Kinetics of antibody binding at solid-liquid interfaces in flow.

abstract

We have developed the theoretical framework for a displacement immunoassay conducted in flow under nonequilibrium conditions. Using a repetitive displacement technique, we determined the displacement rate and apparent dissociation rate constant at different flow rates. Our data suggest that the kinetics are best described by a first-order function. The displacement efficiency, the displacement rate, and therefore the apparent dissociation rate constant were calculated and demonstrated to be flow rate dependent. The theoretical framework developed in this study was successful in predicting the behavior of antigen displacement in flow.

authors

Ligler, Frances

published proceedings

J Immunol Methods

altmetric score

3

author list (cited authors)

Wemhoff, G. A., Rabbany, S. Y., Kusterbeck, A. W., Ogert, R. A., Bredehorst, R., & Ligler, F. S.

citation count

38

complete list of authors

Wemhoff, GA||Rabbany, SY||Kusterbeck, AW||Ogert, RA||Bredehorst, R||Ligler, FS

publication date

December 1992

publisher

Elsevier Publisher

published in

Journal of Immunological Methods Journal

keywords

Antibodies, Monoclonal
Antigen-Antibody Reactions
Immunoassay
Kinetics
Rheology
Solutions

PubMed Central ID

1474258

Digital Object Identifier (DOI)

10.1016/0022-1759(92)90029-s

start page

223

end page

230

volume

156

issue

2

URL

http://dx.doi.org/10.1016/0022-1759(92)90029-s

Kinetics of antibody binding at solid-liquid interfaces in flow. Academic Article

Overview

abstract

authors

published proceedings

altmetric score

author list (cited authors)

citation count

complete list of authors

publication date

publisher

published in

Research

keywords

Identity

PubMed Central ID

Digital Object Identifier (DOI)

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