Design and assessment of a real time reverse transcription-PCR method to genotype single-stranded RNA male-specific coliphages (Family Leviviridae).

A real-time, reverse transcription-PCR (RT-qPCR) assay was developed to differentiate the four genogroups of male-specific ssRNA coliphages (FRNA) (family Leviviridae). As FRNA display a trend of source-specificity (human sewage or animal waste) at the genogroup level, this assay provides a tool to help identify the origin of fecal contamination. Primers and probes were designed using complete genomic sequences from 29 FRNA phages. The final selection of primer/probe sets were based on (i) ability to amplify a single, specific product, (ii) genogroup specificity, (iii) lack of cross-reactivity, and (iv) experimental reproducibility and sensitivity over a range of target concentrations. Assay time was reduced by using heat-released viral RNA rather than purified RNA. For quality assurance, a custom RNA molecule was employed as an internal, non-competitive control. The usefulness of this method to identify sources of fecal contamination was tested on a total of 49 FRNA phages isolated from various warm-blooded animals, sewage and combined sewage overflow. FRNA phages from animal wastes were genotyped as 86% I, 4% III Q-like and 9% IV. Two sewage isolates typed to genogroup I and combined sewage overflow isolates genotyped as 40% II and 52% III. Primer specificity designed from this comprehensive sequence database may better discriminate FRNA from different sources.