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  • Aharoni, A., Giri, P., Verstappen, F.W.A., Bertea, C.M., Sevenier, R., Sun, Z., Jongsma, M.A., Schwab, W. and Bouwmeester, H.J. (2004) Gain and loss of fruit flavor compounds produced by wild and cultivated strawberry species. Plant Cell, 16, 31103131.
  • Barg, R., Pilowsky, M., Shabtai, S., Carmi, N., Szechtman, A.D., Dedicova, B. and Salts, Y. (1997) The TYLCV-tolerant tomato line MP-1 is characterized by superior transformation competence. J. Exp. Bot. 48, 19191923.
  • Bouvier, F., Suire, C., D’Harlingue, A., Backhaus, R.A. and Camara, B. (2000) Molecular cloning of geranyl diphosphate synthase and compartmentation of monoterpene synthesis in plant cells. Plant J. 24, 241252.
  • Bruno, A.K. and Wetzel, C.M. (2004) The early light-inducible protein (ELIP) gene is expressed during the chloroplast-to-chromoplast transition in ripening tomato fruit. J. Exp. Bot. 55, 25412548.
  • Buttery, R.G., Seifert, R.M., Guadagni, D.G. and Ling, L.C. (1971) Characterization of additional volatile components of tomato. J. Agric. Food Chem. 19, 524529.
  • Buttery, R.G., Teranishi, R. and Ling, L.C. (1987) Fresh tomato aroma volatiles: a quantitative study. J. Agric. Food Chem. 35, 540544.
  • Buttery, R.G., Teranishi, R., Ling, L.C. and Turnbaugh, J.G. (1990) Quantitative and sensory studies on tomato paste volatiles. J. Agric. Food Chem. 38, 336340.
  • Colby, S.M., Crock, J., Dowdle-Rizzo, B., Lemaux, P.G. and Croteau, R. (1998) Germacrene C synthase from Lycopersicon esculentum cv. VFNT cherry tomato: cDNA isolation, characterization, and bacterial expression of the multiple product sesquiterpene cyclase. Proc. Natl Acad. Sci. USA, 95, 22162221.
  • Croteau, R. and Karp, F. (1991) Origin of natural odorants. In Perfumes. Art, Science and Technology (Muller, P.M. and Lamparsky, D., eds). London: Elsevier Applied Science, pp. 101126.
  • Croteau, R., Kutchan, T.M. and Lewis, N.G. (2000) Natural products (secondary metabolites). In Biochemistry and Molecular Biology of Plants (Buchanan, B., Gruissem, W. and Jones, R., eds). Rockville, MD: American Society of Plant Physiologists, pp. 12501318.
  • Davidovich-Rikanati, R., Sitrit, Y., Tadmor, Y. et al. (2007) Enrichment of tomato flavor by diversion of the early plastidic terpenoid pathway. Nat. Biotech. 25, 899901.
  • Dudareva, N., Pichersky, E. and Gershenzon, J. (2004) Biochemistry of plant volatiles. Plant Physiol. 135, 18931902.
  • Freitas, J.A., Maluf, W.R., Cardoso, M.G., Gomes, L.A.A. and Bearzotti, E. (2002) Inheritance of foliar zingiberene contents and their relationship to trichome densities and whitefly resistance in tomatoes. Euphytica, 127, 275287.
  • Gaffe, J., Bru, J.-P., Causse, M., Vidal, A., Stamitti-Berrt, L., Carde, J.-P. and Gallusci, P. (2000) LEFPS1, a tomato farnesyl pyrophosphate gene highly expressed during early fruit development. Plant Physiol. 123, 13511362.
  • Gillaspy, G., Ben-David, H. and Gruissem, W. (1993) Fruits: a developmental perspective. Plant Cell, 5, 14391451.
  • Iijima, Y., Davidovich-Rikanati, R., Fridman, E., Gang, D.R., Bar, E., Lewinsohn, E. and Pichersky, E. (2004) The biochemical and molecular basis for the divergent patterns in the biosynthesis of terpenes and phenylpropenes in the peltate glands of three cultivars of basil. Plant Physiol. 136, 37243736.
