Standardisation of microsatellite allele profiles between laboratories is of fundamental importance to the transferability of genetic fingerprint data and the identification of clonal individuals held at multiple sites. Here we describe two methods of standardisation applied to the microsatellite fingerprinting of 429 Theobroma cacao L. trees representing 345 accessions held in the worlds largest Cocoa Intermediate Quarantine facility: the use of a partial allelic ladder through the production of 46 cloned and sequenced allelic standards (AJ748464 to AJ48509), and the use of standard genotypes selected to display a diverse allelic range. Until now a lack of accurate and transferable identification information has impeded efforts to genetically improve the cocoa crop. To address this need, a global initiative to fingerprint all international cocoa germplasm collections using a common set of 15 microsatellite markers is in progress. Data reported here have been deposited with the International Cocoa Germplasm Database and form the basis of a searchable resource for clonal identification. To our knowledge, this is the first quarantine facility to be completely genotyped using microsatellite markers for the purpose of quality control and clonal identification. Implications of the results for retrospective tracking of labelling errors are briefly explored.
Polymyxa spp. are vectors for a number of economically important soilborne plant viruses. The development of a technique to detect virus and vectors directly in soil would be useful for epidemiological studies and assessment of disease risk prior to planting. A rapid method was developed to extract and quantify Polymyxa spp. DNA from soils. DNA was extracted from three soils infested with Polymyxa betae and three infested with P. graminis using an EDTA lysis buffer in combination with a MagneSil™ DNA extraction kit and Kingfisher™ magnetic particle processor. Primers and probes designed to correspond to sequences within the internal transcribed spacer region 2 (ITS2) of ribosomal DNA enabled recovery and amplification of P. betae and P. graminis DNA using real-time PCR and TaqMan chemistry. For the P. graminis-infested soils, the purity of DNA obtained was sufficient to allow Polymyxa DNA to be amplified without dilution to remove inhibitors, but with P. betae-infested soils, amplification was only achieved if the DNA was diluted 1:10. Using TaqMan PCR, a standard curve was constructed from uninfested soil spiked with known numbers of P. betae cystosori; the quantity of P. betae inoculum from naturally infested soil was then extrapolated from the curve. This technique offers a sensitive method of extracting, detecting and quantifying Polymyxa spp. DNA in soil.
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