Small regions (133–136 nt) of the invA, buy GSK1120212 prot6E and fliC genes were used as target sequences for the detection of Salmonella spp. S. Enteritidis and S. Typhimurium, Alpelisib datasheet respectively. The primers and the molecular beacons
were designed based on sequences of the above genes found in the GenBank database http://www.ncbi.nlm.nih.gov/Genbank/index.html using BLAST [45]. The molecular beacons, target oligonucleotides and primers were synthesised by MWG-Biotech AG Ltd (Ebersberg, Germany) and the Midland Certified Reagent Company, Incorporated (Texas, USA). For the stem formation, the ends of each beacon were designed to have a high GC content and to be complementary to each other. All beacons were labelled with DABCYL, i.e., 4′-(4′-dimethylaminophenylazo) benzoic acid at the 3′ end and with one of four fluorophores at the 5′ end. Molecular beacon MBinvA, was labelled with the fluorophore FAM (Fluorescein); MBprot6E with TET (Tetrachloro-6′-carbofluorescein); MBfliC with HEX (hexachlorofluorescein);
and MBIAC, with ROX (6′-carboxy-X-rhodamine). Within the loop element, each beacon contains a 22–25 nucleotide-long probe sequence complementary to the target. In addition to the probe sequence, each beacon has 4–5 of the 12 bases of its two arms also complementary to the target. In this non-traditional way, once the beacon
is in the open structure, it binds more forcefully see more to the target and the hybrid formed is more stable, and the maximum distance possible between fluorophore and quencher is created. Thermal denaturation characteristics of the molecular beacons To assess the thermodynamic characteristics, the quality and the purity of the molecular beacons used in this study, a melting curve analysis was performed on each using the 7900 HT Fast Real-Time PCR System (Applied Tolmetin Biosystems, Foster City, CA, USA). Briefly, the reaction consisted of a 25 μl solution containing 12.5 μl Platinum® PCR Supermix (Invitrogen), 1 μl of the beacon probe at the appropriate concentration with or without 1 μl (100 pmol) of a single-stranded oligonucleotide perfectly complementary to the probe. The cycling parameters were as follows: 1 cycle for 2 min at 95°C followed by 50 cycles, each consisting of the data collection step for 30 s and a second step for 10 s, each starting at 80°C and employing auto-incrementation of -1°C per half-minute cycle until 31°C. Changes in fluorescence were measured at 490 nm and the data was collected at each temperature interval. PCR target standards synthesis, amplification and quantification PCR target standards of the fliC, invA, prot6E and IAC target sequences were synthesised by PCR amplification using long overlapping primers.