Bombus terrestris has played an important role in the pollination in agricultural fields for the alternatives in colony collapsing in the honeybee. Recently, some pathogens or parasites such as viruses, bacteria, mites have been discovered in B. terristris, which affects its life span and fecundity. In order to detect a microsporidian, Nosema apis. in the field population, we collected honeybees and isolated genomic DNA. PCR primers specific for 16S ribosomal RNA (16S rRNA) were synthesized and applied to gene amplification for cloning and quantitative real-time PCR (qRT-PCR). The amplified gene was cloned and sequenced to confirm the 16S rRNA gene. qRT-PCR analysis showed the detection limit of 16S rRNA of Nosema apis was approximately 0.5 ng/μl genomic DNA. This result suggests that detection via qRT-PCR can be applied for the diagnosis of pathogen infection.

A multiplex polymerase chain reaction (PCR) was developed for the simultaneous detection and differentiation among Nosema apis and Nosema ceranae in honeybee. Three sets of primers were selected from different genomic sequences to specifically amplify a 831 bp amplicon within the SSU rRNA gene, specific for both N. apis and N. ceranae (MSSR primer); a 375 bp amplicon within the SSU rRNA gene, specific for N. apis (NA primer); and a 1,131 bp amplicon within SSU rRNA gene, specific for N. ceranae (NC primer). Using the primers in conjunction (multiplex PCR) we were able to N. apis and N. ceranae and to differentiate between them. The sensitivity of this PCR assay was approximately 102 spores per milliliter. We proposed that the multiplex PCR was sensitive, specific and rapid tool that can serve as a useful differential diagnostic tool for detecting N. apis and N. ceranae in honeybee.

A multiplex polymerase chain reaction (PCR) was developed for the simultaneous detection and differentiation among Nosema apis and Nosema ceranae in honeybee. Three sets of primers were selected from different genomic sequences to specifically amplify a 831 bp amplicon within the SSU rRNA gene, specific for both N. apis and N. ceranae (MSSR primer); a 375 bp amplicon within the SSU rRNA gene, specific for N. apis (NA primer); and a 1,131 bp amplicon with in SSU rRNA gene, specific for N. ceranae (NC primer). Using the primers in conjunction (multiplex PCR) we were able to N. apis and N. ceranae and to differentiate between them. The sensitivity of this PCR assay was approximately 102spores per milliliter. We proposed that the multiplex PCR was sensitive, specific and rapid tool that can serve as a useful differential diagnostic tool for detecting N. apis and N. ceranae in honeybee.