredoxin, pyruvate-ferredoxin oxidoreductase and hydrogenase. EPR spectra and enzyme assays showed that these proteins were not destroyed by [Fe4S3(NO)7], [Fe4S4(NO)4], [Fe2(SMe)2(NO)4], [Fe(SPh)2(NO)2], or M2 (an autoclaved mixture of 66 mM-cysteine, 3.6 mM-FeSO4 and 0.72 mM-NaNO2) at concentrations higher than those that caused total inhibition of cell growth. Inhibition of cells by [Fe-S-NO] compounds is unlikely to be due to interaction with the preformed enzymes. The possible formation of iron-nitrosyl complexes in vivo, and their inhibitory actions, are discussed.
J Gen Microbiol 1990 Oct
PMID:Interactions of iron-thiol-nitrosyl compounds with the phosphoroclastic system of Clostridium sporogenes. 217 69

Orientation dependence and rotational motion of maleimide spin labels attached to the fast reacting thiol sites of myosin were studied in glycerinated cardiac and skeletal muscle fibres in rigor and in relaxing medium. The probe order in skeletal muscle was shown to be about one order of magnitude higher than that in cardiac muscle. In skeletal muscle in rigor the orientational order is static on the time scale of the saturation transfer electron paramagnetic resonance measurement (ST EPR, rotational correlation time of the label is greater than 1 ms), but in cardiac muscle fibres, a disorder was observed which was at least partly dynamical, the rotational correlation time being about 100 microseconds. In relaxing solution the degree of order of probe molecules in both types of muscle was strongly reduced at and above the resting length. The disorder was at least partly dynamical on the ST EPR time scale, the apparent rotational correlation times being 200 microseconds for skeletal muscle and 60 microseconds for cardiac muscle, respectively. According to the results of ST EPR the rotational behavior of cross-bridges was identical in cardiac and skeletal muscle in relaxing medium.
Gen Physiol Biophys 1987 Dec
PMID:Orientation dependence and motional properties of spin labels in cardiac and skeletal muscle fibres. 283 48

Liposomes and proteoliposomes obtained from rat brain were used; structural changes induced by Vc5 cytotoxin (CT) from Central Asia cobra venom have been studied by the EPR method using spin probes (5-, 10-, or 12-doxylstearic acid). The addition of CT to liposome samples, containing spin probes resulted in the appearance of a new EPR signal in the initial spectrum (samples without CT), typical of probes with strongly retarded mobility. The presence of hydrophobic interaction between the CT molecules and spin labelled fat acids permits the assumption that CT molecules in liposomes trap both lipid probes and phospholipids localized in the reach of action of hydrophobic forces. CT may be supposed to induce formation in membranes of liposomes with domain structures. As a result of hydrophobic interaction with CT molecules both the phospholipid and lipid probe mobility in the domain is substantially less than that in liposome regions free of CT molecules. Due to this, a new signal appears in the initial EPR spectrum of the spin probes. An analysis of the dependence of the probe order parameter value on CT concentration in samples has suggested that CT act uniformly along the membrane lipid profile with a certain CT concentration range. At high concentrations CT molecules cannot penetrate the lipid region deep enough, due to mutual electrostatic repulsion and steric factors at membrane surface. As a result, structural changes involve regions adjacent to the membrane surface only.
Gen Physiol Biophys 1984 Dec
PMID:Structural changes of liposome phospholipid packing induced by cytotoxin of the Central Asia cobra venom. 609

Myxothiazol, an antibiotic from Myxococcus fulvus, which inhibits mitochondrial respiration in the bc1 complex of the respiratory chain, has effects on the redox components of isolated succinate-cytochrome c reductase complex which suggest that it interacts with both cytochrome b and the iron-sulfur protein of the bc1 complex. The inhibitor appears to increase the midpoint potentials of cytochromes b-562 and b-566, as indicated by an increase in their reducibility by the succinate/fumarate couple. It also causes a red shift in the optical spectrum of ferrocytochrome b-566, as reported previously (Becker, W. F., Von Jagow , G., Anke , T., Steglisch , W. (1981) FEBS Lett. 132, 329-333). This red shift is enhanced by Triton X-100, and there is no shift in the spectrum of b-562. These results are consistent with evidence that mutations conferring myxothiazol resistance in yeast map to the mitochondrial gene for cytochrome b ( Thierbach , G., and Michaelis, G. (1982) Mol. Gen. Genet. 186, 501-506). In addition, myxothiazol has effects on reduction of the cytochromes b and c1 by succinate or ubiquinol which are identical to those caused by removal of the iron-sulfur protein from the bc1 complex. It blocks reduction of cytochrome c1 during single and multiple turnovers of the bc1 complex, but does not block reduction of the b cytochromes. In the presence of antimycin, it blocks reduction of both cytochromes b and c1. In contrast to antimycin, myxothiazol inhibits oxidant-induced reduction of both b cytochromes and does not inhibit their oxidation by fumarate. Myxothiazol also inhibits reduction of the iron-sulfur protein by ubiquinol and shifts the gx resonance in the EPR spectrum of the iron-sulfur protein from g = 1.79 to 1.76. It does not affect the midpoint potential of the iron-sulfur protein, but does eliminate the increase in midpoint potential which is caused by inhibitory hydroxyquinones which bind to the iron-sulfur protein. The effects of myxothiazol are consistent with a protonmotive Q cycle pathway of electron transfer in which myxothiazol binds to cytochrome b and displaces quinone from the iron-sulfur protein of the bc1 complex. These results suggest either that a myxothiazol-induced conformational change in cytochrome b is transmitted to a quinone binding site on the iron-sulfur protein, or that there is a quinone binding site which consists of peptide domains from both cytochrome b and iron-sulfur protein.
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PMID:An inhibitor of mitochondrial respiration which binds to cytochrome b and displaces quinone from the iron-sulfur protein of the cytochrome bc1 complex. 632 77

