期刊
CURRENT OPINION IN STRUCTURAL BIOLOGY
卷 11, 期 5, 页码 560-566出版社
CURRENT BIOLOGY LTD
DOI: 10.1016/S0959-440X(00)00248-7
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资金
- NIGMS NIH HHS [GM 57144, GM 51362] Funding Source: Medline
Of all the techniques that are currently available to measure binding, isothermal titration calorimetry is the only one capable of measuring not only the magnitude of the binding affinity but also the magnitude of the two thermodynamic terms that define the binding affinity: the enthalpy (DeltaH) and entropy (DeltaS) changes. Recent advances in instrumentation have facilitated the development of experimental designs that permit the direct measurement of arbitrarily high binding affinities, the coupling of binding to protonation/deprotonation processes and the analysis of binding thermodynamics in terms of structural parameters. Because isothermal titration calorimetry has the capability to measure different energetic contributions to the binding affinity, it provides a unique bridge between computational and experimental analysis. As such, it is increasingly becoming an essential tool in molecular design.
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