Abstract
Seven cDNA clones encoding terpene synthases (TPSs), their structures closely related to each other, were isolated from the flower of Camellia hiemalis (‘Kantsubaki’). Their putative TPS proteins were phylogenetically positioned in a sole clade with the TPSs of other Camellia species. The obtained Tps genes, one of which was designated ChTps1 (ChTps1a), were introduced into mevalonate-pathway-engineered Escherichia coli, which carried the genes for utilizing acetoacetate as a substrate, and cultured in a medium including lithium acetoacetate. Volatile products generated in the E. coli cells transformed with ChTps1 were purified from the cell suspension culture, and analyzed by NMR. Consequently, the predominant product with ChTPS1 was identified as valerianol, indicating that the ChTps1 gene codes for valerianol synthase. This is the first report on a gene that can mediate the synthesis of valerianol. We next synthesized a Tps ortholog encoding ChTPS1variant R477H (named CsiTPS8), whose sequence had been isolated from a tea tree (Camellia sinensis), carried out similar culture experiment with the E. coli transformant including CsiTps8, and consequently found valerianol production equally. Furthermore, GC-MS analysis of several teas revealed that valerianol had been an unknown ingredient in green tea and black tea.
Highlights
Floral scents consist of various volatile compounds of low molecular weight (30–300 Da) such as terpenes, aliphatics, benzenoids, and phenylpropanoids[1,2]
DMAPP is condensed with isopentenyl diphosphate (IPP) to yield geranyl diphosphate (GPP; C10), which is converted to farnesyl diphosphate (FPP; C15) with IPP, by prenyltransferases
We report the function of a terpene synthase (Tps) gene derived from the leaf buds of a tea tree C. sinensis
Summary
Floral scents consist of various volatile compounds of low molecular weight (30–300 Da) such as terpenes (monoterpenes and sesquiterpenes), aliphatics, benzenoids, and phenylpropanoids[1,2]. The floral scents of C. japonica, C. sasanqua, C. hiemalis, and other Camellia species have been analyzed by gas chromatography-mass spectrometry (GC-MS)[18,28], indicating the presence of various monoterpenes and sesquiterpenes. We have identified new terpene synthase (Tps) genes that can mediate the synthesis of volatile sesquiterpenes or monoterpenes in several fragrant plants, which belong to the families Araliaceae, Zingiberaceae, and Camelliaceae[30,31,32,33,34]. We report the function of a Tps gene derived from the leaf buds of a tea tree C. sinensis
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