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Development and evaluation of a real-time quantitative PCR assay for Aspergillus flavus

     Microbiology Division, Harry Reid Center for Environmental Studies, University of Nevada, Las Vegas, 4505 S. Maryland Parkway, Box 4009, Las Vegas, Nevada 89154–4009

Aspergillus flavus is a ubiquitous mold and the most common mold contaminating foodstuffs. Many strains of A. flavus produce aflatoxins. In addition it is an allergen and an opportunistic pathogen of animals and plants. A. flavus often is underestimated in traditional culture analyses due to the expertise required and the cost associated with speciating members of the genus Aspergillus. The goal of this study was to develop and validate a primer and probe set for the rapid detection and quantitation of A. flavus in pure culture using real-time quantitative polymerase chain reaction (QPCR) amplification. Unique DNA regions were located in the genome of the target organism by sequence comparison with the GenBank database, and several candidate oligonucleotides were identified from the scientific literature for potential use with the TaqMan^® QPCR technology. Three primer and probe sets were designed and validated for specificity and sensitivity in laboratory experiments. Initial screening to test for sensitivity was performed with seven A. flavus isolates and selected nontarget fungi. Specificity testing was conducted with the selected primer and probe set, which amplified all nine A. flavus isolates tested, including an aflatoxin producing strain. The primers did not amplify DNA extracted from 39 other fungal species (comprising 16 genera), including 18 other Aspergillus species and six Penicillium species. No amplification of human or bacterial DNA was observed; however cross-reactivity was observed with Aspergillus oryzae. PCR analysis of DNA dilutions and the use of an internal positive control demonstrated that 67% of the fungal DNA samples assayed contained PCR inhibitors. The assay validated for the target organism is capable of producing PCR results in less than 1 h after DNA extraction. The results of this research demonstrate the capabilities of QPCR for the enhanced detection and enumeration of fungi of significance to human health.

Key words: analytical/rapid methods, detection, Fungi, identification, PCR