For each hybridization experiment, one technical replicate (using

For each hybridization experiment, one technical replicate (using independent labeling reactions) was performed, each replication consisting of a reverse labelling experiment. Data analysis was done as described above and binary scores were obtained. Signal intensity values of replicate hybridizations were plotted against each other in Microsoft Excel to verify that the independent fungal samples showed the same scoring pattern. selleck chemicals The results were also compared in each case to the identity

obtained for the same culture grown by standard laboratory procedures. In addition, the probes positively identified were used for PCR amplification of the eight samples and the results obtained for the array were confirmed with the PCR product amplified from the same sample. The BLAST program was used to obtain the identities of the amplicons. The same procedure was followed for the mycotoxin Osimertinib molecular weight biosynthesis genes. Acknowledgements This study benefited from the financial support of the Young Researchers Establishment Fund (YREF). Ms Adriaana Jakobs is thanked for assistance with the identification of the fungal strains used in this study. References 1. Barrett JR: Mycotoxins: Of molds and maladies. Environ Health Perspectives 2000, 108:A20-A27.CrossRef 2. Mellor S: Problem of Mycotoxins and some solutions. Pig progress 2003, 5:12–15. 3. Rabie CJ, Marais GJ: Toxigenic fungi

and mycotoxins in South African foods and feeds. Report to the Department of Health, Pretoria; 2000. 4. Peraica M, Radic B, Lucic A, Pavlovic M: Toxic effects of mycotoxin in humans. Bulletin WHO 1999, 77:754–756. 5. Niessen L: PCR-based diagnosis and quantification ofmycotoxin producing fungi. Int J Food Microbiol 2007, 119:38–46.PubMedCrossRef 6. Hebart HJ, Loffler J, Meissner C, Serey F, Schmidt D, Bohme A, Martin H, Engel A, Bunje D, Kern WV, Schumacher U, Kanz L, Einsele H: Early detection of Aspergillus infection after allogeneic stem cell transplatation by polymerase chain reaction screening. J Infec Dis 2000, 181:1713–1719.CrossRef 7. Mirhendi H, Diba K, Kordbacheh

P, Jalalizand N, Makimura K: Identification of pathogenic Aspergillus species by a PCR-restriction enzyme method. J Med Microbiol 2007, 56:1568–1570.PubMedCrossRef 8. Mishra PK, Fox RTV, Culham from A: Development of a PCR-based assay for rapid and reliable identification of pathogenic Fusaria . FEMS Microbiol Lett 2003, 218:329–332.PubMedCrossRef 9. Waalwijk C, Lee T, de Vries I, Hesselink T, Arts J, Kema GHJ: Synteny in toxigenic Fusarium species: the fumonisin gene cluster and the mating type region as examples. Eur J Plant Pathol 2004, 110:533–544.CrossRef 10. Paterson RRM, Archer S, Kozakiewicz Z, Lea A, Locke T, O’Grady E: A gene probe for the patulin metabolic pathway with potential for use in patulin and novel disease control. Biocontrol Science and Selumetinib supplier Technol 2000, 10:509–512.CrossRef 11.

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