The bumblebee, Bombus terrestris, has played an important role as one of the alternative pollinators since the outbreak of honeybee collapse disorder. Recently, pathogens and parasites such as viruses, bacteria and mites, which affect the life span and fecundity of their host, have been discovered in B. terristris. In order to detect the microsporidian pathogen, Nosema Spp. in the field populations of B. terristris, we collected adults and isolated their genomic DNA for diagnostic PCR. The PCR primers specific for Nosema Spp. were newly designed and applied to gene amplification for cloning. Only small subunit ribosomal RNA(SSU rRNA) gene of N. ceranae was successfully amplified and sequenced among examined genes, which indicates that N. ceranae mainly infects the examined field population of B. terristris. To detect of SSU rRNA gene, two regions of SSU rRNA gene were selected by primary PCR analysis and further analyzed in quantitative real-time PCR(qRT-PCR). The qRT-PCR analysis demonstrated that SSU rRNA of N. ceranae was detected at concentrations as low as 0.85 ng/μl genomic DNA. This result suggests that the detection via qRT-PCR can be applied for the rapid and sensitive diagnosis of N. ceranae infection in the field population as well as risk assessment of B. terristris.

• Na Rae Choi(Department of Biology, Kyungsung University)
• Yun Jeong Hwang(Department of Biology, Kyungsung University)
• Young Bin Jeon(Department of Biology, Kyungsung University)
• Yu Ni Seo(Department of Biology, Kyungsung University)
• Chuleui Chung(Department of Plant Medicine, Andong National University)
• Dae-Weon Lee(Department of Biology, Kyungsung University)