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1. Isolation and Stability of Partially Oxidized Intermediates of Carp Hemoglobin: Kinetics of CO Binding to the Mono- and Triferric Species

Author

Noble Rw, De Young A, and Laura D. Kwiatkowski

Subjects
Carps, Iron, Cyanide, Kinetics, Biochemistry, Medicinal chemistry, Ferrous, Hemoglobins, chemistry.chemical_compound, medicine, Animals, Organic chemistry, Molecule, Chromatography, High Pressure Liquid, Carbon Monoxide, Photolysis, Ligand, Valency, Chromatography, Ion Exchange, chemistry, Ferric, Hemoglobin, Oxidation-Reduction, Protein Binding, medicine.drug
Abstract

The monoliganded and triliganded forms of the asymmetric valency hybrids of carp hemoglobin were isolated using high-performance liquid chromatography. These partially oxidized hybrids were shown to be sufficiently stable to permit the measurement of the kinetics of CO binding. The effects of protons and inositol hexaphosphate on the rates of these reactions were examined. The kinetics of CO recombination with these partially oxidized derivatives were compared to the kinetics of CO binding to the fully ferrous molecule. To a first approximation, the kinetic behavior of the monoferric derivative was consistent with a small shift in the T==R equilibrium in favor of the R state. The presence of three ferric ligands resulted in a still greater shift in the conformational equilibrium in favor of the R state. The kinetic behavior of the triferric molecule was similar, but not identical, to that of a fully ferrous molecule which is triliganded with CO. The properties of both asymmetric valency hybrids were responsive to the nature of the ligand; i.e., the rate of CO binding was increased more by the presence of cyanide on the ferric hemes than by water. Not all of the data could be accommodated within the two-state model. For example, there was evidence of an altered T state in the case of the tricyanomet derivative at low pH in the presence of inositol hexaphosphate.

Published
1994
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2. Making Names

Author

Noble, RW

Subjects
Making Names (Book) -- Book reviews, Books -- Book reviews, Education
Published
1992

3. Allergenic Components of Bald-Faced Hornet (V. maculata) Venom

Author

Robert E. Reisman, Littler S, Noble Rw, Abeyounis Cj, and John I. Wypych

Subjects
Bald-faced hornet, Antigenicity, Protease, biology, medicine.medical_treatment, Immunology, Venom, General Medicine, Phospholipase, medicine.disease_cause, biology.organism_classification, Immunoglobulin E, Allergen, Hyaluronidase, medicine, biology.protein, Immunology and Allergy, medicine.drug
Abstract

Bald-faced hornet (V. maculata) venom collected by electrical stimulation was fractionated using molecular exclusion gel-filtration and ion-exchange chromatography. Four fractions were selected for indepth analysis. These were analyzed for phospholipase, hyaluronidase and protease enzyme activities, antigenicity as measured by reaction with anti-hornet venom rabbit serum, and allergenic activity, as determined by RAST reaction with sera from hornet-sensitive patients. The results of these studies suggest that the fractions containing phospholipase, hyaluronidase and protease possess allergenic activity. In addition, there appear to be other allergenic components in hornet venom. Allergic patients differ in their reactivity to the various allergenic components in hornet venom and may have IgE antibodies to one or more of these components.

Published
1985
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4. Mutations of the betaN102 residue of HbA not only inhibit the ligand-linked T to Re state transition, but also profoundly affect the properties of the T state itself.

Author

Kwiatkowski LD, Hui HL, Karasik E, Colby JE, and Noble RW

Subjects
Amino Acid Substitution, Aspartic Acid genetics, Carbon Monoxide chemistry, Glycine genetics, Hemoglobin A genetics, Humans, Kinetics, Ligands, Light, Mutation, Oxygen chemistry, Photochemistry, Phytic Acid chemistry, Protein Binding, Protein Structure, Quaternary, Protein Subunits chemistry, Hemoglobin A chemistry
Abstract

The properties of three HbA variants with different mutations at the beta102 position, betaN102Q, betaN102T, and betaN102A, have been examined. All three are inhibited in their ligand-linked transition from the low affinity T quaternary state to the high affinity Re quaternary state. In the presence of inositol hexaphosphate, IHP, none of them exhibits cooperativity in the binding of oxygen. This is consistent with the destabilization of the Re state as a result of the disruption of the hydrogen bond that normally forms between the beta102 asparagine residue and the alpha94 aspartate residue in the Re state. However, these three substitutions also alter the properties of the T state of the hemoglobin tetramer. In the presence of IHP, the first two substitutions result in large increases in the ligand affinities of the beta-subunits within the T state structure. The betaN102A variant, however, greatly reduces the pH dependencies of the affinities of the alpha and beta subunits, K1(alpha) and K1(beta), respectively, for the binding of the first oxygen molecule in the absence of IHP. In the presence of IHP, the T state of this variant is strikingly similar to that of HbA under the same conditions. For both hemoglobins, K1(alpha) and K1(beta) exhibit only small Bohr effects. In the absence of IHP, the affinities of the alpha and beta subunits of HbA for the first oxygen are increased, and both exhibit greatly increased Bohr effects. However, in contrast to the behavior of HbA, the ligand-binding properties of the T state tetramer of the betaN102A variant are little affected by the addition or removal of IHP. It appears that along with its effect on the stability of the liganded Re state, this mutation has an effect on the T state that mimics the effect of adding IHP to HbA. It inhibits the set of conformational changes, which are coupled to the K1 Bohr effects and normally accompany the binding of the first ligand to the HbA tetramer in the absence of organic phosphates.

Published
2007
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5. Intersubunit interactions associated with Tyr42 alpha stabilize the quaternary-T tetramer but are not major quaternary constraints in deoxyhemoglobin.

Author

Kavanaugh JS, Rogers PH, Arnone A, Hui HL, Wierzba A, DeYoung A, Kwiatkowski LD, Noble RW, Juszczak LJ, Peterson ES, and Friedman JM

Subjects
Carbon Monoxide metabolism, Cross-Linking Reagents metabolism, Crystallography, X-Ray, Dimerization, Globins chemistry, Globins genetics, Hemoglobins chemistry, Hemoglobins genetics, Humans, Hydrogen Bonding, Kinetics, Mutagenesis, Insertional, Oxygen metabolism, Protein Binding, Protein Structure, Quaternary genetics, Protein Subunits chemistry, Protein Subunits genetics, Solutions, Spectrum Analysis, Raman, Tyrosine genetics, Globins metabolism, Hemoglobins metabolism, Protein Subunits metabolism, Tyrosine metabolism
Abstract

Previous mutational studies on Tyr42alpha variants as well as the current studies on the mutant hemoglobin alphaY42A show that the intersubunit interactions associated with Tyr42alpha significantly stabilize the alpha1beta2 interface of the quaternary-T deoxyhemoglobin tetramer. However, crystallographic studies, UV and visible resonance Raman spectroscopy, CO combination kinetic measurements, and oxygen binding measurements on alphaY42A show that the intersubunit interactions formed by Tyr42alpha have only a modest influence on the structural properties and ligand affinity of the deoxyhemoglobin tetramer. Therefore, the alpha1beta2 interface interactions associated with Tyr42alpha do not contribute significantly to the quaternary constraints that are responsible for the low oxygen affinity of deoxyhemoglobin. The slight increase in the ligand affinity of deoxy alphaY42A correlates with small, mutation-induced structural changes that perturb the environment of Trp37beta, a critical region of the quaternary-T alpha1beta2 interface that has been shown to be the major source of quaternary constraint in deoxyhemoglobin.

Published
2005
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6. Ligand binding to symmetrical FeZn hybrids of variants of human HbA with modifications in the alpha1-beta2 interface.

Author

Hui HL, Kwiatkowski LD, Karasik E, Colby JE, and Noble RW

Subjects
Carbon Monoxide metabolism, Hemoglobin A chemistry, Humans, Kinetics, Ligands, Oxygen metabolism, Protein Binding, Hemoglobin A metabolism, Iron metabolism, Zinc metabolism
Abstract

The equilibria of oxygen binding to and kinetics of CO combination with the symmetrical iron-zinc hybrids of a series of variants of human adult hemoglobin A have been measured at pH 7 in the presence of inositol hexaphosphate (IHP). In addition, the kinetics of CO combination have also been measured in the absence of IHP. The hybrids have the heme groups of either the alpha or the beta subunits replaced by zinc protoporphyrin IX, which is unable to bind a ligand and is a good model for permanently deoxygenated heme. The variants examined involve residues located in the alpha1beta2 interface of the hemoglobin tetramer. Alterations of residues located in the hinge region of the interface are found to affect the properties of both the alpha and the beta subunits of the protein. In contrast, alterations of residues in the switch region of the interface have substantial effects only on the mutant subunit and are poorly communicated to the normal partner subunit. When the logarithms of the rate constants for the combination of the first CO molecule with a single subunit in the presence of IHP are analyzed as functions of the logarithms of the dissociation equilibrium constants for the binding of the first oxygen under the same conditions, a linear relationship is found. The relationship is somewhat different for the alpha and beta subunits, consistent with the well-known differences in the geometries of their ligand binding sites.

