Your search keyword '"Fairbrother WJ"' showing total 5 results

1. The roles of ATP4- and Mg2+ in control steps of phosphoglycerate kinase.

Author

Fairbrother WJ, Graham HC, and Williams RJ

Subjects

Adenosine Triphosphate physiology, Binding Sites drug effects, Binding Sites physiology, Electrochemistry, Magnetic Resonance Spectroscopy, Models, Molecular, Phosphoglycerate Kinase antagonists & inhibitors, Saccharomyces cerevisiae enzymology, Sulfates pharmacology, Adenosine Triphosphate pharmacology, Magnesium pharmacology, Phosphoglycerate Kinase metabolism

Abstract

1H-NMR measurements were made of solutions of yeast phosphoglycerate kinase containing the nucleotide substrate, ATP, and Mg2+ in varying concentrations in order to investigate the affect that the metal ion has on the mode of ATP binding to the enzyme. From the change in the chemical shifts of the 'basic-patch' histidine resonances (His62, His167 and His170) and the nucleotide C8H, C2H and C1'H resonances it is apparent that there are at least two ATP-binding sites on the enzyme. Downfield shifts observed for the above histidine resonances at low nucleotide/enzyme molar ratios indicates that the primary binding site involves electrostatic interactions between the nucleotide triphosphate chain and the basic-patch region of the N-terminal domain. The secondary binding site is shown to involve predominantly hydrophobic interactions between the adenosine moiety and the protein. Evidence from previous two-dimensional NMR experiments [Fairbrother et al. (1990) Eur. J. Biochem. 190, 161-169] suggests that the secondary site is equivalent to the crystallographically observed catalytic site. The affinity of the catalytic site is increased relative to the primary electrostatic site with increasing Mg2+ concentration. The possible importance of these observations in the regulation of this enzyme in vivo are discussed.

Published

1990

2. An NMR study of anion binding to yeast phosphoglycerate kinase.

Author

Fairbrother WJ, Graham HC, and Williams RJ

Subjects

Anions, Binding Sites, Chromates pharmacology, Cobalt pharmacology, Cyanides pharmacology, Enzyme Activation drug effects, Ferricyanides pharmacology, Glyceric Acids metabolism, Kinetics, Magnetic Resonance Spectroscopy, Protein Conformation drug effects, Substrate Specificity, Sulfates, Phosphoglycerate Kinase antagonists & inhibitors, Saccharomyces cerevisiae enzymology

Abstract

Anion binding to yeast phosphoglycerate kinase has been investigated using 1H-NMR spectroscopy. The use of anionic paramagnetic probes. [Cr(CN)6]3- and [Fe(CN)6]3-, has enabled the location of the primary anion binding site in the 'basic-patch' region of the amino-terminal domain. The anions interact most closely with Arg-65 and Arg-168. The binding of these and a variety of other anions to this site is directly competitive with the binding of the substrate, 3-phosphoglycerate. Binding of 3-phosphoglycerate and 1.3-bisphosphoglycerate is, however, stronger than expected on the basis of anionic charge and causes conformational changes in the protein not seen with any of the other simple spherical anions investigated. This must be part, at least, of the substrate specificity. Evidence for a secondary anion binding site involving the side chains of surface lysine residues is also presented. It is suggested that the primary anion site is responsible for the observed activation by anions at low concentrations while the secondary site leads to inhibition at higher anion concentrations. The kinetics fit these deductions and a scheme for kinase activity is presented.

Published

1990

3. One- and two-dimensional NMR studies of yeast phosphoglycerate kinase.

Author

Fairbrother WJ, Bowen D, Hall L, and Williams RJ

Subjects

Adenosine Triphosphate metabolism, Glyceric Acids metabolism, Magnetic Resonance Spectroscopy, Phosphoglycerate Kinase, Yeasts enzymology

Abstract

One- and two-dimensional proton NMR studies have been carried out on yeast phosphoglycerate kinase (Mr approximately 45,000) in order to identify amino-acid spin systems and obtain sequence-specific assignments. A number of sequence-specific assignments have been made using a combination of structural information contained in nuclear Overhauser effect spectra and X-ray crystallographic data. The results of substrate binding studies (both 3-phosphoglycerate and Mg.ATP), which indicate mutual reorientation of certain assigned aromatic residues in the inter-domain region of the protein, are discussed.

Published

1989

4. NMR analysis of site-specific mutants of yeast phosphoglycerate kinase. An investigation of the triose-binding site.

Author

Fairbrother WJ, Walker PA, Minard P, Littlechild JA, Watson HC, and Williams RJ

Subjects

Arginine analysis, Aspartic Acid analysis, Binding Sites, Binding, Competitive, Energy Transfer, Glyceric Acids, Histidine analysis, Magnetic Resonance Spectroscopy, Methionine analysis, Mutation, Phosphoglycerate Kinase genetics, Protein Conformation, Saccharomyces cerevisiae genetics, Structure-Activity Relationship, Phosphoglycerate Kinase analysis, Saccharomyces cerevisiae analysis

Abstract

Site-specific mutants of yeast phosphoglycerate kinase have been produced in order to investigate the roles of the 'basic-patch' residues, arginine 168 and histidine 170. The fully-conserved residue, arginine 168, has been replaced with a lysine (R168K) and a methionine (R168M) residue, while the non-conserved histidine 170 has been replaced with an aspartate (H170D). Comparison of the 500-MHz 1H-NMR spectra of the mutant proteins with that of wild-type phosphoglycerate kinase shows that the overall fold of the mutants remains essentially unaltered from that of the native enzyme. Results of NOE experiments indicate that there are only very minor changes in structure in the vicinity of the mutations. These mutations have also led to firm sequence-specific resonance assignments to histidines 62, 167 and 170. NMR studies of 3-phosphoglycerate binding show that decreasing the positive charge in the sequence 168-170 reduces the binding of this substrate (by about 15-fold and 4-fold for mutants R168M and H170D respectively). Mutant R168K binds 3-phosphoglycerate with an affinity about twofold less than that of the native enzyme. Significantly, the activity of mutant H170D, measured at saturating substrate concentrations, is unchanged from that of the wild-type enzyme. This indicates that this residue is not of major importance in the binding or reaction of 3-phosphoglycerate. The observation is in agreement with results obtained for the wild-type enzyme, which indicate that 3-phosphoglycerate interacts most strongly with histidine 62 and least strongly with histidine 170, as would be predicted from the X-ray crystal structure. Substitution of positively charged arginine 168 with neutral methionine (or positively charged lysine) does not cause a detectable change in the pKa values of the neighbouring histidine groups, in as much as they remain below 3. The results reported here indicate that the observed reduction in catalytic efficiency relates less to direct electrostatic effects than to the mutants' inability to undergo 3-phosphoglycerate-induced conformational changes.

Published

1989

5. An NMR analysis of the binding of inhibitors to yeast phosphoglycerate kinase.

Author

Boyle HA, Fairbrother WJ, and Williams RJ

Subjects

Binding Sites, Kinetics, Magnetic Resonance Spectroscopy, Organophosphonates metabolism, Protein Conformation, Suramin metabolism, Phosphoglycerate Kinase antagonists & inhibitors, Yeasts enzymology

Abstract

The binding of a series of inhibitors to the enzyme phosphoglycerate kinase has been studied using NMR to uncover the binding sites and the effects of binding on the protein conformation. The very effective inhibitor, Suramin, causes the most pronounced changes. The design of inhibitors for mobile proteins is discussed.

Published

1989