  • Jelesko, J.G., Jenkins, S.M., Rodriguez-Concepcion, M. and Gruissem, W. (1999) Regulation of tomato HMG1 during cell proliferation and growth. Planta, 208, 310318.
  • Kant, M.R., Ament, K., Sabelis, M.W., Haring, M.A. and Schuurink, R.C. (2004) Differential timing of spider mite-induced direct and indirect defenses in tomato plants. Plant Physiol. 135, 483495.
  • Lewinsohn, E., Schalechet, F., Wilkinson, J. et al. (2001) Enhanced levels of the aroma and flavor compound S-linalool by metabolic engineering of the terpenoid pathway in tomato fruits. Plant Physiol. 127, 12561265.
  • Lewinsohn, E., Sitrit, Y., Bar, E., Azulay, Y., Ibdah, M., Meir, A., Yosef, E., Zamir, D. and Tadmor, Y. (2005a) Not just colors – carotenoid degradation as a link between pigmentation and aroma in tomato and watermelon fruit. Trends Food Sci. Technol. 16, 407415.
  • Lewinsohn, E., Sitrit, Y., Bar, E., Azulay, Y., Meir, A., Zamir, D. and Tadmor, Y. (2005b) Carotenoid pigmentation affects the volatile composition of tomato and watermelon fruits, as revealed by comparative genetic analyses. J. Agric. Food. Chem. 53, 31423148.
  • Li, L., Zhao, Y., McCaig, B.C., Wingerd, B.A., Wang, J., Whalon, M.E., Pickersky, E. and Howe, G.A. (2004) The tomato homolog of CORONATINE-INSENSITIVE1 is required for the maternal control of seed maturation, jasmonate-signaled defense responses, and glandular trichome development. Plant Cell, 16, 126143.
  • Lichtenthaler, H.K. (1999) The 1-deoxy-d-xylulose-5-phosphate pathway of isoprenoid biosynthesis in plants. Annu. Rev. Plant Physiol. Plant Mol. Biol. 50, 4765.
  • Lundgren, L., Norelius, G. and Stenhagen, G. (1985) Leaf volatiles from some wild tomato species. Nord. J. Bot. 5, 315320.
  • McGarvey, D.J. and Croteau, R. (1995) Terpenoid metabolism. Plant Cell, 7, 10151026.
  • Murray, M.G. and Thompson, W.F. (1980) Small scale genomic DNA extraction procedure. Nucleic Acids Res. 8, 43214325.
  • Narita, J.O. and Gruissem, W. (1989) Tomato hydroxymethylglutaryl-CoA reductase is required early in fruit development but not during ripening. Plant Cell, 1, 181190.
  • Nicholass, F.J., Smith, C.J.S., Schuch, W., Bird, C.R. and Grierson, D. (1995) High levels of ripening-specific reporter gene expression directed by tomato fruit polygalacturonase gene-flanking regions. Plant Mol. Biol. 28, 423435.
  • Ohara, K., Ujihara, T., Endo, T., Sato, F. and Yazaki, K. (2003) Limonene production in tobacco with Perilla limonene synthase cDNA. J. Exp. Bot. 54, 2635.
  • Petro-Turza, M. (1987) Flavor of tomato and tomato products. Food Rev. Int. 2, 309351.
  • Phillips, M.A., D’Auria, J.C., Gershenzon, J. and Pichersky, E. (2008) The Arabidopsis thaliana Type I isopentenyl diphosphate isomerases, IDI1 and IDI2, are targeted to different subcellular compartments and have overlapping functions in isoprenoid biosynthesis. Plant Cell, 20, 677696.
  • Pichersky, E. and Gershenzon, J. (2002) The formation and function of plant volatiles: perfumes for pollinator attraction and defense. Curr. Opin. Plant Biol. 5, 237243.
