Yasmina S.N. Day scite author profile

The binding interactions of small molecules with carbonic anhydrase II were used as model systems to compare the reaction constants determined from surface-and solution-based biophysical methods. Interaction data were collected for two arylsulfonamide compounds, 4-carboxybenzenesulfonamide (CBS) and 5-dimethyl-amino-1-naphthalene-sulfonamide (DNSA), binding to the enzyme using surface plasmon resonance, isothermal titration calorimetry, and stopped-flow fluorescence. We demonstrate that when the surface plasmon resonance biosensor experiments are performed with care, the equilibrium, thermodynamic, and kinetic constants determined from this surface-based technique match those acquired in solution. These results validate the use of biosensor technology to collect reliable data on small molecules binding to immobilized macromolecular targets. Binding kinetics were shown to provide more detailed information about complex formation than equilibrium constants alone. For example, although carbonic anhydrase II bound DNSA with twofold higher affinity than CBS, kinetic analysis revealed that CBS had a fourfold slower dissociation rate. Analysis of the binding and transition state thermodynamics also revealed significant differences in the enthalpy and entropy of complex formation. The lack of labeling requirements, high information content, and high throughput of surface plasmon resonance biosensors will make this technology an important tool for characterizing the interactions of small molecules with enzymes and receptors.

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High-Resolution and High-Throughput Protocols for Measuring Drug/Human Serum Albumin Interactions Using BIACORE

Rich

Day

Morton

et al. 2001

Analytical Biochemistry

243

182

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Characterizing a Drug’s Primary Binding Site on Albumin

Day

Myszka

2003

Journal of Pharmaceutical Sciences

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Structure-Activity Analysis of the Purine Binding Site of Human Liver Glycogen Phosphorylase

Ekstrom¹,

Pauly²,

Carty

et al. 2002

Chemistry & Biology

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Human liver glycogen phosphorylase (HLGP) catalyzes the breakdown of glycogen to maintain serum glucose levels and is a therapeutic target for diabetes. HLGP is regulated by multiple interacting allosteric sites, each of which is a potential drug binding site. We used surface plasmon resonance (SPR) to screen for compounds that bind to the purine allosteric inhibitor site. We determined the affinities of a series of compounds and solved the crystal structures of three representative ligands with K(D) values from 17-550 microM. The crystal structures reveal that the affinities are partly determined by ligand-specific water-mediated hydrogen bonds and side chain movements. These effects could not be predicted; both crystallographic and SPR studies were required to understand the important features of binding and together provide a basis for the design of new allosteric inhibitors targeting this site.

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Mutational Analysis of the Kinetics and Thermodynamics of Transcription Factor NF-κB Homodimerisation

et al. 2002

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Yasmina S.N. Day

Direct comparison of binding equilibrium, thermodynamic, and rate constants determined by surface‐ and solution‐based biophysical methods

High-Resolution and High-Throughput Protocols for Measuring Drug/Human Serum Albumin Interactions Using BIACORE

Characterizing a Drug’s Primary Binding Site on Albumin

Structure-Activity Analysis of the Purine Binding Site of Human Liver Glycogen Phosphorylase

Mutational Analysis of the Kinetics and Thermodynamics of Transcription Factor NF-κB Homodimerisation

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