Factors affecting the performance of 5' nuclease PCR assays for Listeria monocytogenes detection.

The design and operating parameters affecting the performance of 5' nuclease PCR (TaqMan) assays for the detection of Listeria monocytogenes was investigated. A system previously developed and based on the hlyA gene was used as a model [Appl. Environ. Microbiol. 61 (1995) 3724]. A series of fluorogenic probes labeled with a reporter and a quencher dye was synthesized to explore the effect of probe position and sequence content on the efficiency of probe hydrolysis. In addition, a series of PCR primer pairs that altered the distance between the upstream primer and the interceding probe was examined. The effects of various assay parameters were evaluated by measuring the ratio of the fluorescence intensity of the reporter dye over the quencher dye (deltaRQ). For a given probe sequence, the deltaRQ was typically lower if the 5' terminus was a G residue. Decreasing the probe concentration increased the deltaRQ, although this was at the expense of reproducibility in the assay readout. The distance between the upstream primer and the interceding probe has a significant effect on probe hydrolysis. Reducing the primer-probe distance from, for example, 127 to 4 nt increased the deltaRQ from 2.87 to 5.00. These general rules were used to develop a 5' nuclease PCR (TaqMan) assay with enhanced signal output, providing higher and more reproducible deltaRQ values for L. monocytogenes detection.

The world-wide distribution of allele frequencies at the human dopamine D4 receptor locus.

The dopamine D4 receptor gene (DRD4) has an expressed polymorphism in the third exon that may have functional relevance. The polymorphism exists at two levels. At the higher level there is an imperfect tandem repeat of 48 base pairs (bp) coding for 16 amino acids; alleles have been identified with 2 (32 amino acids) to 10 (160 amino acids) repeats. The imperfect nature of the repeats is responsible for a more subtle level of variation since alleles with the same number of repeats can differ in the exact sequences or in the order of the variants of the 48-bp unit. We have undertaken a global survey of this expressed polymorphism as one approach to understanding the evolutionary significance and origins of the polymorphism as well as understanding what selective forces, if any, may be operating at this locus. As the first step, we have determined the repeat number genotype of the DRD4 repeat polymorphism in 1,327 individuals from 36 different populations. The allele frequencies differ considerably among the different populations. The 4-repeat allele was the most prevalent (global mean allele frequency = 64.3%) and appeared in every population with a frequency ranging from 0.16 to 0.96. The 7-repeat allele was the second most common (global mean = 20.6%), appearing quite frequently in the Americas (mean frequency = 48.3%) but only occasionally in East and South Asia (mean frequency = 1.9%). The 2-repeat allele was the third most common (global mean frequency = 8.2%) and was quite frequent in East and South Asia (mean frequency = 18.1%) while uncommon in the Americas (mean frequency = 2.9%) and Africa (mean frequency = 1.7%). The universality of the polymorphism with only three common repeat-number alleles (4, 7, and 2) indicates that the polymorphism is ancient and arose before the global dispersion of modern humans. The diversity of actual allele frequencies for this expressed polymorphism among different populations emphasizes the importance of population considerations in the design and interpretation of any association studies carried out with this polymorphism.