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Abstract
Aflatoxin production in maize and peanuts remains a major public health problem, especially in developing countries. One promising method for combating aflatoxin formation is biocontrol using competitive exclusion, a management strategy currently being studied in maize crops in Thailand. It is important that the strains of Aspergillus flavus used in biocontrol be non-toxigenic and be incapable of reversion to toxigenicity. In the current study, 80 non-toxigenic strains of A. flavus, randomly selected from commercially produced dried maize samples from several sources in Thailand, were screened for their potential as biocontrol strains by examining the 24 aflatoxin biosynthesis genes, using a PCR assay. Assessment of the presence or absence of PCR products provides an indication of the function of pathway genes. Of the 80 strains, 78 showed no PCR products from one or more genes in the aflatoxin biosynthesis pathway. Twenty-three isolates showed only one failure, in the aflD (nor-1) gene, but most isolates failed to produce a PCR product for two or more genes. Nineteen isolates (24%) failed to show a PCR product in 10 or more genes. Altogether, 45 PCR product patterns were observed, usually common to only one or two isolates, indicating great diversity in the aflatoxin biosynthesis pathway in A. flavus isolates taken from dried Thai maize. Although the absence of a particular PCR product is not conclusive evidence that the particular gene is non-functional, the absence of several such PCR products provides reasonable evidence that the isolate in question will not revert to toxigenicity in the field.
Acknowledgement
We wish to thank Dr E. Lacey, Microbial Screening Technologies, Smithfield, NSW, for carrying out a large number of aflatoxin HPLC assays and Dr D. Zabaras of CSIRO Animal, Food and Health Sciences for a similar number of cyclopiazonic acid analyses.
Funding
Mars Corporation is thanked for funding the study.