Published
2004
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7. Effects of heterotropic allosteric effectors on the equilibrium and kinetics of the reaction of a single ligand molecule with an alpha or beta subunit of deoxygenated HbA.

Author

Karasik E, Kwiatkowski LD, Hui HL, Colby JF, and Noble RW

Subjects
Allosteric Regulation, Hydrogen-Ion Concentration, Kinetics, Ligands, Thermodynamics, Hemoglobin A metabolism, Oxygen metabolism
Abstract

Symmetrical FeZn hybrids of human HbA have been used to measure K(1)(alpha) and K(1)(beta), the dissociation constants for the binding of a single molecule of oxygen to unliganded HbA at an alpha subunit and at a beta subunit, respectively. The kinetic constants, l(1)'(alpha) and l(1)'(beta), for the combination of the first CO molecule to unliganded HbA at an alpha or a beta subunit, respectively, were also measured. Measurements were carried out between pH 6 and pH 8 in the presence and absence of inositol hexaphosphate (IHP). Both equilibrium constants exhibit a significant Bohr effect in the absence of IHP. The addition of IHP to a concentration of 0.1 mM increases both dissociation constants in a pH-dependent manner with the result that both Bohr effects are greatly reduced. These results require a negative thermodynamic linkage between the binding of a single oxygen at either an alpha or a beta subunit and the binding of IHP to the T quaternary structure of HbA. Although the beta hemes are relatively near the IHP binding site, a linkage between that site and the alpha hemes, such that the binding of a single oxygen molecule to the heme of one alpha subunit reduces the affinity of the T state for IHP, requires communication across the molecule. l(1)'(alpha) exhibits a very slight pH dependence, with a maximum variation of 20%, while l(1)'(beta) varies with pH three times as much. IHP has no effect on the pH dependence of either rate constant but reduces l(1)'(alpha) marginally, 20%, and l(1)'(beta) by 2-fold at all pH values.

Published
2004
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8. Conformational substates of the oxyheme centers in alpha and beta subunits of hemoglobin as disclosed by EPR and ENDOR studies of cryoreduced protein.

Author

Davydov R, Kofman V, Nocek JM, Noble RW, Hui H, and Hoffman BM

Subjects
Electron Spin Resonance Spectroscopy, Hemoglobins metabolism, Humans, Myoglobin chemistry, Oxidation-Reduction, Protein Subunits metabolism, Heme chemistry, Hemoglobins chemistry, Oxygen chemistry, Protein Conformation, Protein Subunits chemistry
Abstract

Exposure of frozen solutions of oxyhemoglobin to gamma-irradiation at 77 K yields EPR- and ENDOR-active, one-electron-reduced oxyheme centers which retain the conformation of the diamagnetic precursor. EPR spectra have been collected for the centers produced in human HbO(2) and isolated alphaO(2) and betaO(2) chains, as well as alphaO(2)beta(Zn), alpha(Zn)betaO(2), and alphaO(2)beta(Fe(3+)) hybrids, each in frozen buffer and in frozen glasses that form in the presence of glycols and sugars and also in the presence of IHP. These reveal two spectroscopically distinct classes of such ferriheme centers (g(1)

Published
2004
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9. Correlation of protein functional properties in the crystal and in solution: the case study of T-state hemoglobin.

Author

Noble RW, Kwiatkowski LD, Hui HL, Bruno S, Bettati S, and Mozzarelli A

Subjects
Adult, Crystallography, X-Ray, Hemoglobins chemistry, Humans, Kinetics, Oxygen metabolism, Solutions, Structure-Activity Relationship, Hemoglobins physiology
Abstract

The relevance of three-dimensional structures of proteins, determined by X-ray crystallography, is an important issue that is becoming even more critical in light of the Structural Genomics Initiative. As a case study, a detailed comparison of functional properties of the T quaternary states of genetically or chemically modified human hemoglobins (Hbs) in solution and in the crystal was performed. Oxygen affinities of Hbs in crystals correlate with the rate constants of their initial combination with carbon monoxide (CO) in solution, indicating that changes in ligand affinity caused by the modifications are similarly observed in both physical states.

Published
2002
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10. Mutational effects at the subunit interfaces of human hemoglobin: evidence for a unique sensitivity of the T quaternary state to changes in the hinge region of the alpha 1 beta 2 interface.

Author

Noble RW, Hui HL, Kwiatkowski LD, Paily P, DeYoung A, Wierzba A, Colby JE, Bruno S, and Mozzarelli A

Subjects
Amino Acid Substitution, Carbon Monoxide metabolism, Dimerization, Globins chemistry, Globins genetics, Globins metabolism, Hemoglobin A chemistry, Hemoglobin A genetics, Hemoglobin A metabolism, Hemoglobins metabolism, Humans, In Vitro Techniques, Iron chemistry, Kinetics, Models, Molecular, Mutagenesis, Site-Directed, Oxygen metabolism, Protein Structure, Quaternary, Protein Subunits, Protoporphyrins chemistry, Recombinant Proteins chemistry, Recombinant Proteins genetics, Recombinant Proteins metabolism, Zinc chemistry, Hemoglobins chemistry, Hemoglobins genetics, Mutation
Abstract

A set of variant human hemoglobins, each with an Ala or Gly substitution at a single residue, has been prepared, and the kinetics of their reactions with carbon monoxide have been measured. This reaction is rate-limited by the binding of the first CO to the deoxygenated T state of the protein. The magnitudes of the effects of the mutations on CO combination vary widely, and, with the exception of beta Y145, the residues with the most significant effects on these kinetics are found in the hinge region of the alpha 1 beta 2 interface. Mixed-metal hybrids, with zinc protoporphyrin IX in place of heme on both alpha or both beta subunits, were prepared for beta W37E, beta W37A, alpha Y140G, and alpha Y140A, hinge region variants causing large kinetic changes, and for beta Y145G. Such hybrids permit measurements of the kinetics of CO binding to only the heme-containing alpha or beta subunits within the unliganded hemoglobin tetramer. Mutations at beta 37 and alpha 140 have global effects on the T state, increasing the rates of CO binding to both types of subunits. Mutation of beta Y145 has a large effect on the beta subunits in the deoxygenated T state, but very little effect on the alpha subunits. Oxygen equilibria measurements on the crystalline T state of beta W37E also indicate large affinity increases in both subunits of this variant. The overall oxygen equilibria of the variant hemoglobins in solution are sensitive to numerous variables besides the properties of the deoxygenated T state. In contrast to CO combination kinetics, the residues whose alterations cause the largest changes in overall oxygen equilibria in solution are scattered seemingly randomly within the alpha 1 beta 2 interface.

Published
2001
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11. Site-directed mutations of human hemoglobin at residue 35beta: a residue at the intersection of the alpha1beta1, alpha1beta2, and alpha1alpha2 interfaces.

