Mechanism of Immobilized Protein A Binding to Immunoglobulin G on Nanosensor Array Surfaces

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• 作者：Justin T. Nelson ; Sojin Kim ; Nigel F. Reuel ; Daniel P. Salem ; Gili Bisker ; Markita P. Landry ; Sebastian Kruss ; Paul W. Barone ; Seonyeong Kwak ; Michael S. Strano
• 刊名：Analytical Chemistry
• 出版年：2015
• 出版时间：August 18, 2015
• 年：2015
• 卷：87
• 期：16
• 页码：8186-8193
• 全文大小：456K
• ISSN：1520-6882

文摘

Protein A is often used for the purification and detection of antibodies such as immunoglobulin G (IgG) because of its quadrivalent domains that bind to the Fc region of these macromolecules. However, the kinetics and thermodynamics of the binding to many sensor surfaces have eluded mechanistic description due to complexities associated with multivalent interactions. In this work, we use a near-infrared (nIR) fluorescent single-walled carbon nanotube sensor array to obtain the kinetics of IgG binding to protein A, immobilized using a chelated Cu²⁺/His-tag chemistry to hydrogel dispersed sensors. A bivalent binding mechanism is able to describe the concentration dependence of the effective dissociation constant, K_D,eff, which varies from 100 pM to 1 渭M for IgG concentrations from 1 ng mL^鈥? to 100 渭g mL^鈥?, respectively. The mechanism is shown to describe the unusual concentration-dependent scaling demonstrated by other sensor platforms in the literature as well, and a comparison is made between resulting parameters. For comparison, we contrast IgG binding with that of human growth hormone (hGH) to its receptor (hGH鈥揜) which displays an invariant dissociation constant at K_D = 9 渭M. These results should aid in the use of protein A and other recognition elements in a variety of sensor types.