Substrates chemiluminescent

Mouse antibodies Antimouse antibodies Mixing of analyte with antibodies labeled with horseradish peroxidase, electrophoretic separation of the noncomplexed antibody, detection of label via mixing with enzyme substrates Chemiluminescence... 

Red) Luminol, enhanced luminol Lumigen PS substrates Chemiluminescent Chemiluminescent excitation, 590 nm emission... 

Clinical Analysis. A wide range of clinically important substances can be detected and quantitated using chemiluminescence or bioluminescence methods. Coupled enzyme assay protocols permit the measurement of kinase, dehydrogenase, and oxidases or the substrates of these enzymes as exemplified by reactions of glucose, creatine phosphate, and bile acid in the following ... 

Chemiluminescence and bioluminescence are also used in immunoassays to detect conventional enzyme labels (eg, alkaline phosphatase, P-galactosidase, glucose oxidase, glucose 6-phosphate dehydrogenase, horseradish peroxidase, microperoxidase, xanthine oxidase). The enhanced chemiluminescence assay for horseradish peroxidase (luminol-peroxide-4-iodophenol detection reagent) and various chemiluminescence adamantyl 1,2-dioxetane aryl phosphate substrates, eg, (11) and (15) for alkaline phosphatase labels are in routine use in immunoassay analyzers and in Western blotting kits (261—266). 

Chemiluminescent labels, in which the luminescence is generated by a chemical oxidation step, and bioluminescent labels, where the energy for light emission is produced by an enzyme-substrate reaction, are additional labeling types (39,42). Luminol [521 -31 -3] CgHyN202, and acridine [260-94-6] C H N, derivatives are often used as chemiluminescent labels. 

Though we and others (27-29) have demonstrated the utility and the improved sensitivity of the peroxyoxalate chemiluminescence method for analyte detection in RP-HPLC separations for appropriate substrates, a substantial area for Improvement and refinement of the technique remains. We have shown that the reactions of hydrogen peroxide and oxalate esters yield a very complex array of reactive intermediates, some of which activate the fluorophor to its fluorescent state. The mechanism for the ester reaction as well as the process for conversion of the chemical potential energy into electronic (excited state) energy remain to be detailed. Finally, the refinement of the technique for routine application of this sensitive method, including the optimization of the effi-ciencies for each of the contributing factors, is currently a major effort in the Center for Bioanalytical Research. 

Alkaline phosphatase-labeled probes are synthesized so that 18 bases are complementary to sequences on the arms of the bDNA. Three hybridization sites are located on each branch for a total binding capacity of 45 labeled probes per bDNA molecule. The alkaline phosphatase catalyzes the dephosphorylation of chemiluminescent substrate, dioxetane (Lumi-Phos Plus, Lumigen, Detroit, MI). The intensity of the light emission is measured with a plate luminometer as relative luminescent units. 

Light emission from the chemiluminescent substrate is directly proportional to the amount of the target nucleic acid in the sample, and the results are recorded as relative luminescence units (RLUs). All samples, standards, and controls are run in duplicate, and the mean RLU is used in data analysis. The percent coefficient of variation (%CV) for duplicate RLU for controls and samples must be within the recommended limit for that assay for the results to be valid. For example, negative samples must have a CV of <30% and positive samples <20% in the HCV assay. 

In the Hybrid-Capture assay (Digene), a full-length RNA probe is hybridized to denatured HBV DNA in solution and the hybrids are captured on the surface of a tube coated with anti DNA RNA hybrid antibody. The bound hybrids are reacted with antihybrid antibody labeled with alkaline phosphatase. A chemiluminescent substrate is converted to a luminescent compound by the bound alkaline phosphatase. Light emission is measured in a luminometer and the concentration of HBV DNA, in pg/ml, is determined from a standard curve. The concentrations of the standards are determined spectrometrically (A260nm/A280nm). 

The bioluminescence of the American firefly (Photinus pyralis) is certainly the best-known bioluminescent reaction, thanks to the work of Me Elroy and coworkers and E. H. White and his group (for references see P, p. 138, 6,168,169)) The substrate of this enzyme-catalyzed chemiluminescent oxidation is the benzothiazole derivative 107 (Photinus luciferin) which yields the ketone 109 in a decarboxylation reaction. The concept of a concerted cleavage of a dioxetane derivative has been applied to this reaction 170> (see Section II. C.). Recent experiments with 18C>2 have challenged this concept, as no 180-containing carbon dioxide was detected from the oxidation of 107 171>. 

In general, a chemiluminescent reaction can be generated by two basic mechanisms (Fig. 2). In a direct reaction, two reagents, usually a substrate and an oxidant in the presence of some cofactors, react to form a product or intermediate, sometimes in the presence of a catalyst. Then some fraction of the product or intermediate will be formed in an electronically excited state, which can subse-... 

The amino group can be diazotized for coupling to various substrates, as is done in CL immunoassay, without loss of the chemiluminescent properties of the cyclic hydrazide. 

Figure 4 Quartz microbalance electrode with a protein A-HRP conjugate immobilized on the gold surface, (a) Transmitted light image (b) chemiluminescent signal after addition of CL substrate (c) 3-D display of the light signal spatial distribution.

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. 

A CL ISH assay for the detection of human papillomavirus (HPV) DNA was developed, in which the hybridization reaction was performed using either digoxigenin-, biotin-, or fluorescein-labeled probes [64], The hybrids were visualized using AP as the enzyme label and a highly sensitive 1,2-dioxetane phosphate as chemiluminescent substrate. This assay was applied to biopsy specimens from different pathologies associated with HPV, which had previously proved positive for HPV DNA by polymerase chain reaction (PCR). The analytical sensitivity was assessed using samples of HeLa and CaSki cell lines, whose content in HPV DNA is known (10-50 copies of HPV 18 DNA in HeLa cells and 400-600 copies... 

Recently, two major enzyme-catalyzed chemiluminescent reactions have become popular. These use either luminol as a substrate of peroxidase or 3-(2 -spiroadamantane)-4-methoxy-4-(3"-phosphoryloxy)phenyl-1,2-dioxetane (AMPPD) as a substrate of alkaline phosphatase (ALP). 

AMPPD is the best chemiluminescent substrate for detecting an ALP-labeled probe [2, 3], The enhanced sensitivity of the chemiluminescence based on the reaction of AMPPD with ALP depends on the enzymatic reaction time (Fig. 2), because the slow kinetics of the signal decay result in the accumulation... 

Figure 4 Enzymatic reactions of BCI substrates and their chemiluminescent detection...

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. 

The enhanced chemiluminescence associated with the autoxidation of luminol (5-amino-2,3-dihydro-1,4-phthalazinedione) in the presence of trace amounts of iron(II) is being used extensively for selective determination of Fe(II) under natural conditions (149-152). The specificity of the reaction is that iron(II) induces chemiluminescence with 02, but not with H202, which was utilized as an oxidizing agent in the determination of other trace metals. The oxidation of luminol by 02 is often referred to as an iron(II)-catalyzed process but it is not a catalytic reaction in reality because iron(II) is not involved in a redox cycle, rather it is oxidized to iron(III). In other words, the lower oxidation state metal ion should be regarded as a co-substrate in this system. Nevertheless, the reaction deserves attention because it is one of the few cases where a metal ion significantly affects the autoxidation kinetics of a substrate without actually forming a complex with it. 

Briefly, the membrane is incubated in the appropriate buffer for the chemiluminescence substrate then placed on a glass plate and a thin layer of substrate solution is pipetted onto the membrane to completely cover the surface and allowed to incubate for the required time (usually... 

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