Background: Paenibacillus larvae is the agent of the American Foulbrood disease (AFB), which may determine the death of the
hive. The detection strategy for its diagnosis is based on clinical signs of disease, isolation and identification of P. larvae, which
usually employs microbiological and biochemical methods. Recently, molecular methods based on analysis of 16S rDNA by
conventional PCR have been adopted, providing greater security and analytical speed. The rapid diagnosis is important to
minimize economic losses and assess routes of spread of the pathogen. Despite the strong existing sanitary control, P. larvae was
recently identified in the Brazilian states of Rio Grande do Sul and Paraná. After that, outbreaks have been reported in neighboring
countries. This investigation was conducted to develop a protocol for detection of P. larvae by real-time PCR, allowing the
reduction in the time of diagnosis, without loss of robustness found in the conventional PCR methods.
Materials, Methods & Results: Twenty-nine (29) P. larvae strains were evaluated by real-time PCR using SYBR Green. The
primers Pltr-F/R were designed according to the sequence X60619 of 16S rDNA gene published in GenBank, to amplify a
fragment of 74 base pairs. The target gene is highly conserved and specific to P. larvae. The amplification conditions consisted
of 1 cycle of 50°C for 2 min and 1 cycle of 95°C for 10 min, followed by 40 cycles of 95°C for 15 s and 60°C for 1 min. The
fluorescence was monitored during the annealing at 60°C. The reactions were conducted in a 7500 Real Time PCR System
equipment, using SYBRGreen PCR master mix (both Applied Biosystems), containing 2X Platinum SYBRGreen qPCR
Supermix-UDG. The concentrations of primers were 1, 10 and 100 mM, and different concentrations of MgCl2 (0,0 mM de
MgCl2, 1.0 mM de MgCl2, 2.0 mM de MgCl2 and 3.0 mM de MgCl2) were tested, with a final volume of 50 mL; 25 mL and 15
mL, containing a 5 mL sample. The analysis of the melting curve was made based on a 95°C for 15 s and 60°C for 20 s and one
cycle with temperature ranging between 60°C and 95°C for 20 min. The best results of sensitivity and specificity in the
reaction with SYBR Green were obtained with primer concentration set as 100 mM. The different concentrations of MgCl2
tested did not affect the performance of the reaction. No amplification was observed with DNA obtained from Paenibacillus
alvei or Bacillus species. The limit of detection was set as 6 pg of DNA template. The regression analysis of the CT values of the
PCR products showed a linear relationship between the initial amounts of DNA template and the values of CT (R2 = 0.9982),
indicating that the test is highly precise.
Discussion: The protocol developed allowed the unequivocal identification of P. larvae, as all strains were detected by this
approach. The amplification of the expected 16S rDNA gene fragment was verified by amplification with the primers Pltr F/R
only for chromosomal DNA of P. larvae. In addition, the amplicon specificity was verified by sequencing and no amplification
was observed when the primers were tested with DNA from other bacterial species. The protocol developed in this study proved
to be sensitive and specific, providing a rapid and accurate diagnostic tool. The results showed that the analysis by real-time PCR
of partial 16S rDNA gene of P. larvae represents an important alternative for rapid diagnosis of AFB disease. The use of this
methodology may represent an advance for rapid confirmation of the presence of this bacterium, what will allow the adoption of
control measures against AFB, which can avoid its spreading in Brazilian territory.