Author

Kavanaugh JS, Weydert JA, Rogers PH, Arnone A, Hui HL, Wierzba AM, Kwiatkowski LD, Paily P, Noble RW, Bruno S, and Mozzarelli A

Subjects
Binding Sites, Carbon Monoxide metabolism, Crystallography, X-Ray, Hemoglobins genetics, Humans, Kinetics, Models, Molecular, Mutation, Oxygen metabolism, Photolysis, Protein Structure, Quaternary, Protein Subunits, Thermodynamics, Tyrosine genetics, Tyrosine metabolism, Amino Acid Substitution, Hemoglobins chemistry, Hemoglobins metabolism, Mutagenesis, Site-Directed
Abstract

Because Tyr35beta is located at the convergence of the alpha1beta1, alpha1beta2, and alpha1alpha2 interfaces in deoxyhemoglobin, it can be argued that mutations at this position may result in large changes in the functional properties of hemoglobin. However, only small mutation-induced changes in functional and structural properties are found for the recombinant hemoglobins betaY35F and betaY35A. Oxygen equilibrium-binding studies in solution, which measure the overall oxygen affinity (the p50) and the overall cooperativity (the Hill coefficient) of a hemoglobin solution, show that removing the phenolic hydroxyl group of Tyr35beta results in small decreases in oxygen affinity and cooperativity. In contrast, removing the entire phenolic ring results in a fourfold increase in oxygen affinity and no significant change in cooperativity. The kinetics of carbon monoxide (CO) combination in solution and the oxygen-binding properties of these variants in deoxy crystals, which measure the oxygen affinity and cooperativity of just the T quaternary structure, show that the ligand affinity of the T quaternary structure decreases in betaY35F and increases in betaY35A. The kinetics of CO rebinding following flash photolysis, which provides a measure of the dissociation of the liganded hemoglobin tetramer, indicates that the stability of the liganded hemoglobin tetramer is not altered in betaY35F or betaY35A. X-ray crystal structures of deoxy betaY35F and betaY35A are highly isomorphous with the structure of wild-type deoxyhemoglobin. The betaY35F mutation repositions the carboxyl group of Asp126alpha1 so that it may form a more favorable interaction with the guanidinium group of Arg141alpha2. The betaY35A mutation results in increased mobility of the Arg141alpha side chain, implying that the interactions between Asp126alpha1 and Arg141alpha2 are weakened. Therefore, the changes in the functional properties of these 35beta mutants appear to correlate with subtle structural differences at the C terminus of the alpha-subunit.

Published
2001
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12. Determination of the hemoglobin surface domains that react with cytochrome b5.

Author

Naito NR, Hui HL, Noble RW, and Hoffman BM

Subjects
Animals, Binding Sites, Cattle, Deuteroporphyrins chemistry, Dimerization, Electron Transport, Esterification, Ferric Compounds chemistry, Humans, Metalloporphyrins chemistry, Photolysis, Protein Structure, Tertiary, Titrimetry, Zinc chemistry, Cytochromes b5 chemistry, Hemoglobins chemistry, Membrane Proteins chemistry
Abstract

We have compared the photoinitiated electron-transfer (ET) reaction between cytochrome b(5) (b(5)) and zinc mesoporphyrin-substituted hemoglobin [(ZnM)Hb] and Hb variants in order to determine whether b(5) binds to the subunit surface of either or both Hb chains, or to sites which span the dimer--dimer interface. Because the dimer--dimer interface would be disrupted for monomers or alpha beta dimers, we studied the reaction of b(5) with alpha ZnM chains and (ZnM)Hb beta W37E, which exists as alpha beta dimers in solution. Triplet quenching titrations of the ZnHb proteins with Fe(3+)b(5) show that the binding affinity and ET rate constants for the alpha-chains are the same when they are incorporated into a Hb tetramer or dimer, or exist as monomers. Likewise, the parameters for beta-chains in tetramers and dimers differ minimally. In parallel, we have modified the surface of the Hb chains by neutralizing the heme propionates through the preparation of zinc deuterioporphyrin dimethyl ester hemoglobin, (ZnD-DME)Hb. The charge neutralization increases the ET rate constants 100-fold for the alpha-chains and 40-fold for the beta-chains (but has has little effect on the affinity of either chain type for b(5), similar to earlier results for myoglobin). Together, these results indicate that b(5) binds to sites at the subunit surface of each chain rather than to sites which span the dimer-dimer interface. The charge-neutralization results further suggest that b(5) binds over a broad area of the subunit face, but reacts only in a minority population of binding geometries.

Published
2001
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13. Structural and functional properties of human hemoglobins reassembled after synthesis in Escherichia coli.

Author

Hui HL, Kavanaugh JS, Doyle ML, Wierzba A, Rogers PH, Arnone A, Holt JM, Ackers GK, and Noble RW

Subjects
Chemical Fractionation, Chromatography, High Pressure Liquid, Crystallization, Crystallography, X-Ray, Hemoglobin A chemistry, Hemoglobin M chemistry, Hemoglobins genetics, Humans, Methionine genetics, Models, Molecular, Peptide Fragments chemistry, Recombinant Proteins isolation & purification, Valine genetics, Escherichia coli genetics, Hemoglobins chemistry, Hemoglobins metabolism, Recombinant Proteins biosynthesis, Recombinant Proteins chemistry
Abstract

Human hemoglobin produced in the Escherichia coli coexpression system of Hernan et al. [(1992) Biochemistry 31, 8619-8628] has been transformed into a functionally homogeneous protein whose properties closely approximate those of normal hemoglobin A. Both of the alpha and beta chains of this hemoglobin contain a valine-methionine substitution at position 1 in order to accommodate the difference in specificity of the protein-processing enzymes of procaryotes. Despite extensive purification, functional homogeneity of the E. coli expressed hemoglobin was achieved only by the complete disassembly of the hemoglobin into its component alpha and beta globins and their reassembly in the presence of hemin. The kinetics of CO combination and the thermodynamics of O2 binding and cooperativity of the reassembled alphaV1M-betaV1M hemoglobin closely approximate those of HbA. The alpha globin obtained from the E. coli expressed hemoglobin was also combined with normal human beta chains and hemin to form the alphaV1M variant. The alpha+M variant of HbA, in which the normal N-terminal valine of the alpha chains is preceded by a methionine residue, was prepared by the same procedure. The kinetics of the reactions of CO with the alphaV1M and alpha+M variants are similar to those for HbA. The equilibria of oxygen binding to alphaV1M and HbA are similar whereas alpha+M exhibits a significantly higher oxygen affinity. The three-dimensional structures of alphaV1M and alpha+M offer an explanation for the latter affinity difference. Although the structures of alphaV1M and HbA, which have been determined by X-ray crystallography, are virtually indistinguishable except at the N-terminal residues, that of alpha+M indicates the displacement of a solvent molecule, possibly a chloride ion, from arginine 141alpha. Such an alteration in an anion binding site could result in increased oxygen affinity.

Published
1999
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14. Thermodynamic studies on the equilibrium properties of a series of recombinant betaW37 hemoglobin mutants.

Author

Kiger L, Klinger AL, Kwiatkowski LD, De Young A, Doyle ML, Holt JM, Noble RW, and Ackers GK

Subjects
Amino Acid Substitution, Chromatography, Gel, Cross-Linking Reagents chemistry, Hemoglobin A chemistry, Hemoglobin A genetics, Humans, Mutation, Phytic Acid metabolism, Protein Binding, Protein Conformation, Recombinant Proteins chemistry, Recombinant Proteins genetics, Recombinant Proteins metabolism, Thermodynamics, Tryptophan genetics, Hemoglobin A metabolism, Oxygen metabolism
Abstract

In human hemoglobin (Hb) the beta37 tryptophan residue (betaW37), located at the hinge region of the alpha1beta2 interface, forms many contacts with alpha subunit residues of the opposite dimer, in both the T and R quaternary structures. We have carried out equilibrium O2 binding studies on a series of recombinant Hbs that have mutations at this residue site: betaW37Y, betaW37A, betaW37G, and betaW37E. Binding isotherms measured at high concentrations of these mutants were found to be shifted toward increased affinity and decreased cooperativity from that of the normal HbA0 tetramer. Analysis of these binding isotherms indicated that amino acid substitutions at the beta37 position could both destabilize the tetrameric form of the mutants relative to their constituent dimers and also alter cooperativity of the intact tetrameric species. These alterations from wild-type function are dependent on the particular side chain substituted, with the magnitude of change increasing as Trp is substituted by Tyr, Ala, Gly, and Glu. The dimer to tetramer assembly free energy of deoxy-betaW37E, the most perturbed mutant in the series, was measured using analytical gel chromatography to be 9 kcal/tetramer less favorable than that of deoxy HbA0. Stabilizing the betaW37E tetramer by addition of IHP, or by cross-linking at the alphaK99 positions, does not restore normal O2 binding behavior. Thermodynamic parameters of all the mutants were found to correlate with their CO binding rates and with their high-resolution X-ray crystal structures (see accompanying papers: Kwiatkowski et al. (1998) Biochemistry 37, 4325-4335; Peterson & Friedman (1998) Biochemistry 37, 4346-4357; Kavanaugh et al. (1998) Biochemistry 37, 4358-4373].

Published
1998
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15. Preparation and kinetic characterization of a series of betaW37 variants of human hemoglobin A: evidence for high-affinity T quaternary structures.

