Reversible Regulation of Chymotrypsin Activity Using Negatively Charged Gold Nanoparticles Featuring Malonic Acid Termini

Joseph M. Simard; Beth Szymanski; Vincent M. Rotello

doi:10.2174/1573406053175283

ISSN: 1573-4064
E-ISSN: 1875-6638

Reversible Regulation of Chymotrypsin Activity Using Negatively Charged Gold Nanoparticles Featuring Malonic Acid Termini
Authors: Joseph M. Simard¹, Beth Szymanski² and Vincent M. Rotello³
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¹ Department of Chemistry,Program in Molecular and Cell Biology, 710 North Pleasant St., University of Massachusetts, Amherst, MA 01003, USA. ² Department of Chemistry,Program in Molecular and Cell Biology, 710 North Pleasant St., University of Massachusetts, Amherst, MA 01003, USA. ³ Department of Chemistry,Program in Molecular and Cell Biology, 710 North Pleasant St., University of Massachusetts, Amherst, MA 01003, USA.
Source: Medicinal Chemistry, Volume 1, Issue 2, Mar 2005, p. 153 - 157
DOI: https://doi.org/10.2174/1573406053175283
- Available online: 01 Mar 2005

Abstract

Negatively charged gold nanoparticles featuring 2-(10-mercapto-decyl)-malonic acid were synthesized using the Murray place-displacement reaction. These water-soluble malonate gold mixed monolayer protected clusters (MMPCs) effectively bind and inhibit chymotrypsin based on complementary electrostatic surface recognition. The effect of increasing ionic strength on inhibition was also studied. It was observed that addition of high ionic strength solutions to protein-nanoparticle complexes show almost complete restoration of protein activity. The conformational change of chymotrypsin upon binding to the MMPC was investigated using fluorescence spectrometry and circular dichroism, thus correlating structural changes with enzyme activity.

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2005-03-01

2025-09-12

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Article Type: Review Article

Keyword(s): brust-schiffrin reduction; circular dichroism; fluorescence spectroscopy; malonic acid; mercaptoundecanoic acid; mixed monolayer protected clusters; protein-protein interactions

Reversible Regulation of Chymotrypsin Activity Using Negatively Charged Gold Nanoparticles Featuring Malonic Acid Termini

Abstract

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