ELISA direct binding assay

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). 

Another commonly used ELISA format is the immobilized antibody assay or direct competitive assay (Eigure 3). The primary anti-analyte antibody is immobilized on the solid phase and the analyte competes with a known amount of enzyme-labeled hapten for binding sites on the immobilized antibody. Eirst, the anti-analyte antibody is adsorbed on the microtiter plate wells. In the competition step, the analyte and enzyme-labeled hapten are added to microtiter plate wells and unbound materials are subsequently washed out. The enzyme substrate is then added for color production. Similarly to indirect competitive immunoassay, absorption is inversely proportional to the concentration of analyte. The direct competitive ELISA format is commonly used in commercial immunoassay test kits. 

The most common use of protein microarrays is in immunoassays. In particular, antibody-based immunoassays are the main stream of diagnostic assays due to their specificity. The assay usually runs in a multiplexed mode where the antibodies or other capture agents are immobilized and then exposed to a biological sample. There are four immunoassay formats direct binding, sandwich (ELISA), competitive, and displacement. Direct-binding and sandwich assays are the most common. There are some reports on the use of competitive assays and displacement assays, which are usually associated with high surface area/volume systems [72-76],... 

There exists a wide variety in the setup of ELISA assays (direct binding or competition setups) and the enzymatic reaction utilized [148]. A similar principle to enhance sensitivity by enzymatic coupling is realized after gel electrophoretic separation of proteins. Here proteins are transferred to nitrocellulose ( western blot ) and detected by antibody-coupled enzymes. 

Among the many immunological assay methods, the enzyme-linked immunosorbent assay methods (ELISA) are the most popular methods. ELISA can detect both antigen molecules and antibody molecules with only a slight modification of the procedure. The direct-binding and sandwich methods that are used for the... 

Ligand-binding assay - hke RIA, ELISA and other types of competitive antigen -antibody-related methods - are broadly apphed to detect and quantify macromolecules in biomatrices. In addition, ceU-based assays and antibody titer determinations might be additional quantification methods for macromolecules. Several of these methods have already been used and established in clinical chemistry to determine levels of endogenous substrates in the past. Thus, it is a direct approach to use similar methods in the case of measurement of for example, recombinant analogues and other suitable biopharmaceuticals. 

There are several basic formats of ELISA depending on intended purpose and availability, specificity, and affinity of the antibody reagents. The most common types of ELISA are the direct binding, the sandwich assay and the competitive assay. 

In a direct immunoassay the immobilized antibody binds to the corresponding antigen. The competitive immunoassay relies upon the competition of the analyte with a labelled analyte for antibody binding. These formats are widely used for high throughput affinity arrays. A sandwich immunoassay is based on the trapping or capture of the analyte by another antibody. In ELISA (enzyme linked immunosorbent assays) the second antibody is conjugated with an enzyme. The bound enzyme labelled antibody is detected by its ability to break down its substrate to a colored product. 

Carrier protein Macromolecule to which a hapten is conjugated, thereby enabling the hapten to stimulate the immune response. catELISA Similar to an ELISA, except that the assay detects catalysis as opposed to simple binding between hapten and antibody. The substrate for a reaction is bound to the surface of the microtitre plate, and putative catalytic antibodies are applied. Any product molecules formed are then detected by the addition of anti-product antibodies, usually in the form of a polyclonal mixture raised in rabbits. The ELISA is then completed in the usual way, with an anti-rabbit second antibody conjugated to an enzyme, and the formation of coloured product upon addition of the substrate for this enzyme. The intensity of this colour is then indicative of the amount of product formed, and thus catalytic antibodies are selected directly. 

Noncompetitive ELISA. The usual principle here is the sandwich technique, which requires the antigen to have at least two antibody binding sites (epitopes). Unlabelled antibody is first fixed to microtitre plates a food sample containing antigen (analyte) is then added and allowed to react with the fixed unlabelled antibody (Figure 8.3). Unadsorbed material is washed out and enzyme-labelled antibody then added which reacts with a second site on the bound antigen. Unadsorbed Ab-E is washed off and enzyme activity assayed activity is directly related to the concentration of antigen. 

At their most elaborate, epitope mapping techniques can provide detailed information on the amino acid residues in a protein antigen, which are in direct contact with the antibody binding site. X-ray crystallography of antibody-antigen complexes can identify contact residues directly and unequivocally, though not surprisingly in view of the effort required, this method is not in routine use. At the other extreme, demonstration by competition enzyme-linked immunosorbent assay (ELISA) methods that two antibodies bind to different sites on... 

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