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:P06889 (Mol)
630,302 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The experimentally determined paramagnetic dipolar shifts for noncoordinated amino acid side-chain protons in the heme pocket of sperm whale cyanometmyoglobin [Emerson, S. d., & La Mar, G. N. (1990) Biochemistry (preceding paper in this issue]) were used to determine in solution the orientation of the principal axes for the paramagnetic susceptibility tensor relative to the heme iron molecular coordinates. The determination was made by a least-squares search for the unique Euler rotation angles which convert the geometric factors in the molecular (crystal) coordinates to ones that correctly predict each of 41 known dipolar shifts by using the magnetic anisotropies computed previously [Horrocks, W. D., Jr., & Greenberg, E. S. (973) Biochim. Biophys. Acta 322, 38-44]. An excellent fit to experimental shifts was obtained, which also provided predictions that allowed subsequent new assignments to be made. The magnetic axes are oriented so that the z axis is tipped approximately 15 degrees from the heme normal toward the hem delta-meso-H and coincides approximately with the characterized FeCO tilt axis in the isostructural MbCO complex [Kuriyan, J., Wilz, S., Karplus, M., & Petsko, G. A. (1986) J. Mol. Biol. 192, 133-154]. Since the FeCO and FeCN units are isostructural, we propose that the dominant protein constraints that tips the magnetic z axis from the heme normal is the tilt of the FeCN by steric interactions with the distal residues. The rhombic magnetic axes were found to align closely with the projection of the proximal His imidazole plane on the heme, confirming that the His-Fe bonding provides the protein constraints that orients the in-plane anisotrophy. The tipped magnetic z axis is shown to account quantitatively for the previously noted major discrepancy between the hyperfine shift patterns for the bound imidazole side chain in models and protein. Moreover, it is shown that the proximal His ring nolabile proton hyperfine shifts provide direct and exquisitely sensitive indicators of the degree of the z axis tilt that may serve as a valuable probe for characterizing variable steric interactions in the distal pocket of both point mutants and natural genetic variants of myoglobin.
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PMID:NMR determination of the orientation of the magnetic susceptibility tensor in cyanometmyoglobin: a new probe of steric tilt of bound ligand. 233 14

We have grown crystals in trigonal space group P3(2)21 of a mutant human myoglobin, aquomet form, in which lysine at position 45 has been replaced by arginine and cysteine at position 110 has been replaced by alanine. Suitable crystals of native recombinant human myoglobin have not been obtained. We have used the molecular replacement method to determine the X-ray crystal structure of the mutant at 2.8 A resolution. At the present stage of refinement, the crystallographic R-value for the model, with tightly restrained stereochemistry, is 0.158 for 5.0 to 2.8 A data. As expected, the overall structure is quite similar to the sperm whale myoglobin structure. Arginine 45 adopts a well-ordered conformation similar to that found in aquomet sperm whale myoglobin.
J Mol Biol 1990 May 20
PMID:X-ray crystal structure of a recombinant human myoglobin mutant at 2.8 A resolution. 234 4

The X-ray crystal structure of the fluoride derivative of Aplysia limacina ferric myoglobin has been solved and refined at 2.0 A resolution; the crystallographic R-factor is 13.6%. The fluoride ion binds to the sixth co-ordination position of the heme iron, 2.2 A from the metal. Binding of the negatively charged ligand on the distal side of the heme pocket of this myoglobin, which lacks the distal His, is associated with a network of hydrogen bonds that includes the fluoride ion, the residue Arg66 (E10), the heme propionate III, three ordered water molecules and backbone or side-chain atoms from the CD region. A comparison of fluoride and oxygen dissociation rate constants of A. limacina myoglobin, sperm whale (Physeter catodon) myoglobin and Glycera dibranchiata monomeric hemoglobin, suggests that the conformational readjustment of Arg66 (E10) in A. limacina myoglobin may represent the molecular basis for ligand stabilization, in the absence of a hydrogen-bond donor residue at the distal E7 position.
J Mol Biol 1990 Jun 20
PMID:X-ray crystal structure of the fluoride derivative of Aplysia limacina ferric myoglobin at 2.0 A resolution. Stabilization of the fluoride ion by hydrogen bonding to Arg66 (E10). 235 16