Author

Kwiatkowski LD, Hui HL, Wierzba A, Noble RW, Walder RY, Peterson ES, Sligar SG, and Sanders KE

Subjects
Amino Acid Substitution, Carbon Monoxide metabolism, Carbon Monoxide radiation effects, Cross-Linking Reagents chemistry, Escherichia coli metabolism, Globins biosynthesis, Globins chemistry, Globins genetics, Globins metabolism, Hemoglobin A biosynthesis, Hemoglobin A chemistry, Hemoglobin A genetics, Humans, Hydrogen-Ion Concentration, Kinetics, Mass Spectrometry, Mutation, Photolysis, Phytic Acid metabolism, Protein Binding, Recombinant Proteins biosynthesis, Recombinant Proteins chemistry, Recombinant Proteins genetics, Recombinant Proteins metabolism, Tryptophan genetics, Hemoglobin A metabolism, Protein Conformation
Abstract

Four variants of human beta globin in which the Trp at position 37 has been replaced with a Tyr, Ala, Gly, or Glu have been expressed in Escherichia coli. These globins have been combined with normal human alpha chains and heme to form tetrameric hemoglobin molecules. A technique for the preparation of alpha chain dimers, which are cross-linked between their alpha99 lysine residues, has been developed, and these alpha dimers were combined with two of the beta globins, betaW37G and betaW37E, to form the corresponding cross-linked variants. The kinetics of CO binding to the deoxygenated derivatives following rapid mixing and of CO rebinding following flash photolysis have been examined as functions of pH in the presence and absence of the organic phosphate inositol hexaphosphate, IHP. The kinetic measurements indicate that replacement of the tryptophan with other residues destabilizes the hemoglobin tetramer, resulting in considerable dissociation of even the deoxygenated hemoglobins into alphabeta dimers at micromolar protein concentrations. Substitutions at beta37 also alter the properties of the deoxygenated hemoglobin tetramer. The alteration of the functional properties of the T states of these variants as well as the tendency of the deoxygenated derivatives to dissociate into alphabeta dimers increases in the order HbA < betaW37Y < betaW37A < betaW37G < betaW37E. Stabilizing the betaW37G or betaW37E tetramers by addition of IHP or by cross-linking does not restore the normal functional properties of the T state. Measurements of the geminate rebinding of CO establish a kinetic difference between the normal R state tetramer and the alphabeta dimer consistent with quaternary enhancement, the greater affinity of oxygen for the R state tetramer than for the alphabeta dimer. Kinetics of geminate rebinding also suggest that quaternary enhancement may be altered by substitutions at the beta37 position.

Published
1998
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16. Structure and oxygen affinity of crystalline des-his-146beta human hemoglobin in the T state.

Author

Bettati S, Kwiatkowski LD, Kavanaugh JS, Mozzarelli A, Arnone A, Rossi GL, and Noble RW

Subjects
Computer Simulation, Crystallography, X-Ray, Hemoglobin A metabolism, Humans, Kinetics, Models, Molecular, Molecular Sequence Data, Protein Conformation, Hemoglobin A chemistry, Oxygen metabolism
Abstract

To correlate directly structure with function, the oxygen affinity and the three-dimensional structure of crystals of the T quaternary state of des-His-146beta human hemoglobin have been determined by polarized absorption microspectrophotometry and x-ray diffraction crystallography. In des-His-146beta, the COOH-terminal histidine residues of the beta chains of hemoglobin A have been removed. Oxygen binding to crystalline des-His hemoglobin is non-cooperative and independent of pH. The oxygen affinity is 1.7-fold greater than that of the crystalline state of hemoglobin A. Removal of His-146beta results in a small movement of the truncated COOH-terminal peptide and in a very small change in quaternary structure. Previously, similar studies on T state crystals of des-Arg-141alpha hemoglobin showed that removal of the COOH termini of the alpha chains results in much larger effects on oxygen affinity and on quaternary structure. Kinetic studies in solution reveal that at pH 7.0, the rates of CO combination with deoxygenated des-His-146beta in the absence and presence of inositol hexaphosphate are 2.5- and 1.3-fold, respectively, more rapid than for hemoglobin A. The values for des-Arg are 7.6- and 3.9-fold. The properties of the T state of hemoglobin both in the crystal and in solution are influenced to a greater degree by the interactions associated with Arg-141alpha than those associated with His-146beta.

Published
1997
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18. Structure and oxygen affinity of crystalline desArg141 alpha human hemoglobin A in the T state.

Author

Kavanaugh JS, Chafin DR, Arnone A, Mozzarelli A, Rivetti C, Rossi GL, Kwiatkowski LD, and Noble RW

Subjects
Crystallography, X-Ray, Humans, Molecular Sequence Data, Osmolar Concentration, Sodium Chloride pharmacology, Structure-Activity Relationship, Thermodynamics, Arginine, Hemoglobin A chemistry, Oxyhemoglobins chemistry, Protein Conformation
Abstract

The correlation of a protein structure determined crystallographically to its functional properties determined in solution can be an extremely complex problem due to potential differences of protein conformational flexibility in the two physical states. A more direct approach to the correlation of structure with function is to examine both the structure and the function of a protein in the same crystalline environment. In this paper, the structural and functional properties of T state desArg hemoglobin (human hemoglobin modified by removal of the alpha-chain COOH-terminal residue, Arg141 alpha) have been studied in the same crystal form by high resolution X-ray diffraction methods and by polarized absorption microspectrophotometry. Specifically, the crystal structure of deoxygenated desArg human hemoglobin has been refined at a 2.1 A resolution using crystals grown at low salt concentration from solutions of polyethylene glycol. The loss of Arg141 alpha and all of the salt bridges in which it participates is associated with subtle structural perturbations of the alpha-chains which include an increase in the conformational flexibility of both the NH2 and COOH-terminal peptides. Although the heme pockets appear unchanged and even the side-chain of Tyr140 is oriented nearly as in HbA, the functional characterization by microspectrophotometric measurements indicates that crystals of desArg hemoglobin bind oxygen with an affinity which is roughly 15-fold greater than that of crystals of human hemoglobin A. There is no alkaline Bohr effect or effect of chloride ions, but an acid Bohr effect is observed. The oxygen affinities measured along two principal axes of the crystals differ by 25%, indicating heterogeneity in the affinities of the oxygen binding sites. This finding and the measured Hill coefficient of unity suggest significant cooperativity in the binding of oxygen in these crystals. The origins of the observed heterogeneity and the implied cooperativity are unknown.

Published
1995
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19. Isolation and stability of partially oxidized intermediates of carp hemoglobin: kinetics of CO binding to the mono- and triferric species.

Author

Kwiatkowski LD, De Young A, and Noble RW

Subjects
Animals, Chromatography, High Pressure Liquid, Chromatography, Ion Exchange, Hemoglobins chemistry, Hemoglobins isolation & purification, Iron blood, Kinetics, Oxidation-Reduction, Photolysis, Protein Binding, Carbon Monoxide blood, Carps blood, Hemoglobins metabolism
Abstract

The monoliganded and triliganded forms of the asymmetric valency hybrids of carp hemoglobin were isolated using high-performance liquid chromatography. These partially oxidized hybrids were shown to be sufficiently stable to permit the measurement of the kinetics of CO binding. The effects of protons and inositol hexaphosphate on the rates of these reactions were examined. The kinetics of CO recombination with these partially oxidized derivatives were compared to the kinetics of CO binding to the fully ferrous molecule. To a first approximation, the kinetic behavior of the monoferric derivative was consistent with a small shift in the T<==>R equilibrium in favor of the R state. The presence of three ferric ligands resulted in a still greater shift in the conformational equilibrium in favor of the R state. The kinetic behavior of the triferric molecule was similar, but not identical, to that of a fully ferrous molecule which is triliganded with CO. The properties of both asymmetric valency hybrids were responsive to the nature of the ligand; i.e., the rate of CO binding was increased more by the presence of cyanide on the ferric hemes than by water. Not all of the data could be accommodated within the two-state model. For example, there was evidence of an altered T state in the case of the tricyanomet derivative at low pH in the presence of inositol hexaphosphate.

Published
1994
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20. Chloride acts as a novel negative heterotropic effector of hemoglobin Rothschild (beta 37 Trp-->Arg) in solution.

