To assess the sensitivity of the RCA-based assay, RCA was initial

To assess the sensitivity of the RCA-based assay, RCA was initially performed on 10-fold serial dilutions of the target template (PCR product; see Methods) ranging from 1011 to 100 copies of template. For all isolates studied, a clear RCA fluorescence signal was observed with a sensitivity of detection of 109 copies; below this copy number, the signal was not easily distinguishable from the background signal (as defined when amplifying target template that did not have the mutation of interest) (Figure 2). Only signals that were clearly measurable above background were considered

to be indicative of the presence of the mutation. Figure 2 Sensitivity of the RCA assay. RCA was performed on 10-fold ISRIB research buy serial dilutions of the target template ranging from 1011 to 100 copies of target template (PCR product). The figure

illustrates the RCA reaction using the TPX-0005 order Ca-Y132H-specific probe to OSI744 detect 1011, 1010 and 109 copies of the template containing the Y132H mutation (obtained from amplifying DNA from isolate C594). RCA signals are shown as exponential increases in florescence signal above baseline (indicated by the “”negative signal”" label and defined as the signal obtained when amplifying target template that did not have the mutation of interest). The intensity of the signal weakened with decreasing copy numbers starting at 1011copies and the sensitivity of the assay corresponded to a concentration of 109copies of target

template. The capability of the RCA assay to detect heterozygous, as well as homozygous ERG11 nucleotide changes was assessed RANTES indirectly by testing its ability to detect a specific mutation in the presence of wild-type template (ie. template without the mutation of interest) using the eight “”reference”" isolates. For each of the known ERG11 mutations (Table 1), target template (1011 copies) containing the mutation at 100%, 50%, 20%, 10%, 5%, 2% and 0% concentration in a backdrop of wild-type template were prepared by mixing both templates at the above-mentioned ratios. In all cases, a clear RCA signal above background was observed down to a dilution containing 5% target template (Figure 3); results were reproducible with minimal or no variation in repeat (n = 3) experiments. The results demonstrate that the RCA assay was able to detect ERG11 mutations with high sensitivity in the presence of mixtures of DNA and that the sensitivity was well above that required to detect heterozygous nucleotide changes (expected ratio of target template (with mutation) to template without mutation of 1:1)). Figure 3 Sensitivity of the RCA assay in the presence of DNA mixtures. The accumulation of double-stranded DNA was detected by staining with Sybr green I.

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