Nornicotine is a secondary tobacco alkaloid that is produced by the N-demethylation of nicotine. Nornicotine production and accumulation in tobacco are undesirable because nornicotine serves as the precursor in the synthesis of the well characterized carcinogen N-nitrosonornicotine during the curing and processing of tobacco. Although nornicotine is typically a minor alkaloid in tobacco plants, in many tobacco populations a high percentage of individuals can be found that convert a substantial proportion of the nicotine to nornicotine during leaf senescence and curing. We used a microarray-based strategy to identify genes that are differentially regulated between closely related tobacco lines that accumulate either nicotine (nonconverters) or nornicotine (converters) as the predominant alkaloid in the cured leaf. These experiments led to the identification of a small number of closely related cytochrome P450 genes, designated the CYP82E2 family, whose collective transcript levels were consistently higher in converter versus nonconverter tobacco lines. RNA interference-induced silencing of the CYP82E2 gene family suppressed the synthesis of nornicotine in strong converter plants to levels similar to that observed in nonconverter individuals. Although each of the six identified members of the P450 family share >90% nucleotide sequence identity, sense expression of three selected isoforms revealed that only one (CYP82E4v1) was involved in the conversion of nicotine to nornicotine. Yeast expression analysis revealed that CYP82E4v1 functions as a nicotine demethylase. Identification of the gene(s) responsible for nicotine demethylation provides a potentially powerful tool toward efforts to minimize nornicotine levels, and thereby N-nitrosonornicotine formation, in tobacco products.NЈ-nitrosonornicotine ͉ N-demethylation ͉ tobacco ͉ alkaloid ͉ tobacco-specific nitrosamines
Tobacco (Nicotiana tabacum L.) is a natural allotetraploid derived from the interspecific hybridization between ancestral Nicotiana sylvestris and Nicotiana tomentosiformis. The majority of cultivated tobacco differs from both of its progenitor species in that tobacco typically contains nicotine as the primary alkaloid, in contrast to its two progenitors that accumulate nornicotine in the senescing leaves. However, most, if not all, tobacco cultivars possess an unstable mutation, commonly referred to as the conversion locus, that when activated mediates the conversion of a large percentage of nicotine to nornicotine in the senescing leaf. We have recently identified CYP82E4, a tobacco nicotine N-demethylase gene whose expression was highly induced during senescence in plants that have converted, and CYP82E3, a closely related homolog that exhibited no nicotine N-demethylase activity. In this study, domain swapping and site-directed mutagenesis studies identified a single amino acid change that fully restored nicotine N-demethylase activity to CYP82E3. An examination of the N. tomentosiformis orthologs of CYP82E3 and CYP82E4 revealed that both are functional nicotine N-demethylase genes in N. tomentosiformis. Collectively, our results suggest that a single base pair mutation in CYP82E3 and transcriptional suppression of CYP82E4 played important roles in the evolution of the alkaloid profile characteristic of modern tobacco.
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