A chemical method for labeling of oligonucleotide probes with europium chelates is presented. A modified deoxycytidine phosphoramidite is used to introduce multiple reactive amino groups to the oligonucleotide during the synthesis phase. Upon deprotection and purification of the modified oligonucleotide, an isothiocyanate derivative of a stable Eu chelate is reacted with the primary amino groups. The labeling technology enables the coupling of a high number of Eu chelates to a single probe. The melting temperatures and hybridization efficiencies of the oligonucleotides are not significantly altered by the labeling process. However, hybridization kinetics of the oligonucleotides are affected by the introduction of multiple modified deoxycytidine residues. In a solid-phase hybridization assay up to 10(7) target molecules can be detected.
We describe a novel assay for detection of point mutations. The method combines the specificity and sensitivity of the polymerase chain reaction (PCR) and allele-specific oligonucleotides (ASO) with highly sensitive time-resolved fluorometry. ASO probes differing by a single base substitution and labeled with europium (Eu) chelates were hybridized in solution simultaneously with a biotinylated oligomer to a PCR-amplified nucleic acid fragment. The hybrids formed were then collected onto streptavidin-coated microtitration wells. Subsequently, the hybrids were washed under stringent conditions and the remaining ASO probe was measured in a time-resolved fluorometer. We discuss the strategy underlying the design of the Eu-labeled ASO probes for the solution hybridization assay. The method was applied to the detection of the Z-mutation in the alpha 1-antitrypsin gene. Evaluation of whole-blood samples spotted on Guthrie cards demonstrated successful accuracy of the method.
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