Conjugates phosphatase

An enzyme-amplified detection scheme, based on tire coupling of a streptavidin-alkaline phosphatase conjugate and biotinylated target sequences was then applied. The enzyme catalysed the hydrolysis of the elecn oiiractive a-naphthyl phosphate to a-naphtlrol this product is elecU oactive and has been detected by means of differential... [Pg.15]

Figure 3 Immuno localization of acetyl esterase. Sections were incubated with antibodies raised against the acetyl esterase, followed by visualization with alkaline phosphatase conjugated secondary antibodies and staining with Fast Red.

Reaction with avidin-labeled alkaline phosphatase (AP)-biotin conjugate... [Pg.156]

Liver function, including AST, ALT, alkaline phosphatase, lactate dehydrogenase (LDH), total and conjugated bilirubin a comprehensive metabolic panel can be ordered (i.e., sodium, potassium, chloride, bicarbonate, blood urea nitrogen, creatinine, glucose, calcium, AST, ALT, alkaline phosphatase, albumin, and total bilirubin), but phosphorus, magnesium, and fractionated... [Pg.1508]

Dendrimer-Alkaline Phosphatase Conjugate via thioether linkage... [Pg.375]

Figure 7.18 Amine-containing dendrimers can be activated with epibromohydrin to result in the formation of reactive epoxy groups on the dendrimer surface. This reactive intermediate then can be used to conjugate with thiol-containing proteins, such as thiolated alkaline phosphatase. The reaction results in the formation of a thioether bond.

The major enzymes used in ELISA technology include horseradish peroxidase (HRP), alkaline phosphatase (AP), (3-galactosidase (P-gal), and glucose oxidase (GO). See Chapter 26 for a detailed description of enzyme properties and activities. HRP is by far the most popular enzyme used in antibody-enzyme conjugates. One survey of enzyme use stated that HRP is incorporated in about 80 percent of all antibody conjugates, most of them utilized in diagnostic assay systems. [Pg.787]

Perhaps the most common conjugates of (strept)avidin involve attaching enzyme molecules for use in ELISA systems. As in the case of antibody-enzyme conjugation schemes (Chapter 20), by far the most commonly used enzymes for this purpose are HRP and alkaline phosphatase. Other enzymes such as (3-galactosidase and glucose oxidase are used less often, especially with regard to assay tests for clinically important analytes (Chapter 26). [Pg.905]

If P-galactosidase is used to conjugate with an SMCC-activated (strept)avidin, then there is no need to thiolate the enzyme, since it contains sulfhydryls in its native state (Fujiwara et al., 1988 Sivakoff and Janes, 1988). For conjugations using HRP, alkaline phosphatase, or glucose oxidase, however, thiolation is necessary to add the requisite sulfhydryls. [Pg.908]

Alkaline phosphatases [AP, orthophosphoric-monoester phosphorylase (alkaline optimum) EC 3.1.3.1] represent a large family of almost ubiquitous isoenzymes found in organisms from bacteria to animals. In mammals, there are two forms of AP, one form present in a variety of tissues and another form found only in the intestines. They share common attributes in that the phosphatase activity is optimal at pH 8-10, is activated by the presence of divalent cations, and is inhibited by cysteine, cyanides, arsenate, various metal chelators, and phosphate ions. Most conjugates created with AP utilize the form isolated from calf intestine. [Pg.963]

Reduction of the cystamine-labeled oligo using a disulfide reducing agent releases 2-mer-captoethylamine and creates a thiol group for conjugation (Figure 27.6). DNA probes labeled in this manner have been successfully coupled with SPDP-activated alkaline phosphatase (Chapter 26, Sections 1.2 and 2.5), maleimide-activated horseradish peroxidase (HRP) (Chapter 26, Section 1.1), NHS-LC-biotin (Chapter 11, Section 1 and Chapter 27, Section 2.3), and the fluorescent tag AMCA-HPDP (Chapter 9, Section 3 and Chapter 27, Section 2.5). [Pg.981]

Alkaline Phosphatase Conjugation to Cystamine-Modified DNA Using Amine- and Sulfhydryl-Reactive Heterobifunctional Crosslinkers... [Pg.993]

Alkaline Phosphatase Conjugation to Diamine-Modified DNA Using DSS... [Pg.994]

Conjugation of SFB-Modified Alkaline Phosphatase to Bis-Hydrazide-Modified Oligonucleotides... [Pg.998]

Farmer, J.C., and Castaneda, M. (1991) An improved preparation and purification of oligonucleotide-alkaline phosphatase conjugates. Bio. Tech. 11, 588-589. [Pg.1062]

Ford, D.J., Radin, R., and Pesce, A.J. (1978) Characterization of glutaraldehyde coupled alkaline phosphatase-antibody and lactoperoxidase-antibody conjugates. Immunochemistry 15, 237. [Pg.1063]

Jablonski, E., Moomaw, E.W., Tullis, R.H., and Ruth, J.L. (1986) Preparation of oligo-deoxynucle-otide-alkaline phosphatase conjugates and their use as hybridization probes. Nucleic Acids Res. 14, 6115-6129. [Pg.1078]

Jeanson, A., Cloes, J.M., Bouchet, M., and Rentier, B. (1988) Preparation of reproducible alkaline phosphatase-antibody conjugates for enzyme immunoassay using a heterobifunctional linking agent. Anal. Biochem. 172, 392. [Pg.1078]

Anti-tumor effects of antibody-alkaline phosphatase conjugates in combination with etoposide phosphate. Proc. Natl. Acad. Sci. USA 85, 4842. [Pg.1112]

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