BackgroundAn efficient method for the identification of medicinal plant products is now a priority as the global demand increases. This study aims to develop a DNA-based method for the identification and authentication of plant species that can be implemented in the industry to aid compliance with regulations, based upon the economically important Hypericum perforatum L. (St John’s Wort or Guan ye Lian Qiao).MethodsThe ITS regions of several Hypericum species were analysed to identify the most divergent regions and PCR primers were designed to anneal specifically to these regions in the different Hypericum species. Candidate primers were selected such that the amplicon produced by each species-specific reaction differed in size. The use of fluorescently labelled primers enabled these products to be resolved by capillary electrophoresis.ResultsFour closely related Hypericum species were detected simultaneously and independently in one reaction. Each species could be identified individually and in any combination. The introduction of three more closely related species to the test had no effect on the results. Highly processed commercial plant material was identified, despite the potential complications of DNA degradation in such samples.ConclusionThis technique can detect the presence of an expected plant material and adulterant materials in one reaction. The method could be simply applied to other medicinal plants and their problem adulterants.
Chemical, biological, radioactive, or nuclear (CBRN) incidents can occur due to accident or deliberate action, and may result in substantial loss of life. Whatever the cause, the requirement for identification of the deceased may necessitate the removal of contaminated samples to a DNA laboratory for processing. This review looks at the potential types of CBRN that may result in the requirement for DNA identification of the deceased and investigates the potential risks and difficulties associated with processing samples of this type.
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