Detail:
Series: Methods in Molecular Biology | Volume: 1542 | Pub. Date: Dec-11-2016 | Page Range: 159-171 | DOI: 10.1007/978-1-4939-6707-0_10
Year prepared: 2016
Chemical detoxification and physical destruction of aflatoxins in foods and feed commodities are mostly unattainable in a way that preserves the edibility of the food. Therefore, preventing mycotoxins in general and aflatoxins in particular from entering the food chain is a better approach. This requires early detection of the aflatoxin-causing organisms. Detection and quantification of aflatoxin-producing fungi has always been a challenge, especially within species of Aspergillus and Penicillium. Culture-based methods require a high level of expertise and a list of sophisticated equipment. Furthermore, even for a trained taxonomist, species that are identical in morphology, physiology, and nutritional aspects can be challenging to classify. Fungal taxonomy has changed over the past few decades; more species are being reclassified, and new species are being described due to advances in sequencing and genome assembly. These developments make the use of PCR-based approaches practical, rapid, and more reliable for the identification of fungi to the species level. This chapter presents a variety of protocols to detect and quantify aflatoxin-producing fungi using mycotoxin biosynthesis pathway genes.
url: Access via Springer ProtocolsLaboratory Protocols
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Title
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Assaying antifungal levels
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Fungal Molecular Biology
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Fungal Molecular Biology
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Detection in clinical samples
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Methods for DNA sequencing
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Using Non-homologous End-Joining-Deficient Strains for Functional Gene Analyses in Filamentous Fungi
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