Hapten, preparation

Figure 2. Timeline illustrating the relationship among the various assay development and implementation steps. It is critical that hapten preparation occur first. However existing assays can be improved by rational improvements in reagents or format. Once a validation study is undertaken, it is important to use a constant format and reagent set.

Immobilization of A and B blood group oligosaccharide haptens and preparation of immunoadsorbents with specificity to anti-A and anti-B antibodies has been carried out with the use of poly acrylate-coated PG (WPG-PA) [124]. Prespacered A and B-trisaccharide-fl-aminopropylglycosides were used for the synthesis. WPG-PA (1 g) quantitatively binds both haptens (2 pinole) whereas some other activated affinity supports (for example, CNBr-Sepharose 4B) do not. On the other hand, glycidoxypropyl-silica binds prespacered haptens completely but these materials reveal no specific adsorptivity. 

The reaction product 136 is not an appropriate hapten for generating catalytic antibody as it does not closely resemble the reaction intermediate 135. Antibody 1E9 was prepared against hapten 137, a stable analog of 135, and the catalyst promoted the Diels-Alder reaction with multiple (> 50) turnovers. 

Fig. 3. Haptens and multivalent antigens prepared in this syudy. The viologen derivative, 4,4 -bipyridinium, l-(carboxypentyl)-l -methyl-dichloride (1), divalent antigen 2, and trivalent antigen 3. Anti-porphyrin antibodies were elicited for [5-(4-carboxyphenyl)-10,15,20-tris-(4-methylpyridyl)]porphine (3MPylC) or meso-tetrakis(4-carboxyphenyl)porphine (TCPP). meso-Tetrakis(4-methylpyridyl)porphine (TMPyP) was used to investigate the specificity of the antibody dendrimer for porphyrins...

Scheme 4. Antibody dendrimers prepared by the combination of IgM with IgG attached hapten to the carbohydrate moiety in the Fc fragment... 

A domino RCM of an ene-yne was also used by Granja and coworkers [250] for their synthesis of the B-bishomo-steroid analogue 6/3-70. Reaction of the substrate 6/3-69 with the ruthenium catalyst 6/3-13 led to 6/3-70 in 48% yield as a 6.5 l-mix-ture of the two C-10-epimers (Scheme 6/3.20). The aim of this study was to prepare haptenes for the production of catalytic monoclonal antibodies that could be used to study the mechanism of the physiologically important transformation of previtamin D3 into vitamin D3 [251]. 

SMCC frequently is used to prepare hapten-carrier or antibody-enzyme conjugates. In both applications, one of the molecules is activated (usually the carrier or the enzyme) with the... 

This chapter describes the design, preparation, and use of hapten-carrier conjugates used to elicit an immune response toward a coupled hapten. The chemical reactions discussed for these conjugations are useful for coupling peptides, proteins, carbohydrates, oligonucleotides, and other small organic molecules to various carrier macromolecules. The resultant conjugates are important in antibody production, immune response research, and in the creation of vaccines. 

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