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)

EPR spectra of Hb15NO crystals of mutant Kansas (Asn G4(102) beta leads to Thr) have been recorded at every 5' intervals and in three orthogonal planes. The nitrosylhemes are nonequivalent for the alpha and beta subunits, their assignments are made possible by comparison with the powder EPR specrtra of Hb15NO of mutant Iwate (His F8(87)alpha leads to Tyr) (Trittelvitz, E., Gersonde, K., and Winterhalter, K.H. (1975) Eur. J. Biochem. 51, 33-42). The EPR parameters for the beta-nitrosylhemes of Hb Kansas are: gxx=2.094 gyy=2.031, gzz=2.00, Azetazeta=11 G, Azetazeta=32.5 G, Aetaeta=12.5 G; the Fe-N-O bond angle is about 105 degrees. The paramters for the alpha-nitrosyl hemes are: gxx=2.058, gyy=2.021, gzz=1.977, Azetazeta=24.5 G, Azetazeta less than or equal to 5G, Aetaeta=23 G; the Fe-N-O bond angle is about 167 degrees. Hyperfine splittings of 7 to 8 gauss with 14Nepsilon atom of His(F8) were observed for the beta-nitrosylhemes; none was resolved for the alpha-nitrosylhemes. The results were interpreted to mean that the tension on the iron of the beta subunits is not large in the unliganded state and this tension was not greatly increased by the binding of nitric oxide in the strongly bent configuration. The tension at the iron in the deoxyhemoglobin is dominant at the alpha subunits. Binding of nitric oxide in this case causing either the breaking or great weakening of the Fe-His(F8) bond. The nitrosyl is in a nearly linear configuration. The unpaired electron densities at the nitrogen atom of the bound nitric oxide is about 63% for the beta-nitrosylheme and 37% for the alpha-nitrosylhemes.
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PMID:Nonequivalence of subunits in [15N]nitrosylhemoglobin Kansas. A single crystal electron paramagnetic resonance investigation. 19 Feb 30

The anion-binding properties of lactoferrin (Lf), with Fe3+ or Cu2+ as the associated metal ion, have been investigated by physicochemical and crystallographic techniques. These highlight differences between the two sites and in the anion-binding behavior when different metals are bound. Carbonate, oxalate, and hybrid carbonate-oxalate complexes have been prepared and their characteristic electronic and EPR spectra recorded. Oxalate can displace carbonate from either one or both anion sites of Cu2(CO3)2Lf, depending on the oxalate concentration, but no such displacement occurs for Fe2(CO3)2Lf. Addition of oxalate and the appropriate metal ion to apoLf under carbonate-free conditions gives dioxalate complexes with both Fe3+ and Cu2+, except when traces of EDTA remain associated with the protein, when hybrid complexes M2(CO3)(C2O4)Lf can result. The anion sites in the crystal structures of Fe2(CO3)2Lf, Cu2-(CO3)2Lf, and Cu2(CO3)(C2O4)Lf, refined at 2.2, 2.1, and 2.2 A, respectively, have been compared. In every case, the anion is hydrogen bonded to the N-terminus of helix 5, an associated arginine side chain, and a nearby threonine side chain. The carbonate ion binds in bidentate fashion to the metal, except in the N-lobe site of dicupric lactoferrin, where it is monodentate; the difference arises from slight movement of the metal ion. The hybrid complex shows that the oxalate ion binds preferentially in the C-lobe site, in 1,2-bidentate mode, but with the displacement of several nearby side chains. These observations lead to a generalized model for synergistic anion binding by transferrins.
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PMID:Anion binding by human lactoferrin: results from crystallographic and physicochemical studies. 158 1

