Abstract
Using a molecular approach, the effects of tetraconazole (TC), a triazolic inhibitor of P-450-based enzymes, has been investigated in maize, focusing on the resistance-related biosynthetic pathways involving one or more microsomial P-450 mono-oxigenases, putative secondary targets of the fungicide. Several observations were made. First, TC affected the phenylpropanoid-flavonoid biosynthesis, increasing the anthocyanin content and the mRNA abundance of the genes involved in the later steps of the pathway ( A1 and C2), while the expression of another gene, PAL, decreased in the roots. Second, the activity of a hydroxyproline-rich glycoprotein gene involved in root cell wall structures was enhanced. Finally, maize seedlings acquired increased resistance to drought, which corresponded with modified levels of abscissic acid (ABA) and the overexpression of an ABA regulated gene. Taken together, these results suggest that TC act as a potential activator of plant defence-responses to both abiotic and biotic challenges and represents a powerful tool for elucidating the regulatory interconnections between different biosynthetic pathways.
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