Joon-H. Kim,†,‡ scite author profile

Joon-H. Kim,†,‡

2Publications

81Citation Statements Received

86Citation Statements Given

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Stanford University

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Protease Adsorption and Reaction on an Immobilized Substrate Surface

et al. 2002

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Enzymatic reactions with surface-bound substrates present an interesting problem in biomolecular surface science, as they require us to consider traditional enzyme kinetics in the context of protein adsorption. These reactions are important in such applications as detergent enzyme additives, food processing, and contact lens cleaning. We study the interaction of a serine protease (subtilisin) with an immobilized substrate (bovine serum albumin) surface through the simultaneous use of surface plasmon resonance and surface plasmon enhanced fluorescence techniques. We measure adsorbed enzyme concentrations and substrate cleavage rates in situ and compare the reactivities with those in solution. By varying the ionic strength of the reaction environment and studying several single point mutations of subtilisin, we find the adsorption behavior of the enzyme is strongly influenced by its electrostatic interactions with the charged bovine serum albumin surface. The surface reactivity of each of the mutants is coupled to its adsorption properties. On the basis of these findings, we propose a modified Michaelis-Menten enzyme surface adsorption and reaction model.

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Surface Plasmon Resonance/Surface Plasmon Enhanced Fluorescence: An Optical Technique for the Detection of Multicomponent Macromolecular Adsorption at the Solid/Liquid Interface

et al. 2002

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We describe an optical technique for the measurement of macromolecular adsorption at the solid/liquid interface when multiple species are present. The technique combines surface plasmon resonance (SPR) with simultaneous surface plasmon enhanced fluorescence (SPEF). The relative ease of construction and linear correlation between SPR and SPEF signals make the technique amenable for coadsorption studies or multiple ligand binding experiments. Here, we demonstrate the utility of the technique with a biotin/ avidin/BSA "sandwich" experiment. We then apply SPR/SPEF for the simultaneous monitoring of enzyme adsorption and substrate cleavage of a protease interacting with a substrate surface.

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Joon-H. Kim,†,‡

Protease Adsorption and Reaction on an Immobilized Substrate Surface

Surface Plasmon Resonance/Surface Plasmon Enhanced Fluorescence: An Optical Technique for the Detection of Multicomponent Macromolecular Adsorption at the Solid/Liquid Interface

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