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Thermodynamic characterization of affinity maturation: the D1.3 antibody and a higher-affinity mutant

✍ Scribed by Jennifer J. VanAntwerp; K. Dane Wittrup

Publisher
John Wiley and Sons
Year
1998
Tongue
English
Weight
65 KB
Volume
11
Category
Article
ISSN
0952-3499

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✦ Synopsis

Understanding the structural and dynamic determinants of binding free energy in the antigen-antibody bond is of great interest. Much work has focused on selective mutations in order to locate key interaction residues, but this generally results in reduced affinity. The present work instead examines a higher-affinity mutant to characterize the thermodynamic pathway of the affinity maturation process. We have compared the antigen binding energetics of scFv D1.3, an anti-hen egg lysozyme single chain antibody, with a higheraffinity mutant (Hawkins, R. E., Russell, S. J., Baier, M. and Winter, G. (1993). J. Mol. Biol. 234, 958-964). The mutant has fivefold higher affinity for lysozyme but nearly the same enthalpy and heat capacity change upon binding, as measured by isothermal titration calorimetry. Thus, much of the binding free energy difference can be attributed to entropic effects. Fluorescence quenching with acrylamide indicates that this more favorable entropy change may result from a more flexible mutant-lysozyme complex and thus be a configurational entropy effect.

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