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A Semi-Quantitative Isothermal Diagnostic Assay Utilizing Competitive Amplification

Christopher P. Mancuso, Zhixiang Lu, Jason Qian, Sarah A. Boswell, Michael Springer

2021Analytical Chemistry21 citationsDOIOpen Access PDF

Abstract

Quantitative diagnostics that are rapid, inexpensive, sensitive, robust, and field-deployable are needed to contain the spread of infectious diseases and inform treatment strategies. While current gold-standard techniques are highly sensitive and quantitative, they are slow and require expensive equipment. Conversely, current rapid field-deployable assays available provide essentially binary information about the presence of the target analyte, not a quantitative measure of concentration. Here, we report the development of a molecular diagnostic test [quantitative recombinase polymerase amplification (qRPA)] that utilizes competitive amplification during a recombinase polymerase amplification (RPA) assay to provide semi-quantitative information on a target nucleic acid. We demonstrate that qRPA can quantify DNA, RNA, and viral titers in HIV and COVID-19 patient samples and that it is more robust to environmental perturbations than traditional RPA. These features make qRPA potentially useful for at-home testing to monitor the progress of viral infections or other diseases.

Topics & Concepts

Recombinase Polymerase AmplificationChemistryLoop-mediated isothermal amplificationNucleic acidComputational biologyDNABiologyBiochemistryBiosensors and Analytical DetectionSARS-CoV-2 detection and testingAdvanced biosensing and bioanalysis techniques
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