Quantitative real-time PCR (qPCR) is a fast and reliable method to quantify viral genomes as a surrogate to titering on monolayers of cells for measuring virus replication. Whether it be for determining the number of virions released, the total number of genomes produced during infection, or the number of virions bound to a cell, qPCR assays can be adapted to quickly enumerate total viral genomes in a broad range of experiments comparing virus replication under different conditions. In addition, qPCR offers several advantages compared to plaque assays including time, linearity over 9 logs, and scalability from tens-to-hundreds of samples, depending on the qPCR machine. Here we describe a qPCR assay for quantifying vaccinia virus' dsDNA genome that can be used to determine the total number of virions produced. Furthermore, we describe a straightforward protocol for a cell-binding assay that is sensitive enough to use with small concentrations of inoculating virions. This protocol is suitable for measuring the cell-binding ability of mutations that affect virus production and infectivity.
Keywords: Cell-binding assay; Genome quantification; Monkeypox virus; Orthopoxvirus; Quantitative PCR; Vaccinia virus; Virion quantification.
© 2025. The Author(s), under exclusive license to Springer Science+Business Media, LLC, part of Springer Nature.