The number in parentheses indicates the amplicon length in bp (Fi

The number in parentheses indicates the https://www.selleckchem.com/products/Bleomycin-sulfate.html amplicon length in bp (Figure 5 B). Subjects in the figure are not in scale. Our second objective was to remedy a drawback of PCR’s inability to distinguish signals originated from live or dead cells, by combining the qPCR with PMA treatment. Recently, PMA has been used for differentiation of live cells in qPCR [16, 19–21, 24, 32, 34, 37, 38] However, several studies revealed that the inhibition of amplification of DNA of dead cells was incomplete [22, 23, 37, 39]. In order to improve the efficacy of PMA https://www.selleckchem.com/products/incb28060.html treatment, we evaluated the effect of amplicon length

on PMA-mediated inhibition of DNA amplification from dead cells by qPCR (Table 1). We found efficacy of PMA treatment appeared

to be well correlated to the amplicon length, which is in good agreement with the previous finding [23]. However, our results showed significant differences with their conclusion on efficiency of amplicon length, i.e. PMA-mediated suppression of DNA amplification from dead cells was incomplete with amplicons shorter than 190 bp [23]. With amplicon D (130 bp), we were able to achieve a C T value difference of 13.1 between the treated and untreated dead cells (Table 1). Although amplicon E (260 bp) generated a bigger C T value difference (15.44), the C T value for DNA of untreated dead cells increased from 18.34 to 21.19, reflecting about a 3-C T -value decrease in sensitivity of the PMA-qPCR assay (Table 1). BCKDHA find more This finding is of importance because it can give guidance for selection of primer pairs for the development of qPMA-PCR assays. There are no good theoretical explanations for this “amplicon length effect” associated with PMA treatment. It may be related to the mechanism of the PMA-treatment. When dead cells are treated with PMA, the DNA is blocked by covalent bonds and thus it cannot be amplified in PCR [38]. It could be understood that the larger an amplicon is, the longer the region that the polymerase needs to cover, the higher probability for the target DNA being blocked by a covalent bond (s). On the other hand, if the amplicon length is too

long (over 200 bp), the sensitivity of the qPCR will be compromised, resulting in lower sensitivity of the assay. This finding has significance to future designs of qPCR assay in general. Consumption of fresh produce including salads, lettuce, juice, melon, sprouts, and berries has been identified as important sources for Salmonella outbreaks [40]. It is important to accurately monitor live cells in food samples, because only live bacteria can cause disease [16]. We applied PMA-qPCR technology to selectively detect low numbers of live Salmonella cells in spiked spinach samples. This PMA-qPCR assay positively detected Salmonella in spinach spiked with 30 CFU/g at 4-h enrichment or from samples inoculated with 3 × 103 CFU/g without enrichment (Figure 3A).

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