Author

Kelly RM, Hui HL, and Noble RW

Subjects
Binding Sites, Carbon Monoxide metabolism, Chlorides chemistry, Hemoglobins, Abnormal chemistry, Humans, Kinetics, Osmolar Concentration, Solutions, Chlorides metabolism, Hemoglobins, Abnormal metabolism
Abstract

The effects of chloride ion concentration on the rate constants for association of carbon monoxide with human hemoglobin A and a synthetic form of the mutant hemoglobin Rothschild (beta 37 Trp-->Arg) have been investigated by stopped-flow techniques. Previous studies of the structure [Kavanaugh et al. (1992) Biochemistry 31, 4111] and functional properties [Rivetti et al. (1993) Biochemistry 32, 2888] of hemoglobin Rothschild crystallized in the T state have demonstrated that the mutant arginine residues create new chloride ion binding sites and that chloride ions act to lower the oxygen affinity of hemoglobin Rothschild in these crystals. The studies reported here demonstrate a parallel effect of chloride ions on the rate of CO association with deoxygenated hemoglobin Rothschild in solution. Although the kinetics of CO binding to this hemoglobin in solution exhibit a Bohr effect, the chloride effect is independent of pH. In addition, we find that other halide ions have similar effects on the rate constants for the association of CO with this hemoglobin variant.

Published
1994
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21. Fish hemoglobins.

Author

De Young A, Kwiatkowski LD, and Noble RW

Subjects
Animals, Binding Sites, Chromatography, High Pressure Liquid, Chromatography, Ion Exchange, Electrophoresis, Polyacrylamide Gel, Globins isolation & purification, Hemoglobins chemistry, Hemoglobins metabolism, Hemolysis, Hydrogen-Ion Concentration, Iron isolation & purification, Ligands, Molecular Structure, Organophosphates isolation & purification, Protein Conformation, Spectrophotometry, Fishes blood, Hemoglobins isolation & purification
Published
1994
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22. The effect of 75% glycerol on the oxygen binding properties of carp hemoglobin.

Author

Kwiatkowski LD and Noble RW

Subjects
Allosteric Regulation, Animals, Glycerol pharmacology, Hemoglobins drug effects, Ligands, Phytic Acid metabolism, Water pharmacology, Carps metabolism, Hemoglobins metabolism, Oxygen metabolism
Abstract

At pH 6 in the presence of inositol hexaphosphate, IHP, conditions where ligand-saturated carp hemoglobin is already in the low affinity T state, the addition of glycerol has little effect on affinity and ligand binding remains noncooperative. At all other pH values examined, with and without IHP, the effect of glycerol is to lower oxygen affinity possibly by shifting the equilibrium between the T state and the high affinity R state in the direction of the T state. Although glycerol does not appear to have an appreciable effect on the T state itself, a small effect on the R state cannot be excluded by our data.

Published
1993
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23. Effect of chloride on oxygen binding to crystals of hemoglobin Rothschild (beta 37 Trp-->Arg) in the T quaternary structure.

Author

Rivetti C, Mozzarelli A, Rossi GL, Kwiatkowski LD, Wierzba AM, and Noble RW

Subjects
Amino Acid Sequence, Humans, Kinetics, Macromolecular Substances, Mathematics, Oxyhemoglobins chemistry, Spectrophotometry methods, Arginine, Hemoglobins, Abnormal chemistry, Hemoglobins, Abnormal metabolism, Oxyhemoglobins metabolism, Protein Conformation, Tryptophan
Abstract

Oxygen binding to crystals of hemoglobin Rothschild (beta 37 Trp-->Arg) in the T quaternary structure has been investigated by polarized absorption microspectrophotometry. These crystals were grown from poly(ethylene glycol) solutions containing low concentrations of salt. In the absence of chloride, they have a significantly higher oxygen affinity than crystals of human hemoglobin A grown in a similar manner, and exhibit Hill coefficients lower than 1. There is no Bohr effect from pH 6 to 9. We have found that chloride decreases the oxygen affinity of Hb Rothschild crystals, an effect which is absent in crystals of HbA. This dependence of affinity on chloride is almost certainly associated with the chloride binding sites which have been localized crystallographically at the mutant arginine residues (Kavanaugh et al., 1992). Since chloride binding appears to lower the oxygen affinities of both the alpha and beta chains, the linkage between the binding of oxygen and the dissociation of chloride results in significant cooperativity in oxygen binding to the crystals.

Published
1993
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24. Functional properties of human hemoglobins synthesized from recombinant mutant beta-globins.

Author

Doyle ML, Lew G, De Young A, Kwiatkowski L, Wierzba A, Noble RW, and Ackers GK

Subjects
Allosteric Regulation, Carbon Monoxide metabolism, Energy Metabolism, Globins biosynthesis, Globins metabolism, Hemoglobins genetics, Humans, Hydrogen-Ion Concentration, Macromolecular Substances, Models, Chemical, Mutation, Oxygen metabolism, Phosphates metabolism, Protein Conformation, Recombinant Proteins biosynthesis, Recombinant Proteins metabolism, Hemoglobins metabolism
Abstract

The previous and following articles in this issue describe the recombinant synthesis of three mutant beta-globins (beta 1 Val----Ala, beta 1 Val----Met, and the addition mutation beta 1 + Met), their assembly with heme and natural alpha chains into alpha 2 beta 2 tetramers, and their X-ray crystallographic structures. Here we have measured the equilibrium and kinetic allosteric properties of these hemoglobins. Our objective has been to evaluate their utility as surrogates of normal hemoglobin from which further mutants can be made for structure-function studies. The thermodynamic linkages between cooperative oxygenation and dimer-tetramer assembly were determined from global regression analysis of multiple oxygenation isotherms measured over a range of hemoglobin concentration. Oxygen binding to the tetramers was found to be highly cooperative (maximum Hill slopes from 3.1 to 3.2), and similar patterns of O2-linked subunit assembly free energies indicated a common mode of cooperative switching at the alpha 1 beta 2 interface. The dimers were found to exhibit the same noncooperative O2 equilibrium binding properties as normal hemoglobin. The most obvious difference in oxygen equilibria between the mutant recombinant and normal hemoglobins was a slightly lowered O2 affinity. The kinetics of CO binding and O2 dissociation were measured by stopped-flow and flash photolysis techniques. Parallel studies were carried out with the mutant and normal hemoglobins in the presence and absence of organic phosphates to assess their allosteric response to phosphates. In the absence of organic phosphates, the CO-binding and O2 dissociation kinetic properties of the mutant dimers and tetramers were found to be nearly identical to those of normal hemoglobin. However, the effects of organic phosphates on CO-binding kinetic properties of the mutants were not uniform: the beta 1 + Met mutant was found to deviate somewhat from normalcy, while the beta 1 Val----Met mutant reproduced the native allosteric response. Further characterization of the allosteric properties of the beta 1 Val----Met mutant was made by measuring the pH dependence of its overall oxygen affinity by tonometry. Regulation of oxygen affinity by protons was found to be nearly identical to normal hemoglobin from pH 5.8 to 9.3 (0.52 +/- 0.07 protons released per oxygen bound at pH 7.4). The present study demonstrates that the equilibrium and kinetic functional properties of the recombinant beta 1 Val----Met mutant mimic reasonably well those of normal hemoglobin. We conclude that this mutant is well-suited to serve as a surrogate system of normal hemoglobin in the production of mutants for structure-function studies.

Published
1992
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25. Human hemoglobin expression in Escherichia coli: importance of optimal codon usage.

Author

Hernan RA, Hui HL, Andracki ME, Noble RW, Sligar SG, Walder JA, and Walder RY

Subjects
Amino Acid Sequence, Base Sequence, Codon genetics, Escherichia coli genetics, Genes, Synthetic, Globins biosynthesis, Globins genetics, Hemoglobins biosynthesis, Humans, Molecular Sequence Data, Mutagenesis, Operon, Promoter Regions, Genetic genetics, Protein Engineering methods, Protein Processing, Post-Translational, Recombinant Proteins biosynthesis, Recombinant Proteins genetics, T-Phages genetics, Hemoglobins genetics
Abstract

The overexpression of a nonfusion product of human beta-globin in Escherichia coli from its cDNA sequence has been accomplished for the first time. Expression of beta-globin from its native cDNA required the use of the strong bacteriophage T7 promoter. In this system, beta-globin accumulated to approximately 10% of total E. coli proteins. alpha-Globin was not expressed in the T7 system using the native cDNA. For the expression of alpha-globin, synthetic genes containing optimal E. coli codons were constructed. Neither synthetic alpha- nor beta-globin gene alone was expressed from the lac or tac promoter. Globin expression was achieved when the two synthetic alpha- and beta-globin genes were combined as an operon downstream of the lac promoter. The two proteins combined intracellularly with endogenous heme, which was concomitantly overproduced to yield tetrameric hemoglobin as roughly 5-10% of total E. coli protein. Cloning the alpha- and beta-globin cDNAs in a construct identical with the lac promoter did not yield globin production, establishing the requirement for optimal codon usage. The recombinant beta-globin from the T7 expression system was purified and reconstituted in vitro with heme and native alpha chains. N-terminal analyses showed that the beta-globin produced in the T7 system and the tetrameric hemoglobin produced from the synthetic genes contained an additional beta 1 methionine residue. Two additional mutants, beta 1 Val----Met and beta 1 Val----Ala were produced using the T7 system. Functional and structural properties of the purified hemoglobins will be discussed in the following papers.