Site-directed mutagenesis was used to produce mutants of bacteriorhodopsin where either glycine-72, threonine-90, leucine-92, or serine-169 was replaced by a cysteine. Two different spin labels were then covalently attached to these sites. The selection of attachment sites covered two postulated loops (72,169) and a membrane-spanning segment (90,92). It was not possible to properly refold the protein labeled at position 90, presumably due to steric problems, but the EPR spectra of the other mutants that were successfully reconstituted in phospholipid vesicles provided information on the dynamics of protein side chains in the vicinity of the label site. A power saturation approach was used to investigate the spin relaxation times, which in turn can be influenced by collisions with paramagnetic species. The differential effect of oxygen and a water-soluble chromium complex on the power-saturation behavior of the spin-labeled mutants was used to obtain topographical information on the sites in the membrane-bound protein. The results are consistent with residues 72 and 169 being located in structured loops exposed to the aqueous phase and residue 92 being localized in the membrane interior, possibly near a helix-helix contact region.
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PMID:Structural studies on transmembrane proteins. 2. Spin labeling of bacteriorhodopsin mutants at unique cysteines. 255 12

To determine the origin of the overall approximately 10(16)-fold rate enhancement of DNA hydrolysis catalyzed by staphylococcal nuclease, the effects of single mutations that alter the amino acid residue at each of the essential positions Asp-21, Asp-40, Thr-41, Arg-35, and Arg-87 have been examined. Metal ion and substrate analogue binding were quantitated by EPR, by the paramagnetic effects of Mn2+ on 1/T1 of water protons, and by fluorescence titrations, yielding the six dissociation constants of the ternary enzyme-Mn2+-3',5'-pdTp and enzyme-Ca2+-3',5'-pdTp complexes. The kinetic parameters kcat, KACa, KMCa, KSDNA, KMDNA, and KIMn were determined by monitoring the rate of DNA hydrolysis. By thermodynamic and kinetic criteria, Mn2+ binds tightly to the Ca2+ binding site of the enzyme but is at least 36,000-fold less effective than Ca2+ in activating the enzyme. Alterations of the liganding residues in the D40G, D40E, T41P, D21E, and D21Y mutants generally weaken the binding of Ca2+ less than or equal to 12.7-fold and of Mn2+ less than or equal to 5.4-fold, exert little effect on the KSDNA or KMDNA (less than or equal to 3.2-fold), and raise the affinity of the enzyme and its metal complexes for 3',5'-pdTp by factors less than or equal to 13.5-fold. Small changes in the ligand geometry are also reflected in the Mn2+ complexes of the liganding mutants (i.e., those in which the metal-liganding amino acids have been altered) by decreases in the electron-spin relaxation time of Mn2+. Inhibitory effects on kcat are noted in all of the liganding mutants with D40E, D40G, T41P, D21E, and D21Y showing 12-, 30-, 37-, 1500-, and greater than or equal to 29,000-fold reductions, respectively. The greater than or equal 10(3)-fold larger inhibitory effects on kcat of enlarging Asp-21 as compared to enlarging Asp-40 are ascribed to the displacement of the adjacent water molecule which attacks the phosphodiester. Mutations of each of the essential Arg residues to Gly (R35G and R87G) reduce kcat by factors greater than or equal to 35,000 but weaken metal binding less than or equal to 9-fold.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Kinetic and magnetic resonance studies of active-site mutants of staphylococcal nuclease: factors contributing to catalysis. 356 71

Nine different synthesized thiol tetra- and penta-peptides containing Cys-Ser, Cys-Thr, Cys-His, Cys-Tyr and Cys-Cys in the N- and C-terminals are proposed as new models of apo-P-450. The peptide-hemin complexes in the oxidized (Fe(III] form in solution were characterized by their optical and EPR spectra and found to show hydroxylation activity like that of P-450 enzymes on acetanilide. Although the EPR properties of the complex containing Cys-His and all complexes in the presence of pyridine were similar to those of P-450, the optical properties of these complexes were not completely similar to those of P-450. Based on these results, the sixth heme coordination site of P-450 was discussed.
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PMID:Thiol-containing peptide-hemin complexes as models of cytochrome P-450. 631 84

