A novel, sensitive colorimetric test is described for quantification of the initial number of hepatitis B virus (HBV) genomes amplified in PCR. The viral genomes are amplified together with a synthetic internal standard (IS) to correct for the variability of the efficiency factor. One of the two primers is biotinylated, and the amplified mixtures of HBV and IS DNAs are bound to streptavidincoated microtiter plates for quantitative detection. The ratio of HBV to IS DNA is determined for each sample by hybridization with DNP-containing probes and immunoenzymatic detection. The colorimetric detection is quantitative, rapid, and accurate with a dynamic range from-1 0 8 to >1011 DNA molecules. The initial number of HBV genomes in a clinical sample is interpreted from the signal ratio HBV/IS by using a standard curve, obtained from coampliflcation of known quantities of synthetic HBV templates with IS. The assay quantified 15 viral genomes from 10 i~1 of serum, and its dynamic range was up to five orders of magnitude. After the amplification step, the assay takes ~2 hr, and the method is applicable to automation.
A hybridization technique for the quantification of nucleic acids is described. In the method a probe pair is allowed to form hybrids with the target nucleic acid in solution. One of the probes has been modified with an affinity label, by which the formed hybrids can be isolated after the reaction. Streptavidin-agarose was used to capture hybrids containing biotinylated DNA. The hybrids were measured using radioiodine as label on the second probe. The rate of the hybridization reaction in solution is fast, allowing the whole procedure to be carried out in 3 h. The method is quantitative with a detection limit of 4 X 10(5) molecules (0.67 attomoles) target DNA. The test is insensitive to impurities in biological samples, which are analyzed without purification of the target DNA. Non-isotopic measurement of the hybrids can also be applied. In this case the hybrids are bound to microtitration wells and detected spectrophotometrically by peroxidase-catalyzed colour development.
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