Immunoglobulin assay

In addition to the wide range of commercial probes, many other fluorescent molecules have been synthesized and described in the literature. Only a handful, however, are generally used to label antibody molecules. Perhaps the most common fluorescent tags with application to immunoglobulin assays are reflected in the main derivatives produced by the prominent antibody manufacturing companies. These include derivatives of cyanine dyes, fluorescein, rhod-amine, Texas red, aminomethylcoumarin (AMCA), and phycoerythrin. Figure 20.16 shows the reaction of fluorescein isothiocyanate (FITC), one of the most common fluorescent probes, with an antibody molecule. 

This experiment describes the adaptation of the bicinchoninic acid (BCA) protein assay to a flow injection analysis. The assay is based on the reduction of Cu + to Cu+ by the protein, followed by the reaction of Cu+ with bicinchoninic acid to form a purple complex that absorbs at 562 nm. Directions are provided for the analysis of bovine serum albumin and rabbit immunoglobulin G, and suggestions are provided for additional analyses. 

Immunoglobulin Potency assay method Potency requirement... 

In each of the assays of potency the amount of the immunoglobulin and the amount of a corresponding standard preparation that are required to neutralize the infectivity or other biological activity of a defined amount of virus or to neutralize a defined amount of a bacterial toxin are determined. The two determined amounts and the assigned unitage of the standard preparation are then used to calculate the potency of the immunoglobulin in International Units (lU). ELISA, enzyme-linked immunosorbent assay. 

Antiphospholipid antibodies include lupus anticoagulants (LAs) and anticardi-olipin (aCL) antibodies. Lupus anticoagulants are immunoglobulins that are characterized by their ability to inhibit phospholipid-dependent coagulation assays. In contrast, aCL antibodies are measured in an enzyme-linked immunosorbent assay... 

Human embryo lung fibroblasts infected with a reference laboratory strain of herpes simplex virus (HS V) type 2 were used to detect antibody to HSV type 2 in serum samples. After treatment of cells with serial dilutions of sera, HRP-labeled immunoglobulins to human IgG (class G immunoglobulins) were added and detected with CL substrate [36], In both cases a sharp detection of the specific antibodies was achieved with chemiluminescent assays, which proved more sensitive than the colorimetric immunoperoxidase assays. 

Although hypersensitivity reactions can occur upon administration of immunoglobulin preparations, the incidence of such events is far less frequent than is the case upon administration of antibody preparations of animal origin. As with all blood-derived products, the serum from which the immunoglobulins are due to be purified is first assayed for the presence of infectious agents before its use. 

King, D.P. et al., The use of monoclonal antibodies specific for seal immunoglobulins in an enzyme-linked immunosorbent assay to detect canine distemper virus-specific immunoglobulin in seal plasma samples, J. Immuno. Methods, 160, 163, 1993. 

Niewola et al. [183, 185] have described a rapid, convenient and accurate method, based upon an enzyme-based immunosorbent assay (ELISA) for the determination of Paraquat residues in soil. Polystyrene plates, coated with paraquat-keyhole limpet haemocyanin (KLH) conjugate, are incubated with the test samples and a known amount of monoclonal antibody. Residual antibody that has not reacted with free Paraquat in the sample combines with paraquat-KLH on the plate. The determination of the fixed antibody is achieved by the addition of peroxidase labelled rabbit antimouse immunoglobulin G followed by reaction with a chromogenic substrate. The enzyme activity of the solid phase is determined from the absorbance measurements, which are inversely proportional to the concentration of Paraquat. The method shows high specificity and correlates well with the traditional ion exchange-spectrophotometric method for the determination of Paraquat [178]. 

---