A temperature

of 50°C was chosen as an optimal

A temperature

of 50°C was chosen as an optimal annealing temperature for subsequent real-time PCR studies. At this temperature the difference in fluorescence signal between beacon alone and beacon-target hybrids is large; in the absence of target any fluorescence detected is background level and the temperature is high enough to prevent less energetically favourable hybrids from forming, e.g., primer dimers or beacon-primer dimers. In the process of carrying out the melting DZNeP curve analysis for all beacons, different concentrations were tested, to find the appropriate concentration at which the fluorescence signal was neither too low nor saturated. The concentrations at which the particular beacons exhibited the desired

amount of fluorescence signal in these reactions PU-H71 were: MBIAC, 50 pmol/μl; MBinvA, 4.9 pmol/μl; MBprot6E, 4.4 pmol/μl; and MBfliC, 10 pmol/μl. Finally, these selleck inhibitor Thermal denaturation profiles illustrate the good quality of the molecular beacons and their efficiency in hybridising with the appropriate target sequence. Figure 1 Thermal denaturation profiles of the molecular beacons. Thermal denaturation profiles of the molecular beacons used in this study as established by melting curve analysis (described in Materials and Methods). The figure shows normalised fluoresence thermal transitions of molecular beacon plotted in pink circles and beacon-target complexes plotted in blue squares. Standard curves and limit of detection Standard curves were initially plotted to ensure the ability of each molecular beacon to detect its specific Salmonella target and the detection limit of the assay. The copy numbers of target standards used ranged from 101 to 106 copies per reaction. These plots represent how the amplification Etomidate of DNA progresses with each log increase of target copy number. The small standard errors calculated from multiple values of the threshold

cycle at which significant DNA amplification was observed (threshold cycle, CT) for each reaction and indicated on the graphs with horizontal lines above and below each plotted point, suggest that the PCR amplification is highly reproducible. The CT values for the target sequences depended on the initial DNA amount in each reaction as shown by the linear relationship of standard curves along a 6-log range which yields an R2 correlation value higher than 0.994 in all three cases (Fig. 2). The correlation was 0.995 with 76% efficiency for invA, 0.997 and 84% efficiency for prot6E and 0.999 and 100% efficiency for fliC. As the reactions worked well for all target standard concentrations tested, the lower limit of detection for the assay was set to be 10 copies of the required target fragment per reaction. Based on the standard curves and the limit of detection of this assay, negative results were defined as those exhibiting CT values higher than 45.

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