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  • Noncovalent modification of chymotrypsin surface using an amphiphilic polymer scaffold: implications in modulating protein function.

Noncovalent modification of chymotrypsin surface using an amphiphilic polymer scaffold: implications in modulating protein function.

Journal of the American Chemical Society (2005-07-28)
Britto S Sandanaraj, Dharma Rao Vutukuri, Joseph M Simard, Akamol Klaikherd, Rui Hong, Vincent M Rotello, S Thayumanavan
ZUSAMMENFASSUNG

We report here on a new amphiphilic homopolymer that binds noncovalently to proteins. This polymer not only binds to the target protein chymotrypsin with submicromolar affinity but also stabilizes the native structure of the protein. Since the polymer-protein binding process is based on electrostatic interaction, the bound protein can be released from the polymer surface and reactivated either by increasing the ionic strength or by adding complementary cationic surfactants. The electrostatic binding of polymer to the protein results in a marked change in the substrate specificity of chymotrypsin.

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Sigma-Aldrich
N-Succinyl-Gly-Gly-Phe-p-Nitroanilid, protease substrate