Published
1992
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26. Isolation and characterization of the triply oxidized derivative of a cross-linked hemoglobin.

Author

Fowler SA, Walder J, DeYoung A, Kwiatkowski LD, and Noble RW

Subjects
Aspirin analogs & derivatives, Aspirin pharmacology, Carbon Dioxide blood, Cross-Linking Reagents pharmacology, Cyanides blood, Humans, Isoelectric Focusing, Kinetics, Macromolecular Substances, Oxyhemoglobins metabolism, Phytic Acid blood, Hemoglobin A metabolism
Abstract

Hemoglobin A, cross-linked between Lys 99 alpha 1 and Lys 99 alpha 2, was used to obtain a partially oxidized tetramer in which only one of the four hemes remains reduced. Because of the absence of dimerization, asymmetric, partially oxidized derivatives are stable. This is evidenced by the fact that eight of the ten possible oxidation states could be resolved by analytical isoelectric focusing. A triply oxidized hemoglobin population HbXL+3 was isolated whose predominant component was (alpha + alpha +, beta + beta 0). This triferric preparation was examined as a possible model for the triliganded state of ferrous HbA. The aquomet and cyanomet derivatives were characterized by their CD spectra and their kinetic reactions with carbon monoxide. CD spectra in the region of 287 nm showed no apparent change in quaternary structure upon binding ligand to the fourth, ferrous heme. The spectra of the oxy and deoxy forms of the cyanomet and aquomet derivatives of HbXL+3 differed insignificantly and were characteristic of the normal liganded state. Upon addition of inositol hexaphosphate (IHP), both the oxy and deoxy derivatives of the high-spin triaquomet species converted to the native deoxy conformation. In contrast, IHP had no such effect on the conformation of the low-spin cyanomet derivatives of HbXL+3. The kinetics of CO combination as measured by stopped-flow and flash photolysis techniques present a more complex picture. In the presence of IHP the triaquomet derivative does bind CO with rate constants indicative of the T state whether these are measured by the stopped-flow technique or by flash photolysis.(ABSTRACT TRUNCATED AT 250 WORDS)

Published
1992
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27. A possible new control mechanism suggested by resonance Raman spectra from a deep ocean fish hemoglobin.

Author

Friedman JM, Campbell BF, and Noble RW

Subjects
Animals, Hemoglobins chemistry, Histidine, Hydrogen-Ion Concentration, Models, Theoretical, Oxyhemoglobins metabolism, Photochemistry, Protein Conformation, Spectrum Analysis, Raman methods, Fishes blood, Hemoglobins metabolism
Abstract

The rattail fish, Coryphaenoides armatus, lives at ocean depths of 3000 m. As an adaptation for pumping oxygen into the swim bladder against the extreme pressures at the ocean bottom, the hemoglobin from this fish at low pH exhibits an extraordinarily low affinity for ligands. In this study, continuous wave and time-resolved Raman techniques are used to probe the binding site in this hemoglobin. The findings show an association between the low-affinity material and a highly strained heme-proximal histidine linkage. The transient Raman studies reveal differences in the protein structural dynamics at pH 6 and 8. The emerging picture derived from both this and earlier studies is that in vertebrate hemoglobins the heme-proximal histidine linkage represents a key channel through which species- and solution-dependent variations in the globin are communicated both statically and dynamically to the heme to produce an extensive range of ligand binding properties. Also presented is a new model that relates both intensity and frequency of the resonance Raman band involving the iron-proximal histidine stretching mode to specific protein controlled structural degrees of freedom. There emerges from this model a mechanism whereby modifications in the proximal heme pocket can further reduce the affinity of an already highly strained T state structure of hemoglobin.

Published
1990
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28. Studies on the linkage between spin equilibria and protein structure in carp ferric hemoglobin.

Author

Noble RW, De Young A, Vitale S, Morante S, and Cerdonio M

Subjects
Animals, Carps, Electron Spin Resonance Spectroscopy, Energy Transfer, Humans, Hydrogen-Ion Concentration, Methemoglobin analysis, Phytic Acid, Protein Conformation, Temperature, Ferric Compounds analysis, Hemoglobins analysis
Abstract

The effects of protein conformation on the spin-state equilibria of several derivatives of carp hemoglobin have been examined. This has been done by measuring the pH dependence of the paramagnetic susceptibilities of these derivatives in the presence and absence of inositol hexakisphosphate, P6-inositol. In all cases the addition of P6-inositol at low pH and the lowering of the pH in the presence of P6-inositol shift the spin-state equilibrium in favor of the high-spin electronic configuration. The P6-inositol and pH dependence of these magnetic properties parallels the pH and P6-inositol dependence of the conformational state of the hemoglobin as determined in earlier studies and further supports a thermodynamic linkage between the electronic state of the iron atoms and the quaternary structure of the hemoglobin molecule.

Published
1987
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29. Allergenic components of bald-faced hornet (V. maculata) venom.

Author

Littler S, Wypych JI, Noble RW, Abeyounis CJ, and Reisman RE

Subjects
Allergens immunology, Arthropod Venoms analysis, Chemical Fractionation, Chromatography, Ion Exchange, Humans, Hyaluronoglucosaminidase metabolism, Hyaluronoglucosaminidase pharmacology, Immunoelectrophoresis, Peptide Hydrolases metabolism, Peptide Hydrolases pharmacology, Phospholipases metabolism, Phospholipases pharmacology, Precipitins immunology, Radioallergosorbent Test, Wasps, Allergens analysis, Arthropod Venoms immunology
Abstract

Bald-faced hornet (V. maculata) venom collected by electrical stimulation was fractionated using molecular exclusion gel-filtration and ion-exchange chromatography. Four fractions were selected for in-depth analysis. These were analyzed for phospholipase, hyaluronidase and protease enzyme activities, antigenicity as measured by reaction with anti-hornet venom rabbit serum, and allergenic activity, as determined by RAST reaction with sera from hornet-sensitive patients. The results of these studies suggest that the fractions containing phospholipase, hyaluronidase and protease possess allergenic activity. In addition, there appear to be other allergenic components in hornet venom. Allergic patients differ in their reactivity to the various allergenic components in hornet venom and may have IgE antibodies to one or more of these components.

Published
1985
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30. Kinetic studies on the binding affinity of human hemoglobin for the 4th carbon monoxide molecule, L4.

Author

DeYoung A, Pennelly RR, Tan-Wilson AL, and Noble RW

Subjects
Binding Sites, Diphosphoglyceric Acids blood, Fetal Hemoglobin, Humans, Hydrogen-Ion Concentration, Kinetics, Oxygen blood, Protein Binding, Carbon Monoxide blood, Hemoglobin A, Hemoglobins
Abstract

L4, the affinity of hemoglobin for the 4th CO molecule, has been determined for human adult hemoglobin (HbA) as a function of pH and the presence of organic phosphates by measuring the kinetic parameters for the reaction. l'4, the rate of combination of CO with the triliganded molecule, was measured by flash photolysis while l4, the rate of CO dissociation for the ligand-saturated molecule, was measured by ligand replacement. L4 is pH-dependent and affected by 2,3-diphosphoglycerate. Additionally, this pH dependence of the high affinity state is largely eliminated by carboxypeptidase A digestion. L4 for human fetal hemoglobin (HbF) in phosphate buffers was also determined and found to be pH-dependent. These results cannot be reconciled within the framework of the two-state allosteric model. Additional structures in the conformational equilibrium due to either intermediates in the T to R transition or two or more R states must exist.

