Immunoassay biotin

Chemiluminescent Immunoassay. Chemiluminescence is the emission of visible light resulting from a chemical reaction. The majority of such reactions are oxidations, using oxygen or peroxides, and among the first chemicals studied for chemiluminescence were luminol (5-amino-2,3-dihydro-l,4-phthalazinedione [521-31-3]) and its derivatives (see Luminescent materials, chemiluminescence). Luminol or isoluminol can be directly linked to antibodies and used in a system with peroxidase to detect specific antigens. One of the first appHcations of this approach was for the detection of biotin (31). 

Bioluminescence can also be used as the basis for immunoassay. For example, bacterial luciferase has been used in a co-immobilized system to detect and quantify progesterone using a competitive immunoassay format (34), and other luciferase-based immunoassays have been used to quantify insulin, digoxin, biotin, and other clinically important analytes (35). 

A similar type of biotin-dendritic multimer also was used to boost sensitivity in DNA microarray detection by 100-fold over that obtainable using traditional avidin-biotin reagent systems (Stears, 2000 Striebel et al., 2004). With this system, a polyvalent biotin dendrimer is able to bind many labeled avidin or streptavidin molecules, which may carry enzymes or fluorescent probes for assay detection. In addition, if the biotinylated dendrimer and the streptavidin detection agent is added at the same time, then at the site of a captured analyte, the biotin-dendrimer conjugates can form huge multi-dendrimer complexes wherein avidin or streptavidin detection reagents bridge between more than one dendrimer. Thus, the use of multivalent biotin-dendrimers can become universal enhancers of DNA hybridization assays or immunoassay procedures. 

Dendrimer-biotin-carbonyl metallo immunoassay detection reagent... 

Figure 7.20 The multivalent surface of dendrimers can be used to couple biotin groups and labels for detection in immunoassays. One such conjugate was made by coupling NHS-biotin and a maleimido-iron chelate to an amine-dendrimer for use in an unique carbonyl metallo assay method.

The reagent also has been used in a unique tRNA-mediated method of labeling proteins with biotin for nonradioactive detection of cell-free translation products (Kurzchalia et al., 1988), in creating one- and two-step noncompetitive avidin-biotin immunoassays (Vilja, 1991), for immobilizing streptavidin onto solid surfaces using biotinylated carriers with subsequent use in a protein avidin-biotin capture system (Suter and Butler, 1986), and for the detection of DNA on nitrocellulose blots (Leary et al., 1983). 

Liposome conjugates may be used in various immunoassay procedures. The lipid vesicle can provide a multivalent surface to accommodate numerous antigen-antibody interactions and thus increase the sensitivity of an assay. At the same time, it can function as a vessel to carry encapsulated detection components needed for the assay system. This type of enzyme-linked immunosorbent assay (ELISA) is called a liposome immunosorbent assay or LISA. One method of using liposomes in an immunoassay is to modify the surface so that it can interact to form biotin-avidin or biotin-streptavidin complexes. The avidin-biotin interaction can be used to increase detectability or sensitivity in immunoassay tests (Chapter 23) (Savage et al., 1992). 

A common application for (strept)avidin-biotin chemistry is in immunoassays. The specificity of antibody molecules provides the targeting capability to recognize and bind particular antigen molecules. If there are biotin labels on the antibody, it creates multiple sites for the binding of (strept)avidin. If (strept)avidin is in turn labeled with an enzyme, fluorophore, etc., then a very sensitive antigen detection system is created. The potential for more than one labeled (strept)avidin to become attached to each antibody through its multiple biotinylation sites is the key to dramatic increases in assay sensitivity over that obtained through the use of antibodies directly labeled with a detectable tag. 

Salmain, M., Fischer-Durand, N., Cavalier L., Rudolf, B., Zakrzewski, J., and Jaouen, G. (2002) Transition metal-carbonyl labeling of biotin and avidin for use in solid-phase carbonyl metallo immunoassay (CMIA). Bioconjugate Cbem. 13, 693-698. 

Vilja, P. (1991) One- and two-step non-competitive avidin-biotin immunoassays for monomeric and het-erodimeric antigen./. Immunol. Meth. 136, 77. 

X. Mao, J.H. Jiang, J.W. Chen, Y. Huang, G.L. Shen, and R.Q. Yu, Cyclic accumulation of nanoparticles a new strategy for electrochemical immunoassay based on the reversible reaction between dethio-biotin and avidin. Anal. Chim. Acta 557, 159-163 (2006). 

Several qualitative and quantitative immunochemical methods for CAP analysis in biological matrices of animal origin have been described [101,102, 104,105] (see Table 3). Van de Water et al. [ 102] described an ELISA that detected CAP in swine muscle tissue with an IC50 value of 3 ng mL1. This immunoassay was improved and subsequently optimized incorporating the streptavidin-biotin amplification system. There are also several commercially available test kits (see Table 4). RIDASCREEN is a competitive enzyme immunoassay for the quantitative analysis of CAP residues in milk, eggs, and meat in a microtiter plate. The measurement is made photometrically, obtaining a LOD of 100 ng L 1 in meat and eggs and 150 ng L 1 in milk. The test has been also applied to the analysis of tetracyclines. 

INDYK HE et al. (2000), Determination of biotin and folate in infant formula and milk by optical biosensor-based immunoassay , JAOCS, 83(5), 1141-8. 

Fig. 12. Noncompetitive hapten immunoassay procedures (A and B) using a combination of the a-type and j6-type anti-idiotype antibodies, each recognizing the framework and paratope of the anti-hapten antibody. Anti-hap, anti-hapten antibody (primary antibody) a-Id, a-type anti-idiotype antibody /J-Id, /i-type anti-idiotype antibody S, signal-generating group B, biotin SA, streptavidin.

We (K1) attempted to develop a noncompetitive assay based on the anti-idiotype antibodies for a conjugated bile acid metabolite, ursodeoxycholic acid 7-A-acetyl-glucosaminide (UDCA 7-NAG), which is expected to serve as a diagnostic index for an autoimmune disease, primary biliary cirrhosis. In our assay, the hapten UDCA 7-NAG, a /3-type antibody, and a biotin-labeled a-type antibody were simultaneously added to a microtiter plate coated with an F(ab )2 fragment of a specific anti-UDCA 7-NAG antibody, then incubated at room temperature for 8 h. Bound biotin was then detected with HRP-labeled streptavidin, whose enzyme activity was measured using o-phenylenediamine/H202 as a substrate. This noncompetitive assay system provided a subfemtomole-order sensitivity (detection limit 118 amol) that was 7 times lower than the competitive immunoassay using the same anti-hapten antibody (K2), even with a common colorimetric detection (Fig. 13). Somewhat improved specificity was also obtained namely, better... 

Universal haptens, suitable especially in immunohistochem-istry, dot blots. Western blots, or other kinds of immunoassays, are, for instance, biotin, fluorescein, or digoxigenin. 

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