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  • Asami, T., Mizutani, M., Fujioka, S., Gota, H., Min, Y.K., Shimada, Y., Nakano, T., Takatsuto, S., Matsuyama, T., Nagata, N., Sakata, K. and Yoshida, S. (2001) Selective interaction of triazole derivatives with DWF4, a cytochrome P450 monooxygenase of the brassinosteroid biosynthetic pathway, correlates with brassinosteroid deficiency in planta. J. Biol. Chem. 276, 2568725691.
  • Bishop, G.J., Harrison, K. and Jones, J.D. (1996) The tomato Dwarf gene isolated by heterologous transposon tagging encodes the first member of a new cytochrome P450 family. Plant Cell, 8, 959969.
  • Bravo-Garcia, A., Yasumura, Y. and Langdale, J.A. (2009) Specialization of the Golden2-like regulatory pathway during land plant evolution. New Phytol. 183, 133141.
  • DellaPenna, D. and Pogson, B.J. (2006) Vitamin synthesis in plants: tocopherols and carotenoids. Annu. Rev. Plant Biol. 57, 711738.
  • Erdman, J.W. Jr, Ford, N.A. and Lindshield, B.L. (2009) Are the health attributes of lycopene related to its antioxidant function? Arch. Biochem. Biophys. 483, 229235.
  • Exposito-Rodriguez, M., Borges, A.A., Borges-Perez, A. and Perez, J.A. (2008) Selection of internal control genes for quantitative real-time RT-PCR studies during tomato development process. BMC Plant Biol. 8, 131.
  • Fitter, D.W., Martin, D.J., Copley, M.J., Scotland, R.W. and Langdale, J.A. (2002) GLK gene pairs regulate chloroplast development in diverse plant species. Plant J. 31, 713727.
  • Ford, N.A., Moran, N.E., Smith, J.W., Clinton, S.K. and Erdman, J.W. Jr. (2012) An interaction between carotene-15,15′-monooxygenase expression and consumption of a tomato or lycopene-containing diet impacts serum and testicular testosterone. Int. J. Cancer, 131, E143E148.
  • Fraser, P.D. and Bramley, P.M. (2004) The biosynthesis and nutritional uses of carotenoids. Prog. Lipid Res. 43, 228265.
  • Fraser, P.D., Enfissi, E.M., Halket, J.M., Truesdale, M.R., Yu, D., Gerrish, C. and Bramley, P.M. (2007) Manipulation of phytoene levels in tomato fruit: effects on isoprenoids, plastids, and intermediary metabolism. Plant Cell, 19, 31943211.
  • Galpaz, N., Wang, Q., Menda, N., Zamir, D. and Hirschberg, J. (2008) Abscisic acid deficiency in the tomato mutant high-pigment 3 leading to increased plastid number and higher fruit lycopene content. Plant J. 53, 717730.
  • Goff, S.A. and Klee, H.J. (2006) Plant volatile compounds: sensory cues for health and nutritional value? Science, 311, 815819.
  • Harker, M. and Hirschberg, J. (1998) Molecular biology of carotenoid biosynthesis in photosynthetic organisms. Methods Enzymol. 297, 244263.
  • He, J.X., Gendron, J.M., Yang, Y.L., Li, J.M. and Wang, Z.Y. (2002) The GSK3-like kinase BIN2 phosphorylates and destabilizes BZR1, a positive regulator of the brassinosteroid signaling pathway in Arabidopsis. Proc. Natl Acad. Sci. USA, 99, 1018510190.
  • He, J.X., Gendron, J.M., Sun, Y., Gampala, S.S., Gendron, N., Sun, C.Q. and Wang, Z.Y. (2005) BZR1 is a transcriptional repressor with dual roles in brassinosteroid homeostasis and growth responses. Science, 307, 16341638.
  • Hirschberg, J. (2001) Carotenoid biosynthesis in flowering plants. Curr. Opin. Plant Biol. 4, 210218.
  • Jia, C.G. (2009) Studies on cross-talk between jasmonic acid and other plant hormone signalings in tomato. PhD thesis, Zhejiang University, Hangzhou, China.
  • Karlova, R., Rosin, F.M., Busscher-Lange, J., Parapunova, V., Do, P.T., Fernie, A.R., Fraser, P.D., Baxter, C., Angenent, G.C. and de Maagd, R.A. (2011) Transcriptome and metabolite profiling show that APETALA2a is a major regulator of tomato fruit ripening. Plant Cell, 23, 923941.
  • Kim, T.W. and Wang, Z.Y. (2010) Brassinosteroid signal transduction from receptor kinases to transcription factors. Annu. Rev. Plant Biol. 61, 681704.
  • Klee, H.J. and Giovannoni, J.J. (2011) Genetics and control of tomato fruit ripening and quality attributes. Annu. Rev. Genet. 45, 4159.
  • Lanahan, M.B., Yen, H.C., Giovannoni, J.J. and Klee, H.J. (1994) The never ripe mutation blocks ethylene perception in tomato. Plant Cell, 6, 521530.
  • Lee, J.M., Joung, J.G., McQuinn, R., Chung, M.Y., Fei, Z., Tieman, D., Klee, H. and Giovannoni, J. (2012) Combined transcriptome, genetic diversity and metabolite profiling in tomato fruit reveals that the ethylene response factor SlERF6 plays an important role in ripening and carotenoid accumulation. Plant J. 70, 191204.
  • Liu, Y.S., Roof, S., Ye, Z.B., Barry, C., van Tuinen, A., Vrebalov, J., Bowler, C. and Giovannoni, J. (2004) Manipulation of light signal transduction as a means of modifying fruit nutritional quality in tomato. Proc. Natl Acad. Sci. USA, 101, 98979902.
