Nonspecific binding , assay blocking

Direct and indirect competition formats, illustrated in Figure 1, are widely used for both qualitative and quantitative immunoassays. Direct competition immunoassays employ wells, tubes, beads, or membranes (supports) on to which antibodies have been coated and in which proteins such as bovine semm albumin, fish gelatin, or powdered milk have blocked nonspecific binding sites. Solutions containing analyte (test solution) and an analyte-enzyme conjugate are added, and the analyte and antibody are allowed to compete for the antibody binding sites. The system is washed, and enzyme substrates that are converted to a chromophore or fluorophore by the enzyme-tracer complex are added. Subsequent color or fluorescence development is inversely proportionate to the analyte concentration in the test solution. For this assay format, the proper orientation of the coated antibody is important, and anti-host IgG or protein A or protein G has been utilized to orient the antibody. Immunoassays developed for commercial purposes generally employ direct competition formats because of their simplicity and short assay times. The price for simplicity and short assay time is more complex development needed for a satisfactory incorporation of the label into the antibody or analyte without loss of sensitivity. 

For ELISA, an enzyme is linked chemically to the antibody. The labeled antibody is allowed to bind to the unlabeled antigen, under conditions where nonspecific adsorption is blocked, and any unbound antibody and other proteins are washed away. Binding is detected by a reaction that converts a colorless substrate into a colored reaction product. The color change can be read directly in the reaction tray, making data collection very easy, and ELISA also avoids the hazards of radioactivity. This makes ELISA the preferred method for most direct-binding assays (Plested et al. 2003). 

Specificity An important criterion is also how specifically the capture molecule binds its interaction partner molecule. Nonspecific binding of matrix molecules to the sensing layer leads to false positive signals causing an error in the measurement values. Control experiments with compounds that show nonspecific adsorption, e.g., bovine serum albumin (BSA), are recommended. Blocking of the surface, meaning that a layer of e.g., BSA prevents the nonspecific adsorption of other matrix molecules and is displaced by the molecule interacting specifically, can also enhance the specificity in an assay. 

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