Published
1976

32. Oxygen binding to sickle cell hemoglobin.

Author

DeYoung A and Noble RW

Subjects
Hemoglobin, Sickle genetics, Homozygote, Humans, Hydrogen-Ion Concentration, Kinetics, Temperature, Hemoglobin A metabolism, Hemoglobin, Sickle metabolism, Oxyhemoglobins metabolism
Published
1981
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34. Reexamination of the evidence for paramagnetism in oxy- and carbonmonoxyhemoglobins.

Author

Cerdonio M, Morante S, Torresani D, Vitale S, DeYoung A, and Noble RW

Subjects
Animals, Carps blood, Electron Spin Resonance Spectroscopy, Humans, Magnetic Resonance Spectroscopy, Metalloproteins, Carboxyhemoglobin, Hemoglobins, Oxyhemoglobins
Abstract

Experiments have been carried out in an attempt to confirm previous reports of paramagnetism in the oxy- and carbonmonoxy derivatives of human and carp hemoglobin. When care is taken to ensure complete saturation of the hemoglobins with ligand and the diamagnetic contributions of all of the buffers are carefully evaluated, these hemoglobin derivatives are found to have the same gram susceptibilities as exhibited by a set of metal free proteins, suggesting that they are fully diamagnetic.

Published
1985
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35. Ligand binding to heme proteins. An evaluation of distal effects.

Author

Mims MP, Porras AG, Olson JS, Noble RW, and Peterson JA

Subjects
Animals, Binding Sites, Carbon Monoxide metabolism, Hemoglobins metabolism, Humans, Kinetics, Myoglobin metabolism, Oxygen metabolism, Hemeproteins metabolism, Ligands metabolism
Abstract

The O2, CO, and alkyl isocyanide-binding properties of a variety of vertebrate and invertebrate heme proteins have been compared in detail to those of protoheme mono-3-(1-imidazoyl)-propylamide monomethyl ester in aqueous suspensions of soap micelles. The proteins examined include: cytochrome P-450cam from Pseudomonas putida, beef heart cytochrome c oxidase, yeast cytochrome c peroxidase, alpha and beta subunits of human hemoglobin, sheep hemoglobin, carp hemoglobin, sperm whale myoglobin, horse heart myoglobin, a monomeric hemoglobin from Glycera dibranchiata, erythrocruorin from Chironomusthummii, soybean leghemoglobin, and several hemoglobins that lack distal histidines. The smallest bimolecular rates were observed for cytochrome P-450 containing bound camphor, cytochrome c oxidase, and cytochrome c peroxidase. In the case of P-450, the extremely low isonitrile binding rates (approximately 1 M-1 S-1 at 20 degrees C) are due to steric exclusion by bound camphor molecules. For the oxidase and peroxidase, inhibition of CO and isonitrile binding appears to be due to the polar nature of the active sites. In the cases of animal hemoglobins and myoglobins, the sixth coordination positions appear to be designed to accommodate diatomic molecules with no steric hindrance by distal protein residues. Protein resistance to the diffusion of CO and O2 does not limit the observed association rate constants. In contrast, ligands containing three or more atoms are sterically hindered both in their final bound positions and during diffusion to the active site. The magnitude of this hindrance (greater than or equal to 2 kcal/mol) exhibits a complex dependence on ligand size and shape. The most important protein residue appears to be His E7. In addition to restricting the size of the sixth coordination position, the distal histidine is also capable of forming a hydrogen bond with bound oxygen molecules. The strength of this hydrogen bond was estimated to be -2 and -1 kcal/mol for mammalian myoglobins and hemoglobins, respectively, and accounts for the smaller CO/O2 partition constants (M values) observed for these proteins in comparison to the constants observed for pentacoordinate model heme compounds.

Published
1983

36. Magnetic and spectral properties of carp carbonmonoxyhemoglobin. Competitive effects of chloride ions and inositol hexakisphosphate.

Author

Cerdonio M, Morante S, Vitale S, Dalvit C, Russu IM, Ho C, de Young A, and Noble RW

Subjects
Animals, Humans, Magnetic Resonance Spectroscopy, Magnetics, Spectrophotometry, Carboxyhemoglobin analysis, Carps blood, Chlorides blood, Cyprinidae blood, Hemoglobins analysis, Phytic Acid blood
Abstract

We have extended our studies on the magnetic properties of carp carbonmonoxyhemoglobin and the dependence of these properties upon solution variables. Using an improved version of the superconducting magnetometer, we have found that the magnetic susceptibility of carp carbonmonoxyhemoglobin is sensitive to both inositol hexakisphosphate and chloride ion. The dependence upon chloride ion concentration is complex. At relatively low concentrations this anion reverses the effect of inositol hexakisphosphate, restoring paramagnetism. At higher chloride concentrations the protein is converted to a roughly diamagnetic state in the absence of inositol hexakisphosphate. Along with these susceptibility studies, we have examined the effects of these anions on other properties of carp carbonmonoxyhemoglobin. The positions of the Soret bands of human and carp methemoglobin derivatives are correlated with spin state; changes in the magnetic susceptibility of carbonmonoxyhemoglobin are similarly associated with alterations in this spectral band. We have also examined the effects of these anions on the proton nuclear magnetic resonance spectrum of carp carbonmonoxyhemoglobin. Both chloride and inositol hexakisphosphate alter the position of the proton resonances in the ring-current-shifted region of the spectrum.

Published
1983
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37. Quaternary structure and spin equilibria in ferric hemoglobins. A room temperature study.

Author

Noble RW, De Young A, Di Iorio E, Winterhalter KH, Cerdonio M, Morante S, and Vitale S

Subjects
Animals, Carps, Chemical Phenomena, Chemistry, Humans, Hydrogen-Ion Concentration, Magnetics, Protein Conformation, Temperature, Methemoglobin analysis
Abstract

The effective magnetic moments for a number of human and carp methemoglobin derivatives were determined in solution at room temperature. The data permit us to confirm the dependence of the spin-state equilibrium of azide methemoglobin on the quarternary state of the hemoglobin and to demonstrate a similar dependence for both human and carp aquomethemoglobin. In addition, the pH dependence of the effective magnetic moment and the Soret spectrum of carp azidemethemoglobin are compared.

Published
1983
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39. A high-resolution proton nuclear-magnetic-resonance investigation of carp hemoglobin. Conformational differences between carp and human normal adult hemoglobins in solution.

Author

Dalvit C, Miura S, de Young A, Noble RW, Cerdonio M, and Ho C

Subjects
Adult, Animals, Chemical Phenomena, Chemistry, Humans, Magnetic Resonance Spectroscopy, Protein Conformation, Protons, Solutions, Species Specificity, Carps blood, Cyprinidae blood, Hemoglobins analysis
Abstract

The high-resolution proton nuclear magnetic resonance spectra of carp hemoglobin have been compared to those of human normal adult hemoglobin. Carp deoxy and carbonmonoxy hemoglobins in the deoxy-type quaternary state exhibit two downfield exchangeable proton resonances as compared to four seen in human normal adult deoxyhemoglobin. This suggests that two of the hydrogen bonds present in human normal adult deoxyhemoglobin are absent or occur in very different environments in carp hemoglobin. One of the exchangeable proton resonances of carp hemoglobin, while present in the deoxy-type quaternary state of the carbonmonoxy and deoxy derivatives, is absent in the oxy-type quaternary state of both, in agreement with the assignments of these quaternary structures by other methods. The ring-current-shifted proton resonances (sensitive tertiary structural markers) of carp carbonmonoxyhemoglobin are substantially different from those of human normal adult hemoglobin. The aromatic proton resonance region of carp hemoglobin has fewer resonances than that of human normal adult hemoglobin, consistent with its much reduced histidine content. The hyperfine-shifted proximal histidyl NH-exchangeable proton resonances of carp hemoglobin suggest that during the transition from the oxy to the deoxy quaternary structure, there is a greater alteration in the heme pocket of one type of subunits (presumably the beta chain) than that in the other subunit. The present results suggest that there are differences in both tertiary and quaternary structures between carp and human normal adult hemoglobins which could contribute to the great differences in the functional properties between these two proteins.

Published
1984
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40. Interactions between the quaternary structure of the globin and the spin state of the heme in ferric mixed spin derivatives of hemoglobin.

Author

Perutz MF, Sanders JK, Chenery DH, Noble RW, Pennelly RR, Fung LW, Ho C, Giannini I, Pörschke D, and Winkler H

Subjects
Animals, Electron Spin Resonance Spectroscopy, Fishes, Humans, Iron, Macromolecular Substances, Protein Conformation, Species Specificity, Structure-Activity Relationship, Trout, Globins, Heme, Hemoglobins
Published
1978
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41. Restriction of heterogeneity of goat antibodies specific for human hemoglobin SS.