The ferric high-spin form of the myoglobin from the shark Galeorhinus japonicus, which possesses a Gln residue at the distal site instead of the usual His residue, has been studied by 1H-NMR spectroscopy. Using the heme meso-proton (C5H, C10H, C15H and C20H) resonance shift as a diagnostic probe for identifying the coordination system of the iron center in ferric high-spin form of hemoprotein, it has been shown that G. japonicus metmyoglobin (metMb) possesses the pentacoordinated active site. The pH-dependence study of NMR spectra of G. japonicus metMb revealed the appearance of the hydroxyl form of metMb at high pH, indicating that the protein undergoes the transition between the acidic and alkaline forms. The pK value and the rate for this acid-alkaline transition in G. japonicus metMb were found to be approximately 10 and much less than 4 x 10(2) s-1, respectively. Since the pK value of the acid-alkaline transition for the pentacoordinated heme in Aplysia limacina metMb is 7.8 [Giacometti, G.M., Das Ros, A., Antonini, E. & Brunori, M. (1975) Biochemistry 14, 1584-1588] and that of the hexacoordinated heme in sperm whale metMb is 9.1 [Brunori, M., Antonini, E., Fasella, P., Wyman, J. & Rossi-Fanelli, A. (1968) J. Mol. Biol. 34, 497-504], the OH- affinity of the ferric heme iron does not appear to depend on its coordination system. The acid-alkaline transition rate in A. limacina metMb was reported to be much less than 1.5 x 10(2) s-1 [Pande, U., La Mar, G.N., Lecomte, J.T.J., Ascoli, F., Brunori, M., Smith, K.M., Pandey, R.K., Parish, D.W. & Thanabal, V. (1986) Biochemistry 25, 5638-5646] and therefore a slow transition rate may be unique to the pentacoordinated active site of Mb.
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PMID:A 1H-NMR study of electronic structure of the active site of Galeorhinus japonicus metmyoglobin. 240 Dec 93

Sets of peptides representing all the possible hepta-, octa-, nona- and decapeptides of sperm whale myoglobin were synthesized. An ELISA method was used to detect the ability of antibodies, present in antisera raised against native sperm whale myoglobin, to bind to these peptides. Antisera made in two species were compared. It was found that the peptides recognized by the antibodies were a function of the species in which the antiserum was prepared and of the individual outbred member of that species. Peptides corresponding to surface epitopes of the native antigen were identified by reacting the antisera with native antigen prior to ELISA testing on peptides. More detailed analysis of one epitope revealed that, for some sera, a leucine residue which is facing inwards in the crystal structure is critical for the binding of antibody to the peptide. This suggests that binding between native antigen and antibody can require a restructuring of the native antigen.
Mol Immunol 1986 Jun
PMID:The antibody response to myoglobin--I. Systematic synthesis of myoglobin peptides reveals location and substructure of species-dependent continuous antigenic determinants. 242 38

The nature of the surface determinants on the beef myoglobin molecule which direct the distinctive antibody response of sheep, have been further defined. Antisera raised to beef myoglobin in sheep, rabbits and mice have been compared for their ability to recognize the synthetic C-terminal beef myoglobin peptide (140-153), which contains four of the six amino acid substitutions between sheep and beef myoglobins. The antibodies raised in rabbits, directed to the entire surface of beef myoglobin, contain only a minor population directed to the C-terminal sequence: in mice, even fewer antibodies are specific for this sequence. In sheep, however, antibodies to beef myoglobin appear to be directed almost exclusively to topographic domains which include the (140-153) sequence. This specificity is most apparent in "early" antisera in which all antibodies display equal avidity for "native" beef myoglobin and the peptide; further immunization produces antibodies which recognize a larger overlapping set of domains and only 20% of these antibodies have effective avidity for the (140-153) peptide. The antibodies to beef myoglobin raised in sheep comprise two discrete populations. One ("common") population is directed to regions of similarity between the beef and sheep myoglobin molecules, in which the region represented by the C-terminal peptide of beef myoglobin is less important in defining the antibody-binding site and/or affinity, while still being directly involved in the topographic determinant. The other ("non-common") appears to be directed almost exclusively to the C-terminal sequence (140-153) of beef myoglobin. The findings are discussed in relation to our previous findings on the effect of the host species on the nature of the antibody response and in relation to views on the possibility of direct vs indirect effects of evolutionary amino acid substitution on immuno-cross-reactivity among homologous proteins.
Mol Immunol 1986 Dec
PMID:Antibody response to the C-terminal peptide sequence in beef myoglobin. 243 42

