Lim J, Do H, Shin SG, Hwang S. 2008. Primer and probe sets for group-specific quantification of the genera Nitrosomonas and Nitrosospira using real-time PCR. Biotechnology and Bioengineering 99: 1374-1383.
These authors developed precise primer and probe sets for TaqMan-based quantitative PCR to examine ammonia-oxidizing bacteria (AOB) associated with wastewater treatment facilities. These molecular tools have very low rates of false-positive and false-negative errors associated with them, and will be useful primarily to work on improving the nitrogen-removal capacity of wastewater treatment. However, AOB are nearly ubiquitous, such that these molecular tools will also be useful to a wide variety of less-directly-applied studies.
These authors purchased eight strains of nitrifying AOB commonly found in water treatment plants, eight non-nitrifying bacteria also commonly found in such plants, and collected, identified, and purified seven strains of nitrifying bacteria directly from a pair of water treatment plants in operation. Using published sequences of the 16s rRNA genes of these organisms, sets of primers and probes were constructed.
The development and evaluation of these primer/probe sets followed two basic procedures: first, “in silico” evaluation of potential primer and probe binding sites, and calculation of potential mismatches in various combinations. For example, a set developed for one organism may also be highly likely to amplify a related organism, reducing specificity of the assay. Second, sets were optimized for PCR conditions and trialed with the often-variable real sequences derived from culture collections or field samples. Iterating between these two processes allowed a series of final best-fit sequences to emerge, that have high specificity and low failure rates.
As a template for developing very good molecular tools, this paper provides some excellent advice regarding qPCR primer development. I will be using a different system that does not include probes, simplifying some steps of this process, but the basic pattern of invention, computer evaluation, wet-lab evaluation, further computer evaluation, and refinement will still be useful.
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