The Tomato Terpene Synthase Gene Family
Vasiliki Falara,Tariq A. Akhtar,Thuong T.H. Nguyen,Eleni A. Spyropoulou,Petra M. Bleeker,Ines Schauvinhold,Yuki Matsuba,Megan E. Bonini,Anthony L. Schilmiller,Robert C. Schuurink,Eran Pichersky +10 more
TLDR
In this paper, it was shown that the tomato genome contains 44 terpene synthase (TPS) genes, including 29 that are functional or potentially functional in at least some organs or tissues of the plant.Abstract:
Compounds of the terpenoid class play numerous roles in the interactions of plants with their environment, such as attracting pollinators and defending the plant against pests. We show here that the genome of cultivated tomato (Solanum lycopersicum) contains 44 terpene synthase (TPS) genes, including 29 that are functional or potentially functional. Of these 29 TPS genes, 26 were expressed in at least some organs or tissues of the plant. The enzymatic functions of eight of the TPS proteins were previously reported, and here we report the specific in vitro catalytic activity of 10 additional tomato terpene synthases. Many of the tomato TPS genes are found in clusters, notably on chromosomes 1, 2, 6, 8, and 10. All TPS family clades previously identified in angiosperms are also present in tomato. The largest clade of functional TPS genes found in tomato, with 12 members, is the TPS-a clade, and it appears to encode only sesquiterpene synthases, one of which is localized to the mitochondria, while the rest are likely cytosolic. A few additional sesquiterpene synthases are encoded by TPS-b clade genes. Some of the tomato sesquiterpene synthases use z,z-farnesyl diphosphate in vitro as well, or more efficiently than, the e,e-farnesyl diphosphate substrate. Genes encoding monoterpene synthases are also prevalent, and they fall into three clades: TPS-b, TPS-g, and TPS-e/f. With the exception of two enzymes involved in the synthesis of ent-kaurene, the precursor of gibberellins, no other tomato TPS genes could be demonstrated to encode diterpene synthases so far.read more
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Journal ArticleDOI
Prenyltransferases catalyzing geranyldiphosphate formation in tomato fruit.
Gal Hivert,Rachel Davidovich-Rikanati,Einat Bar,Yaron Sitrit,Arthur A. Schaffer,Natalia Dudareva,Efraim Lewinsohn,Efraim Lewinsohn +7 more
TL;DR: It is shown here that LeGGPPS2, an enzyme previously reported to support carotenoid biosynthesis, can synthesize farnesyldiphosphate (FPP) and GPP in vitro, in addition to geranylgeranyldiph phosphate, depending on the assay conditions.
Book ChapterDOI
Carrot Volatile Terpene Metabolism: Terpene Diversity and Biosynthetic Genes
TL;DR: An overview of volatile terpenes sampling and terpene diversity in different D. carota genotypes is provided and latest findings of the function of genes and enzymes in the Terpene synthase family involved in the biosynthesis of carrot terpenes volatiles are discussed.
Journal ArticleDOI
Comparative Metabolomics of Fruits and Leaves in a Hyperdiverse Lineage Suggests Fruits Are a Key Incubator of Phytochemical Diversification.
Gerald F. Schneider,Gerald F. Schneider,Diego Salazar,Sherry B. Hildreth,Richard F. Helm,Susan R. Whitehead +5 more
TL;DR: In this paper, the authors evaluated organ-specific secondary metabolite composition and compared multiple dimensions of phytochemical diversity across organs, including richness, structural complexity, and variability across samples at multiple scales within and across species.
Journal ArticleDOI
Tomato transcriptomic response to Tuta absoluta infestation.
Daniela D’Esposito,Daniele Manzo,Alessandro Ricciardi,Antonio P. Garonna,Antonino De Natale,Luigi Frusciante,Francesco Pennacchio,Maria Raffaella Ercolano +7 more
TL;DR: In this article, a comparative analysis was performed between a tolerant and susceptible tomato at both morphological and transcriptome level to highlight constitutive leaf barriers, molecular and biochemical mechanisms to counter the effect of T. absoluta attack.
Journal ArticleDOI
Cloning and characterization of a monoterpene synthase gene from flowers of Camelina sativa
Monica Borghi,De-Yu Xie +1 more
TL;DR: The CsTPS1 gene belongs to a mid-size family of 60 genes putatively codifying for TPS enzymes, which suggests that Camelina has the structural framework for the production of terpenes and other secondary metabolites of relevance for the consumers.
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TL;DR: The draft genome of the black cottonwood tree, Populus trichocarpa, has been reported in this paper, with more than 45,000 putative protein-coding genes identified.
Journal ArticleDOI
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TL;DR: A map-based, finished quality sequence that covers 95% of the 389 Mb rice genome, including virtually all of the euchromatin and two complete centromeres, and finds evidence for widespread and recurrent gene transfer from the organelles to the nuclear chromosomes.