The pH dependence of the electronic and EPR spectra of two variants of horse heart myoglobin (Mb) in which the distal His64 ligand has been replaced by either Thr or Ile has been studied. Both of these variants exhibit spectroscopic changes with pH that are indicative of a transition between two ferric high-spin forms that occurs with a pKa of 9.49 for the His64Thr variant and 9.26 for the His64Ile variant and that is distinctly different from the pH-dependent spectroscopic changes related to titration of the distal aquo ligand of wild-type Mb. The electronic and EPR spectra of both variants at all values of pH studied are consistent with the presence of a pentacoordinate heme iron center. For the His64Thr variant, a high-resolution (1.9 A) structure determination establishes the lack of the distal aquo ligand and demonstrates an out-of-plane movement of the ferric iron toward the proximal histidine together with a decrease of the Fe-His bond length. Investigation of this pH-linked equilibrium by EPR spectroscopy reveals rhombically split high-spin signals at both pH 7 and 11 with a greater degree of rhombicity exhibited by the alkaline species. We propose that the pH-linked spectroscopic transition exhibited by these distal histidine variants results from the deprotonation of the proximal His93 residue to produce imidazolate ligation at alkaline pH.
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PMID:Origin of the pH-dependent spectroscopic properties of pentacoordinate metmyoglobin variants. 765 2

The in vivo expression and the functional and spectroscopic properties are reported for a mutant of the homodimeric haemoglobin of the mollusc Scapharca inaequivalvis (HbI), where residue threonine 72 (position 9 in the E helix) at the subunit interface has been substituted by isoleucine. The aim of this study is to test the hypothesis that increasing the hydrophobicity character of the subunit interface may modulate oxygen affinity and co-operativity of this haemoglobin. In fact, X-ray crystal structure studies have shown that the subunit interface, formed by the E and F helices of the two chains, changes its character from hydrophilic to hydrophobic upon oxygenation. This is primarily due to extrusion of Phe97 side-chain from the haem pocket toward the interface, which disrupts a network of ordered water molecules and results in close van der Waals contacts between Phe97 and Thr72 of the partner subunit. Thr72-->Ile HbI was expressed in E. coli after mutation of HbI-DNA and it displays a approximately 40-fold enhancement of oxygen affinity and a marked reduction of co-operativity in oxygen binding, with respect to native HbI. These functional properties and the kinetics of oxygen dissociation and carbon monoxide combination rates, as well as data from EPR and circular dichroism spectroscopy, indicate that indeed the increase of the hydrophobicity at the interface upon mutation stabilizes the "high affinity" conformation of the protein, suggesting that extrusion of Phe97 toward the interface should be facilitated even in the unliganded form.
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PMID:A single mutation (Thr72-->Ile) at the subunit interface is crucial for the functional properties of the homodimeric co-operative haemoglobin from Scapharca inaequivalvis. 776 Mar 32

Site-directed mutants were prepared of four consecutive and highly conserved residues (His-411, Asp-412, Thr-413, Tyr-414) of an extramembrane loop that connects putative transmembrane helices IX and X of subunit I of Rhodobacter sphaeroides cytochrome c oxidase. The modified enzymes were purified and analyzed by optical, resonance Raman, FTIR, and EPR spectroscopies. Consistent with our recent model in which both hemes are ligated to histidines of helix X [Hosler, J. P., et al. (1993) J. Bioenerg. Biomembr. 25, 121-136], substitutions for three of these four residues cause perturbations of either heme a or heme a3. Resonance Raman spectra of the mutant Y414F demonstrate that Tyr-414 does not participate in a hydrogen bond with the heme a formyl group, but its alteration does result in a 5-nm red-shift of the alpha-band of the visible spectrum, indicating proximity to heme a. The mutant D412N shows changes in resonance Raman and FTIR difference spectra indicative of an effect on the proximal ligation of heme a3. Changing His-411 to alanine has relatively minor effects on the spectral and functional properties of the oxidase; however, FTIR spectra reveal alterations in the environment of CuB. Conversion of this residue to asparagine strongly disrupts the environment of heme a3 and CuB and inactivates the enzyme. These results suggest that His-411 is very near the heme a3-CuB pocket. We propose that these residues form part of a cap over the heme a-heme a3-CuB center and thus are important in the structure of the active site.
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PMID:A loop between transmembrane helices IX and X of subunit I of cytochrome c oxidase caps the heme a-heme a3-CuB center. 811 Jul 50