  • Pichersky, E., Noel, J.P. and Dudareva, N. (2006) Biosynthesis of plant volatiles: nature’s diversity and ingenuity. Science, 311, 808811.
  • Portnoy, V., Benyamini, Y., Bar, E. et al. (2008) The molecular and biochemical basis for varietal variation in sesquiterpene content in melon (Cucumis melo L.) rinds. Plant Mol. Biol. 66, 647661.
  • Pyke, A.K. and Howells, C.A. (2002) Plastid and stromule morphogenesis in tomato. Ann. Bot. 90, 559566.
  • Rodriguez-Concepcion, M. and Boronat, A. (2002) Elucidation of the methylerythritol phosphate pathway for isoprenoid biosynthesis in bacteria and plastids. A metabolic milestone achieved through genomics. Plant Physiol. 130, 10791089.
  • Rohdich, F., Hecht, S., Bacher, A. and Eisenreich, W. (2003) The deoxyxylulose phosphate pathway of isoprenoid biosynthesis. Discovery and function of the ispDEFGH genes and their cognate enzyme. Pure Appl. Chem. 75, 393405.
  • Rohmer, M. (2003) Mevalonate-independent methylerythritol phosphate pathway for isoprenoid biosynthesis: elucidation and distribution. Pure Appl. Chem. 75, 375388.
  • Ronen, G., Cohen, M., Zamir, D. and Hirshberg, J. (1999) Regulation of carotenoid biosynthesis during tomato fruit development: expression of the gene for lycopene epsilon-cyclase is down-regulated during ripening and is elevated in the mutant Delta. Plant J. 17, 341351.
  • Van Schie, C.C., Haring, M.A. and Schuurink, R.C. (2007) Tomato linalool synthase is induced in trichomes by jasmonic acid. Plant Mol. Biol. 64, 251263.
  • Schnee, C., Köllner, T.G., Held, M., Turlings, T.C.J., Gershenzon, J. and Degenhardt, J. (2006) The products of a single maize sesquiterpene synthase form a volatile defense signal that attracts natural enemies of maize herbivores. Proc. Natl Acad. Sci. USA, 103, 11291134.
  • Schwab, W., Davidovich-Rikanati, R. and Lewinsohn, E. (2008) Biosynthesis of plant-derived flavor compounds. Plant J. 54, 712732.
  • Sommer, S., Severin, K., Camara, B. and Heide, L. (1995) Intracellular localization of geranylpyrophosphate synthase from cell cultures of Lithospermum erythrorhizon. Phytochemistry, 38, 623627.
  • Steele, C.L., Crock, J., Bohlmann, J. and Croteau, R. (1998) Sesquiterpene synthases from grand fir (Abies grandis). Comparison of constitutive and wound-induced activities, and cDNA isolation, characterization, and bacterial expression of delta-selinene synthase and gamma-humulene synthase. J. Biol. Chem. 273, 20782089.
  • Summer, E.J. and Cline, K. (1999) Red bell pepper chromoplasts exhibit in vitro import competency and membrane targeting of passenger proteins from the thylakoidal sec and ΔH pathways but not the chloroplast signal recognition particle pathway. Plant Physiol. 119, 575584.
  • Tadmor, Y., Larkov, O., Meir, A., Minkoff, M., Lastochkin, E., Edelstein, M., Levin, S., Wong, J., Rocheford, T. and Lewinsohn, E. (2000) Reversed-phase high performance liquid chromatographic determination of vitamin E components in maize kernels. Phytochem. Anal. 11, 370374.
  • Tholl, D., Chen, F., Petri, J., Gershenzon, J. and Pichersky, E. (2005) Two sesquiterpene synthases are responsible for the complex mixture of sesquiterpenes emitted from Arabidopsis flowers. Plant J. 42, 757771.
  • Wu, S., Schalk, M., Clark, A., Miles, R.B., Coates, R. and Chappell, J. (2006) Redirection of cytosolic or plastidic isoprenoid precursors elevates terpene production in plants. Nat. Biotech. 24, 14411447.