The effects of amino acid substitutions within the antigenic sites, within the residues close to these sites and within other parts of the molecule on the cross-reaction with the antisera to homologous protein were considered. The method for calculus the values of cross-reactions, based on using primary structures data, X-ray coordinate of one of the homologues and the locations of the antigenic sites is proposed. The values obtained by this method for the cross-reactions of ten myoglobins from various species with antisperm-whale myoglobin sera have a good correlation with the known experimental data. The possibility of using the method to make the location of protein antigenic sites more precise is discussed.
Mol Biol (Mosk)
PMID:[A method of calculatiing immunochemical cross-reactions between homologous proteins]. 243 40

Heat capacity, intrinsic viscosity and ellipticity of a number of globular proteins (pancreatic ribonuclease A, staphylococcal nuclease, hen egg-white lysozyme, myoglobin and cytochrome c) and a fibrillar protein (collagen) in various states (native, denatured, with and without disulfide crosslinks or a heme) have been studied experimentally over a broad range of temperatures. It is shown that the partial heat capacity of denatured protein significantly exceeds the heat capacity of native protein, especially in the case of globular proteins, and is close to the value calculated for an extended polypeptide chain from the known heat capacities of individual amino acid residues. The significant residual structure that appears at room temperature in the denatured states of some globular proteins (e.g. myoglobin and lysozyme) at neutral pH results in a slight decrease of the heat capacity, probably due to partial screening of the protein non-polar groups from water. The heat capacity of the unfolded state increases asymptotically, approaching a constant value at about 100 degrees C. The temperature dependence of the heat capacity of the native state, which can be determined over a much shorter range of temperature than that of the denatured state and, correspondingly, is less certain, appears to be linear up to 80 degrees C. Therefore, the denaturational heat capacity increment seems to be temperature-dependent and is likely to decrease to zero at about 140 degrees C.
J Mol Biol 1989 Feb 20
PMID:Heat capacity and conformation of proteins in the denatured state. 253 36

Site-specific mutants of human myoglobin have been prepared in which lysine 45 is replaced by arginine (K45R) and aspartate 60 by glutamate (D60E), in order to examine the influence of these residues and their interaction on the dynamics of the protein. These proteins were studied by a variety of methods, including one and two-dimensional proton nuclear magnetic resonance spectroscopy, exchange kinetics for the distal and proximal histidine NH protons as a function of pH in the met cyano forms, flash photolysis of the CO forms, and ligand replacement kinetics. The electronic absorption and proton nuclear magnetic resonance spectra of the CO forms of these proteins are virtually identical, indicating that the structure of the heme pocket is unaltered by these mutations. There are, however, substantial changes in the dynamics of both CO binding and proton exchange for the mutant K45R, whereas the mutant D60E exhibits behavior indistinguishable from the reference human myoglobin. K45R has a faster CO bimolecular recombination rate and slower CO off-rate relative to the reference. The kinetics for CO binding are independent of pH (6.5 to 10) as well as ionic strength (0 to 1 M-NaCl). The exchange rate for the distal histidine NH is substantially lower for K45R than the reference, whereas the proximal histidine NH exchange rate is unaltered. The exchange behavior of the human proteins is similar to that reported for a comparison of the exchange rates for myoglobins having lysine at position 45 with sperm whale myoglobin, which has arginine at this position. This indicates that the differences in exchange rates reflects largely the Lys----Arg substitution. The lack of a simple correlation for the CO kinetics with this substitution means that these are sensitive to other factors as well. Specific kinetic models, whereby substitution of arginine for lysine at position 45 can affect ligand binding dynamics, are outlined. These experiments demonstrate that a relatively conservative change of a surface residue can substantially perturb ligand and proton exchange dynamics in a manner that is not readily predicted from the static structures.
J Mol Biol 1989 May 05
PMID:Ligand and proton exchange dynamics in recombinant human myoglobin mutants. 254 37

Myoglobins can be divided into two groups. One group contains the usual myoglobins that have histidine at the distal (E7) position, and the other contains a few, but interesting myoglobins that lack the usual distal histidine residue. Spectroscopic examinations have shown that there is a remarkable difference in the Soret band between the two types of myoglobin, and an absorbance ratio of the Soret peak of the acidic met-form to that of the oxy-form seems to be very useful as a simple criterion for predicting whether or not a myoglobin has the usual distal histidine residue.
J Mol Biol 1989 Oct 05
PMID:Spectral properties unique to the myoglobins lacking the usual distal histidine residue. 258 97


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