Single mutations of three amino acid residues in the vicinity of the primary electron donor, P, in the reaction center (RC) from Rhodobacter (Rb.) sphaeroides were constructed and characterized in order to study the effects of hydrogen-bonding on the physical properties of P. The mutations, Phe M197-->Tyr, Met L248-->Thr, and Ser L244-->Gly, represent single amino acid changes near P designed to introduce residues found in Rhodopseudomonas (Rps.) viridis and to, thus, probe the effects of nonconserved residues. The mutations were designed to change the nonconserved H-bonding interactions of P in Rb. sphaeroides, at the level of a C2 acetyl, a C9 keto, and a C10 ester carbonyl of P, respectively, to those present in Rps. viridis. The Fourier transform (pre)resonance Raman (FTRR) spectra of P, in its reduced and oxidized states, from reaction centers of these mutants were studied to determine modifications of H-bond interactions of the pi-conjugated C2 acetyl and C9 keto carbonyl groups and the C10 carbomethoxy ester carbonyl groups of P. The vibrational spectra of reduced P in the Met L248-->Thr and Ser L244-->Gly mutants reveal no evidence for changes in the H-bonding pattern of P; this suggests that for Rb. sphaeroides wild type, Ser L244 is not H-bonded to the C10 ester carbonyl of PL. The vibrational spectrum of reduced P from the Phe M197-->Tyr mutant compared to that of wild type can unambiguously be interpreted in terms of the formation of a new H-bond with an acetyl carbonyl of P, specifically PM. Correlating with the new H-bond, the Phe M197-->Tyr mutant exhibits an electronic absorption spectrum where the P absorption band is significantly perturbed. Intact cell and chromatophore photobleaching spectra of the same mutant indicate that the P absorption band has red-shifted by ca. 10 nm; no such behavior is observed for the other mutants. As well, the P-->BPheL electron transfer rate does not seem to strongly depend on the H-bonding of the C2 acetyl carbonyl of PM to a tyrosine residue. The EPR zero-field splitting parameters, E and D, of the primary donor triplet are only slightly modified in the mutant reaction centers, on the order of 1%.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Structure, spectroscopic, and redox properties of Rhodobacter sphaeroides reaction centers bearing point mutations near the primary electron donor. 825 10

As a molecular switch, the ras protein p21 undergoes structural changes that couple recognition sites on the protein surface to the guanine nucleotide-divalent metal ion binding site. X-ray crystallographic studies of p21 suggest that coordination between threonine-35 and the divalent metal ion plays an important role in these conformational changes. Recent ESEEM studies of p21 in solution, however, place threonine-35 more distant from the metal and were interpreted as weak or indirect coordination of this residue. We report high frequency (139.5 GHz) EPR spectroscopy of p21.Mn(II) complexes of two guanine nucleotides that probes the link between threonine-35 and the divalent metal ion. By analysis of high-frequency EPR spectra, we determine the number of water molecules in the first coordination sphere of the manganous ion to be four in p21.Mn(II).GDP, consistent with prior low-frequency EPR and X-ray crystallographic studies. In the complex of p21 with a GTP analog, p21.Mn(II).GMPPNP, we determine the hydration number to be 2, also consistent with crystal structures. This result rules out indirect coordination of threonine-35 in the solution structure of p21.Mn(II).GMPPNP, and implicates direct, weak coordination of this residue as suggested by Halkides et al. [(1994) Biochemistry 33,4019]. The 17O hyperfine coupling constant of H2(17)O is determined as 0.25 mT in the GDP from and 0.28 mT in the GTP form. These values are similar to reported values for 17O-enriched aquo ligands and some phosphato ligands in Mn(II) complexes. The high magnetic field strength (4.9 T) employed in these 139.5 GHz EPR measurements leads to a narrowing of the Mn(II) EPR lines that facilitates the determination of 17O hyperfine interactions.
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PMID:High frequency (139.5 GHz) electron paramagnetic resonance characterization of Mn(II)-H2(17)O interactions in GDP and GTP forms of p21 ras. 881 Sep 26


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