• Title of article

    Effects of the Ionic Environment, Charge, and Particle Surface Chemistry for Enhancing a Latex Homogeneous Immunoassay of C-Reactive Protein

  • Author/Authors

    Perez-Amodio، Soledad نويسنده , , Holownia، Peter نويسنده , , Davey، Carol L. نويسنده , , Price، Christopher P. نويسنده ,

  • Issue Information
    دوهفته نامه با شماره پیاپی سال 2001
  • Pages
    -3416
  • From page
    3417
  • To page
    0
  • Abstract
    The role of the solution environment for a light-scattering, latex-particle-enhanced, homogeneous immunoassay of C-reactive protein (CRP) has been investigated in order to assess and optimize the immunoagglutination response. Latex particles of 50-170-nm sizes were covalently coupled with an IgG polyclonal antibody and subjected to an extensive optimization regime. This consisted of conditions responsible, in different degrees, for the principal attractive/repulsive forces affecting both colloidal stability and the antibody/antigen interaction: particle size, antibody concentration, ionic strength and species, pH, and amino acid chemistry of the particle surface. Careful control of these parameters was found to be necessary to achieve the desired effects of balancing high colloidal stability in the absence of antigen but promoting a rapid, sensitive, and dose-dependent agglutination with pathological serum samples. In addition, the estimation of fundamental properties governing intermolecular interaction (i.e. the "Hamaker" constant and critical coagulation concentration) was attempted to order to investigate a simple, practical means of defining a colloidal/immunoassay system under "real conditions" as well as "real time". It is concluded that because each antibody system is unique, a similar optimization should be performed in diagnostic immunoassays of this type to maximize their clinical utility.
  • Journal title
    Analytical Chemistry
  • Serial Year
    2001
  • Journal title
    Analytical Chemistry
  • Record number

    50944