Simultaneous detection and quantification of 19 diarrhea-related pathogens with a quantitative real-time PCR panel assay.

Acute diarrheal diseases are causes of global public health concern, especially in developing countries. A variety of diarrhea-associated microbial species, including bacteria, viruses, and protozoa, have been recognized. Simplified methods for detecting a wide range of diarrheagenic enteric microbes can clarify the etiology and aid in the diagnosis of diarrheal diseases. Here, we report a quantitative real-time (q)PCR-based method for simultaneous detection of 24 targets from 19 microbes suspected of causing diarrhea in stool specimens. We first selected the 24 oligonucleotide primer sets and hydrolysis probes conjugated with the fluorescent reporter dyes FAM, NED, or ABY, along with an internal control, and the passive reference dye ROX to establish a single-plate panel assay. The 12-duplex qPCR panel showed high linearity, with R2 values of 0.981-1.0 and limits of detection ranging from 1 to 103 fg for bacterial DNA (1-200 cells), 10-102 copies for viral DNA/RNA, and 10 fg for parasitic DNA (equivalent to approximately 1 parasite) per reaction. The accuracy and robustness of the assay was demonstrated in experiments using clinical stool specimens. This platform is low cost and easily customizable, and can be applied to various types of qPCR instruments and experimental designs for surveillance of acute diarrhea.