A viability qPCR dilemma: Are longer amplicons better?

The development of viability qPCR (v-qPCR) has allowed for a more accurate assessment of the viability of a microbial sample by limiting the amplification of DNA from dead cells. Although valuable, v-qPCR is not infallible. One of the most limiting factors for accurate live/dead distinction is the length of the qPCR amplicon used. However, no consensus or guidelines exist for selecting and designing amplicon lengths for optimal results. In this study, a wide range of incrementally increasing amplicon lengths (68-906 bp) was used on live and killed cells of nine bacterial species treated with viability dye (PMA). Increasing amplicon lengths up to approximately 200 bp resulted in increasing quantification cycle (Cq) differences between live and killed cells, while maintaining a good qPCR efficiency. Longer amplicon lengths, up to approximately 400 bp, further increased Cq difference, but at the cost of qPCR efficiency. Above 400 bp, no valuable increase in Cq differences was observed.ImportanceViability qPCR (v-qPCR) has evolved to a valuable, mainstream technique for determining the number of viable micro-organisms in samples by qPCR. Amplicon length is known to be positively correlated with the ability to distinguish between live and dead bacteria but is negatively correlated with qPCR efficiency. This trade-off is often not taken into account and might have an impact on the accuracy of v-qPCR data. Currently there is no consensus on the optimal amplicon length. This paper provides methods to determine the optimal amplicon length and suggests an amplicon length range for optimal v-qPCR, taking into consideration the trade-off between qPCR efficiency and live-dead distinction.