Development of Quantitative Real-time PCR and Loop-mediated Isothermal Amplification (LAMP) Assays for Detection of Microsporidium seriolae

Abstract

Beko disease, caused by the Microsporidium seriolae infection, has been a problem in yellowtail aquaculture in western Japan. ​In recent years, severe cases of this disease have been confirmed, resulting in a significant decrease in product value due to mass mortality and residual cysts. ​Only polymerase chain reaction (PCR) assays have been reported so far as a detection method for the disease. ​In this study, quantitative real-time PCR (qPCR) and loop-mediated isothermal amplification (LAMP) methods have been optimized for M. seriolae detection in order to establish a more sensitive and rapid diagnosis. ​Target regions for each detection method were selected based on the nucleotide sequences obtained by the gene analysis of cysts in diseased fish. ​Primer sets for the qPCR and LAMP methods were designed, and the gene amplification efficiency of each method was evaluated. ​The results showed that the newly developed qPCR method could detect 1.4 copies of the target gene, and the LAMP method detected 100 copies within 15 minutes. ​In this study, the newly developed qPCR and LAMP assays were shown to be rapid and highly sensitive methods for quantitative detection of M. seriolae.