The inhibitory effect of 14 aqua(aryloxyacetato) copper(II) complexes on oxygen evolution rate in spinach chloroplasts has been investigated. The inhibitory effect of these effectors on photosynthesis was confirmed by Hill reaction as well as by EPR and fluorescence spectroscopies. The results of the EPR study showed that the sites of action of the studied effectors are Z+ and Y+ intermediates at the donor side of the photosystem (PS) 2. The EPR study also showed that another site of action is the oxygen evolving complex, namely its manganese cluster. The above suggestions were supported by the results of the fluorescence study as well. Based on the restoring of the photosynthetic electron transport to 2,6-dichlorophenol-indophenol in chloroplasts inhibited by the studied Cu(II) complexes using sym-diphenylcarbazide it can be assumed that the own core of PS2 (P680) and a part of the electron transport chain-at least up to plastoquinone-remain intact.
Gen Physiol Biophys 1994 Dec
PMID:Effects of Cu(II) complexes on photosynthesis in spinach chloroplasts. Aqua(aryloxyacetato)copper(II) complexes. 779 55

Deletion of the nifW gene in Azotobacter vinelandii yields a strain (DJ224) that grows poorly under N2 fixing conditions (Jacobson, M. R., Cash, V. L., Weiss, M. C., Laird, N. F., Newton, W. E., and Dean, D. R. (1989) Mol. & Gen. Genet. 219, 49-57). Here we report the purification of nitrogenase from DJ224. The purified Fe protein was indistinguishable from wild-type. The MoFe protein was indistinguishable from the wild-type MoFe protein by the criteria of sodium dodecyl sulfate-polyacrylamide gel electrophoresis, native gel electrophoresis, two-dimensional gel electrophoresis, metal analysis, UV/visible and EPR spectroscopies. It was different by the criteria of CD spectroscopy and specific activities. At a 5:1 molar ratio of Fe protein to MoFe protein, H2 evolution under argon was identical to wild-type, C2H2 reduction was inhibited by 27%, N2 reduction was inhibited by 38%, and CO inhibited H2 evolution by 17%. The above data show that the nifW gene product is not required for: 1) detectable alteration of the polypeptide; 2) the synthesis of the metal portion of FeMo cofactor; or 3) FeMo cofactor insertion. The MoFe protein synthesized in the absence of NifW appears to have an alteration near the FeMo cofactor site, possibly at homocitrate, which causes differential inhibition of different substrates.
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PMID:Purification and characterization of nitrogenase from a delta nifW strain of Azotobacter vinelandii. 830 84

The character of structural changes in thylakoid membranes caused by temperature variation was investigated. Experiments were performed on maize leaf segments in vivo and in a closed temperature cycle 24-50-24 degrees C. Two biophysical methods were used for detection: luminescence and EPR. Arrhenius plots of delayed fluorescence (DF) versus reciprocal temperature revealed two break points, T1 and T2. The MeFASL (10.3) spin probe monitoring properties close to membrane surface detected only T2 transition temperature. The results were interpreted in terms of a fluidity change which starts in a membrane centre at T1 and gradually displaces toward the surface at T2. The T1 and T2 transition temperatures are sensitive to pretreatment history of plants indicating that high temperature and drought-induced membrane alterations are irreversible. Activation energies E1, E2 and E3 were determined for temperature regions below T1 between T1 and T2, and above T2, respectively. The E1 and E3 activation energies showed greater sensitivity to stress than did E2. There are some indications that the DF method could be used to screen temperature sensitive and temperature resistant genotypes.
Gen Physiol Biophys 1993 Feb
PMID:Irreversible structural changes in thylakoid membranes at high temperatures. Detection by luminescence and EPR. 840 10


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