Antibody biotin-labeled

An interleukin ELISA kit comprising a capture antibody, biotin-labelled secondary antibody, and interleukin IB (IL-1B, part 840170, R D Systems, Abingdon, UK). 

Secondary antibody biotin-labeled goat anti-mouse immunoglobulin (Vector Laboratories, Burlingame, CA), at appropriate dilution. 

Fig. 34 Functionalisation of bait peptides. I Gold-labelled streptavidin is attached directly. 2 Biotin-labelled anti-FLAG antibody is bound to the FLAG on the peptide (reaction b) and this is used to attach gold-labelled streptavidin (reaction d). Reprinted with permission from Ryadnov and Woolfson [76]. Copyright 2004 American Chemical Society...

The LANCE cAMP assay is a competitive assay in which cAMP produced by the cells competes with fluorescent-labeled acceptor cAMP for a cryptate tagged donor antibody. The principal of the assay is shown in Fig. 6. On the left strepta-vidin conjugated Europium binds to biotinylated cAMP. An antibody labeled with the fluorescent dye Alexa binds to the cAMP, bringing the donor and acceptor into close proximity, and energy transfer occurs. When the cell releases cAMP, it competes with the biotin-labeled cAMP for the antibody, and a signal decrease is observed. In the TR-FRET assay the antibody is directly labeled with either Eu or Tb. In this format an increase in cAMP also causes a decrease in signal. 

The presence of biotin labels on an antibody molecule provides multiple sites for the binding of avidin or streptavidin. If the biotin binding protein is in turn labeled with an enzyme, fluoro-phore, etc., then a very sensitive detection system is created. The potential for more than one labeled (strept)avidin to become attached to each antibody through multiple biotinylation sites provides an increase in detectability over antibodies directly labeled with a detectable tag. 

R.J. Pei, Z.L. Cheng, E.K. Wang, and X.R. Yang, Amplification of antigen-antibody interactions based on biotin labeled protein—streptavidin network complex using impedance spectroscopy. Biosens. Bioelectron. 16, 355—361 (2001). 

In the method shown in Figure 9A, a biotin-labeled cDNA probe is first immobilized to a polyvinylchloride microtiter plate well that is coated with bio-tinylated-bovine serum albumin [33], The target DNA is hybridized in the liquid-phase with a digoxigenin-labeled probe, so that the biotin-labeled probe can capture a marker enzyme. An antibody-conjugated enzyme is then added, followed by a chemiluminescent substrate. 

Notes. When using biotin-labeled secondary antibodies instead of enzyme-labeled antibodies, you have first to detect biotin with enzyme-labeled (strept) avidin and proceed further with the Substrate Step (9). Do not add normal serum, non-fat dried milk, culture media or other potential sources of biotin to (strept)avidin-containing reagents. This may result in reduced sensitivity. Solutions containing sodium azide or other inhibitors of peroxidase activity should not be used in diluting the peroxidase substrate. 

When using biotin-labeled secondary antibody, you have first to visualize biotin with a fluorophore-labeled (strept)avidin employing ABC technique (see Sect. 6.2.1), before proceeding to counterstaining (step 7). 

The technique described here is for use with monoclonal primary antibodies of mouse origin, but can easily be adapted for use with polyclonal antibodies from other species (i.e., rabbit). This method uses a secondary biotin-labeled antibody and a detection system that employs a biotin-avidin horseradish peroxidase complex linker step, the so-called ABC (avidin-biotin complex) detection system (5) (see Chapter 25). In this detection system, avidin acts as a bridge between the biotinylated secondary antibody and a biotin-labeled peroxidase enzyme. The anchored enzyme, in the presence of H2O2 can then convert the substrate, diaminobenzidine, to a brown or black reaction product that is easily identifiable in the tissue section. 

If the antigen of interest is abundant and additional sensitivity is not required, then a two-step direct method, rather than a three-step indirect method, can be anployed. With the two-step method, the primary antibody is a biotin-labeled mouse monoclonal antibody, which is followed directly by the ABC incubation step. Because of the abundance of human immunoglobulins in tissue sections, methods for staining immunoglobulin often employ biotin-labeled mouse antihuman immunoglobulin reagents. 

Ol. Olsson, T., Kostulas, V., and Link, H., Improved detection of oligoclonal IgG in cerebrospinal fluid by isoelectric focusing in agarose, double-antibody peroxidase labeling, and avidin-biotin amplification. Clin. Chem. 30/7, 1246-1249 (1984). 

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... 

When one or more of the desired antibodies is not available as a direct conjugate and a conjugate cannot be synthesized, indirect methods have to be used. The simplest variation is to use a biotin-labeled antibody as a first layer, and then after washing the cells, incubate with fluorochrome-labeled streptavidin, and additional directly labeled antibodies labeled with complementary fluoro-chromes. The additional streptavidin step does not usually cause difficulty... 

The low-molecular-weight vitamin biotin is easily conjugated to antibodies and enzyme markers. Up to 150 biotin molecules can be attached to one antibody molecule, and the strong affinity of the biotin for the glycoprotein avidin allows its use as complex-ing secondary reagents. Biotin labeling of the primary (direct) or secondary (indirect) antibody can be used in the avidin-biotin methods. In the labeled avidin method the tracer is attached directly to the avidin molecule. In the avidin-biotin bridge method a biotinylated enzyme such as peroxidase is allowed to bind after attachment of avidin to the biotin-labeled antibody. 

A new round of second antibodies labeled with a fluorophore other than that in step 6 is applied. Alternatively, a triple-layer method employing a second layer of biotin-labeled antiimmunoglobulins followed by fluorescence-labeled strepta-vidin can be used. 

The sections are treated with H202 and then incubated in the primary antibody at a dilution of 1 50. This is followed by sequential incubation in the biotinylated antimouse antibody and streptavidin-biotin-labeled complex. DAB is used for 5 min as the chromogen, and the sections are lightly counterstained with hematoxylin. Positive controls involve the use of the tissue known to express the antigen under study. Negative controls involve the replacement of the primary antibody with the diluent alone or with a non-immune serum. 

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