Author

Schreiber RD, Noble RW, and Reichlin M

Subjects
Absorption, Alkylation, Animals, Electrophoresis, Disc, Goats immunology, Hemoglobins, Humans, Immunoglobulin Fab Fragments, Immunoglobulin G isolation & purification, Immunoglobulin Heavy Chains, Immunologic Techniques, Iodine Radioisotopes, Myeloma Proteins analysis, Oxidation-Reduction, Rabbits immunology, Sepharose, Antibodies isolation & purification, Antibody Specificity, Hemoglobin, Sickle, Hemoglobins, Abnormal
Abstract

Previously, we had reported the isolation of an antibody population (termed antiVal antibody) specific for the site of difference between human hemoglobin S(HbS)(beta-6Val) and hemoglobin A-1(BbA)(beta-6 glu). This population has a stoichiometry of reaction of unity in combining with HbS (alpha-beta-dimer) and shows no reaction with HbA. The combination of antiVal Fab fragments with HbS was found to be kinetically homogeneous and had a second order rate constant of 0.58 times 10-6M-1 sec-1 at 20 degrees C. In this report we have studied other properties of the antiVal population. These antibodies are restricted to only one of the two heavy chain subclasses of goat IgG. Electrophoresis experiments indicated that the antiVal population is much less polydisperse than the total antiHbS response. A method was developed to measure the dissociation kinetics of antiVal-HbS complexes. This dissociation was also found to be kinetically homogeneous and could be described by a single first order rate constant of 2.67 times 10-5 sec-1 at 20 degrees C. With homogeneous association and dissociation rate constants, an affinity constant of 2.1 times 10-10M-1 at 20 degrees C was calculated. It appears, then, that this population of antibodies, which are directed toward a single antigenic determinant on a globular protein, exhibit limited structural heterogeneity associated with great functional homogeneity.

Published
1975

42. Ligand binding properties of hemoglobin 3 of the trout, Salmo gairdneri. The occurrence of an acid Bohr effect in the absence of heme-heme interaction.

Author

Lau HK, Wallach DE, Pennelly RR, and Noble RW

Subjects
Animals, Binding Sites, Carboxyhemoglobin, Chromatography, DEAE-Cellulose, Heme, Hydrogen-Ion Concentration, Kinetics, Ligands, Macromolecular Substances, Nitric Oxide, Photochemistry, Protein Binding, Time Factors, Hemoglobins, Oxygen blood, Salmonidae blood, Trout blood
Abstract

The four components of hemoglobin from the rainbow trout (Salmo gairdneri) have been isolated. The oxygen affinities of the first two components eluted from the DEAE-cellulose column have much smaller pH dependencies than the last two components. These components have very low O2 affinities at low pH. The effect of pH on the equilibrium and kinetics of ligand binding to the third fraction, the pH-dependent component present in greatest amounts, has been studied. Measurements of ligand binding equilibria demonstrate the presence of both an alkaline and an acid Bohr effect. In the region of the alkaline Bohr effect the value of n in the Hill equation is a function of ligand affinity. For CO binding n decreases as the pH is decreased until at pH 6, the minimum ligand affinity is reached. At this pH there is also a complete loss of cooperative ligand binding. Decreasing the pH further results in an increase of ligand affinity, but this acid Bohr effect is not associated with a reappearance of cooperativity. This suggests that Fraction 3 of S. gairdneri is frozen in the low affinity, deoxygenated conformation at low pH and that the quaternary structure does not change even when fully liganded. However, the properties of the low affinity conformation of this hemoglobin are pH-dependent.

Published
1975

43. Unstable hemoglobins and thalassemia: some properties of Hb Köln.

Author

Ranney HM, Sharma VS, and Noble RW

Subjects
Germany, West, Heinz Bodies, Humans, Inclusion Bodies, Ligands, Methionine analysis, Oxygen metabolism, Peptide Fragments analysis, Peptide Fragments metabolism, Pyrroles urine, Spleen physiology, Splenectomy, Valine analysis, Hemoglobins, Abnormal metabolism, Thalassemia blood
Published
1974
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46. Idiotypic cross-reactivity between antibodies of different specificities.

Author

Karol R, Reichlin M, and Noble RW

Subjects
Animals, Cross Reactions, Epitopes, Goats, Sheep, Species Specificity, Valine immunology, Antibody Specificity, Hemoglobin A immunology, Hemoglobin, Sickle immunology, Immunoglobulin Idiotypes analysis
Abstract

Cross-idiotypic specificity has been demonstrated between antibody populations of different specificities using antibodies directed toward human sickle cell hemoglobin (HbS). A site-specific antibody directed toward the beta6-position of HbS, anti-Val, was used to elicit an anti-idiotypic response in rabbits. Using this anti-idiotypic serum, idiotypic cross-reactivity was demonstrated between antibody populations that bind to human adult hemoglobin (HbA). It was demonstrated that in the case of the goat antibodies, these idiotypically cross-reacting antibodies are directed towards the beta6-position of the hemoglobin molecule. However, they differ in their specificity, binding to this site on HbA, whereas anti-Val binds only to HbS. The sheep antibody populations directed toward HbS differ qualitatively from those of the goat. Using rabbit anti-idiotypic serum specific for sheep anti-Val, cross-reactivity could be demonstrated with antibodies directed toward the alpha-chain of the hemoglobin molecule, as well as the beta-chain. There was also a low level of cross-reactivity with antibodies from a goat immunized with HbA.

Published
1978
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48. Functional properties of hemoglobins from deep-sea fish: correlations with depth distribution and presence of a swimbladder.

Author

Noble RW, Kwiatkowski LD, De Young A, Davis BJ, Haedrich RL, Tam LT, and Riggs AF

Subjects
Animals, Carbon Monoxide metabolism, Electrophoresis, Polyacrylamide Gel, Kinetics, Oxygen metabolism, Air Sacs physiology, Fishes physiology, Hemoglobins physiology
Abstract

The ligand binding properties of the hemoglobins of several deep-sea, bottom-living fish have been examined. These include five species of rattails (Macrouridae) and Antimora rostrata, all of which possess swimbladders, and two unrelated species without swimbladders, Bathysaurus mollis and Alepocephalus sp. All of the hemolysates of these fish exhibited the Root effect with a minimum ligand affinity at about pH 6 in the presence of organic phosphate. Under these conditions the hemolysates from fish which possess swimbladders exhibit two roughly equal populations of heme groups with markedly different ligand affinities. For the deeper-dwelling species the affinities for carbon monoxide differ by some 500-fold, the low-affinity population having a p50(CO) of 100 mmHg at 15 degrees C. This very low affinity is associated with a second-order rate constant for CO combination of the order of 10(3) M-1 X s-1. Those species without swimbladders have hemoglobins which do not have such heterogeneous binding sites, suggesting a relationship between these very-low-affinity heme groups and the pumping of oxygen into a swimbladder at high hydrostatic pressures.

Published
1986
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50. Specific antibodies to hemoglobin A1 (anti-Glu) and hemoglobin S (anti-Val) in the guinea pig: immunologic and structural correlations.

Author

Otieno S, Bloor A, Karol R, Reichlin M, and Noble RW

Subjects
Amino Acids, Animals, Fluorescent Antibody Technique, Globins isolation & purification, Glutamates immunology, Goats, Guinea Pigs, Hemoglobins isolation & purification, Male, Precipitin Tests, Sheep, Valine immunology, Antibody Specificity, Hemoglobin A immunology, Hemoglobin, Sickle immunology
Abstract

Like goats and sheep, guinea pigs can produce, in response to human sickle cell hemoglobin (beta6 Glu leads to Val), an antibody population (anti-Val) that will bind sickle cell hemoglobin but not normal hemoglobin HbA. Unlike goats and sheep, guinea pigs can produce in response to human hemoglobin A1 an antibody fraction, anti-Glu, that will not react with human sickle cell hemoglobin. These anti-Glu antibodies have been isolated by affinity chromatography and their specificity confirmed by fluorescence-quenching titrations. The sequence of the first 10 amino acids of the beta-chain of guinea pig hemoglobin has been determined. This sequence differs from those of both hemoglobin HbA and sickle cell hemoglobin by two residues, those at positions 5 and 6. This explains the similarity of the immunogenicity of this site on the two human hemoglobins when administered to guinea pigs. Both goats and sheep are identical to hemoglobin A1 at the beta-6 position.

Published
1978

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