Related ArticlesTwo-dimensional NMR characterization of the deoxymyoglobin heme pocket.
Biochemistry. 1994 Sep 13;33(36):10934-43
Authors: Busse SC, Jue T
Traditionally, assigning the heme protein resonances has relied heavily on the comparison of spectra arising from protein reconstituted with specifically deuterated hemes and the native form. Such an approach can identify tentatively the broad, overlapping signals in the Fe(II) high-spin heme protein spectra. Although 2D NMR studies have reported alternative approaches to detect and assign paramagnetic signals, their effectiveness is limited primarily to Fe(III) low-spin systems and still depends upon isotopic labeling results to be definitive. For deoxymyoglobin, the reported 2D techniques have not produced any spin correlation maps. Nevertheless, our study demonstrates that the deoxymyoglobin spin correlations are indeed detectable and that a complete heme assignment, except for the meso protons, is achievable with only 2D NMR and saturation-transfer techniques. The 2D maps improve the spectral resolution dramatically and permit a comprehensive analysis of the deoxymyoglobin signals' temperature dependence, which supports the hypothesis that the electronic orbital ground state has contributions from both 5E and 5B2. The results also indicate a structural perturbation in the vicinity of the 2 vinyl group as the protein undergoes the transition from oxy- to deoxymyoglobin state and a significant contribution from zero field splitting. Moreover, saturation-transfer experiments show that NMR can observe directly oxygen binding kinetics.
Solution 1H NMR characterization of substrate-free C. diphtheriae heme oxygenase: pertinence for determining magnetic axes in paramagnetic substrate complexes.
Solution 1H NMR characterization of substrate-free C. diphtheriae heme oxygenase: pertinence for determining magnetic axes in paramagnetic substrate complexes.
Solution 1H NMR characterization of substrate-free C. diphtheriae heme oxygenase: pertinence for determining magnetic axes in paramagnetic substrate complexes.
J Inorg Biochem. 2010 Oct;104(10):1063-70
Authors: Du Z, Unno M, Matsui T, Ikeda-Saito M, La Mar GN
Proton 2D NMR was used to confirm in solution a highly conserved portion of the molecular structure upon substrate loss for the...
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[NMR paper] 1H NMR structure of the heme pocket of HNO-myoglobin.
1H NMR structure of the heme pocket of HNO-myoglobin.
Related Articles 1H NMR structure of the heme pocket of HNO-myoglobin.
J Biol Inorg Chem. 2003 Feb;8(3):348-52
Authors: Sulc F, Fleischer E, Farmer PJ, Ma D, La Mar GN
The unique (1)H NMR signal of nitrosyl hydride at 14.8 ppm is used to obtain a solution structure of the distal pocket of Mb-HNO, a rare nitroxyl adduct with a half-life of several months at room temperature. (1)H NMR, NOESY and TOCSY data were obtained under identical experimental conditions on solutions of the diamagnetic...
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[NMR paper] Two-dimensional NMR study of the heme active site structure of chloroperoxidase.
Two-dimensional NMR study of the heme active site structure of chloroperoxidase.
Related Articles Two-dimensional NMR study of the heme active site structure of chloroperoxidase.
J Biol Chem. 2003 Mar 7;278(10):7765-74
Authors: Wang X, Tachikawa H, Yi X, Manoj KM, Hager LP
The heme active site structure of chloroperoxidase (CPO), a glycoprotein that displays versatile catalytic activities isolated from the marine mold Caldariomyces fumago, has been characterized by two-dimensional NMR spectroscopic studies. All hyperfine shifted resonances...
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[NMR paper] Characterization of the three-dimensional solution structure of human profilin: 1H, 1
Characterization of the three-dimensional solution structure of human profilin: 1H, 13C, and 15N NMR assignments and global folding pattern.
Related Articles Characterization of the three-dimensional solution structure of human profilin: 1H, 13C, and 15N NMR assignments and global folding pattern.
Biochemistry. 1993 Dec 21;32(50):13818-29
Authors: Metzler WJ, Constantine KL, Friedrichs MS, Bell AJ, Ernst EG, Lavoie TB, Mueller L
Human profilin is a 15-kDa protein that plays a major role in the signaling pathway leading to cytoskeletal...
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[NMR paper] Ribosomal protein S17: characterization of the three-dimensional structure by 1H and
Ribosomal protein S17: characterization of the three-dimensional structure by 1H and 15N NMR.
Related Articles Ribosomal protein S17: characterization of the three-dimensional structure by 1H and 15N NMR.
Biochemistry. 1993 Nov 30;32(47):12812-20
Authors: Golden BL, Hoffman DW, Ramakrishnan V, White SW
The structure of ribosomal protein S17 from Bacillus stearothermophilus was investigated by two-dimensional homonuclear and heteronuclear magnetic resonance spectroscopy. The 1H and 15N chemical shift assignments are largely complete, and a...
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[NMR paper] 1H NMR resonance assignments in a paramagnetic heme protein by two-dimensional spectr
1H NMR resonance assignments in a paramagnetic heme protein by two-dimensional spectroscopy: heme resonances in equine met-azido myoglobin.
http://www.ncbi.nlm.nih.gov/corehtml/query/egifs/http:--linkinghub.elsevier.com-ihub-images-PubMedLink.gif Related Articles 1H NMR resonance assignments in a paramagnetic heme protein by two-dimensional spectroscopy: heme resonances in equine met-azido myoglobin.
Biochem Biophys Res Commun. 1991 Mar 15;175(2):515-9
Authors: Peyton DH
Specific heme protons for the majority of resonances in the downfield...
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[NMR paper] 1H NMR study of the role of heme carboxylate side chains in modulating heme pocket st
1H NMR study of the role of heme carboxylate side chains in modulating heme pocket structure and the mechanism of reconstitution of cytochrome b5.
Related Articles 1H NMR study of the role of heme carboxylate side chains in modulating heme pocket structure and the mechanism of reconstitution of cytochrome b5.
Biochemistry. 1991 Feb 19;30(7):1878-87
Authors: Lee KB, La Mar GN, Pandey RK, Rezzano IN, Mansfield KE, Smith KM
1H nuclear magnetic resonance spectroscopy was used to assign the hyperfine-shifted resonances and determine the position of...
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[NMR paper] Characterization by NMR of the heme-myoglobin adduct formed during the reductive meta
Characterization by NMR of the heme-myoglobin adduct formed during the reductive metabolism of BrCCl3. Covalent bonding of the proximal histidine to the ring I vinyl group.
Related Articles Characterization by NMR of the heme-myoglobin adduct formed during the reductive metabolism of BrCCl3. Covalent bonding of the proximal histidine to the ring I vinyl group.
J Biol Chem. 1991 Feb 15;266(5):3208-14
Authors: Osawa Y, Highet RJ, Bax A, Pohl LR
The reductive debromination of BrCCl3 by ferrous deoxymyoglobin leads to the covalent bonding of the...
Two-dimensional NMR characterization of the deoxymyoglobin heme pocket.
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