Abstract
Adaptation of the branched DNA signal amplification technology to flow cytometry has resulted in a quantitative nucleic-acid assay with significant advantages over the microwell-based format. In this assay, microbeads, rather than microwell plates, are derivatized with nucleic-acid capture probes and the derivatized beads are used to capture single nucleic-acid targets, which then capture fluorescent reporter probes via branched DNA. The assay detects DNA or RNA targets, has a current lower sensitivity limit of 500 human immunodeficiency virus (HIV) RNA molecules and responds linearly to target level from 500 to at least 50 000 molecules. Since microbeads can easily interrogate large volumes, viral lysis and genomic RNA capture can proceed in one step from comparatively large volumes, and sample preparation is greatly simplified compared to the microwell-format bDNA assay.
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