  • Liu, L.H., Wei, J., Zhang, M., Zhang, L.P., Li, C.Y. and Wang, Q.M. (2012) Ethylene independent induction of lycopene biosynthesis in tomato fruits by jasmonates. J. Exp. Bot. 63, 57515761.
  • Livak, K.J. and Schmittgen, T.D. (2001) Analysis of relative gene expression data using real-time quantitative PCR and the 2(T)(-Delta Delta C) method. Methods, 25, 402408.
  • Montoya, T., Nomura, T., Yokota, T., Farrar, K., Harrison, K., Jones, J.D., Kaneta, T., Kamiya, Y., Szekeres, M. and Bishop, G.J. (2005) Patterns of Dwarf expression and brassinosteroid accumulation in tomato reveal the importance of brassinosteroid synthesis during fruit development. Plant J. 42, 262269.
  • Neta-Sharir, I., Isaacson, T., Lurie, S. and Weiss, D. (2005) Dual role for tomato heat shock protein 21: protecting photosystem II from oxidative stress and promoting color changes during fruit maturation. Plant Cell, 17, 18291838.
  • Nomura, T., Kushiro, T., Yokota, T., Kamiya, Y., Bishop, G.J. and Yamaguchi, S. (2005) The last reaction producing brassinolide is catalyzed by cytochrome P-450s, CYP85A3 in tomato and CYP85A2 in Arabidopsis. J. Biol. Chem. 280, 1787317879.
  • Olives-Barba, A.I., Cámara-Hurtado, M., Sánchez-Mata, M.C., Fernández Ruiz, V.F. and López-Sáenz-de-Tejada, M. (2006) Application of a UV-vis detection-HPLC method for a rapid determination of lycopene and beta-carotene in vegetables. Food Chem. 95, 328336.
  • Park, S.H., Morris, J.L., Park, J.E., Hirschi, K.D. and Smith, R.H. (2003) Efficient and genotype-independent Agrobacterium – mediated tomato transformation. J. Plant Physiol. 160, 12531257.
  • Powell, A.L.T., Nguyen, C.V., Hill, T., Cheng, K.L., Figueroa-Balderas, R., Aktas, H., Ashrafi, H., Pons, C., Fernandez-Munoz, R., Vicente, A., Lopez-Baltazar, J., Barry, C.S., Liu, Y.S., Chetelat, R., Granell, A., Van Deynze, A., Giovannoni, J.J. and Bennett, A.B. (2012) Uniform ripening encodes a Golden 2-like transcription factor regulating tomato fruit chloroplast development. Science, 336, 17111715.
  • Römer, S. and Fraser, P.D. (2005) Recent advances in carotenoid biosynthesis, regulation and manipulation. Planta, 221, 305308.
  • Ronen, G., Carmel-Goren, L., Zamir, D. and Hirschberg, J. (2000) An alternative pathway to beta-carotene formation in plant chromoplasts discovered by map-based cloning of Beta and old-gold color mutations in tomato. Proc. Natl Acad. Sci. USA, 97, 1110211107.
  • Saltveit, M.E. (1989) Effect of alcohols and their interaction with ethylene on the ripening of epidermal pericarp disks of tomato fruit. Plant Physiol. 90, 167174.
  • Sandmann, G., Romer, S. and Fraser, P.D. (2006) Understanding carotenoid metabolism as a necessity for genetic engineering of crop plants. Metab. Eng. 8, 291302.
  • Schwartz, S.H., Tan, B.C., Gage, D.A., Zeevaart, J.A. and McCarty, D.R. (1997) Specific oxidative cleavage of carotenoids by VP14 of maize. Science, 276, 18721874.
  • Seymour, G.B., Chapman, N.H., Chew, B.L. and Rose, J.K. (2012) Regulation of ripening and opportunities for control in tomato and other fruits. Plant Biotechnol. J. 11, 269278. doi: 10.1111/j.1467-7652.2012.00738.x
  • Shumskaya, M., Bradbury, L.M., Monaco, R.R. and Wurtzel, E.T. (2012) Plastid localization of the key carotenoid enzyme phytoene synthase is altered by isozyme, allelic variation, and activity. Plant Cell, 24, 37253741.
  • Symons, G.M. and Reid, J.B. (2004) Brassinosteroids do not undergo long-distance transport in pea. Implications for the regulation of endogenous brassinosteroid levels. Plant Physiol. 135, 21962206.
  • Symons, G.M., Ross, J.J., Jager, C.E. and Reid, J.B. (2008) Brassinosteroid transport. J. Exp. Bot. 59, 1724.
  • Tang, W.Q., Yuan, M., Wang, R.J., Yang, Y.H., Wang, C.M., Oses-Prieto, J.A., Kim, T.W., Zhou, H.W., Deng, Z.P., Gampala, S.S., Gendron, J.M., Jonassen, E.M., Lillo, C., Delong, A., Burlingame, A.L., Sun, Y. and Wang, Z.Y. (2011) PP2A activates brassinosteroid-responsive gene expression and plant growth by dephosphorylating BZR1. Nat. Cell Biol. 13, 124131.
  • Telef, N., Stammitti-Bert, L., Mortain-Bertrand, A., Maucourt, M., Carde, J.P., Rolin, D. and Gallusci, P. (2006) Sucrose deficiency delays lycopene accumulation in tomato fruit pericarp discs. Plant Mol. Biol. 62, 453469.
  • Tomato Genome Consortium (2012) The tomato genome sequence provides insights into fleshy fruit evolution. Nature, 485, 635641.
  • Vidya Vardhini, B. and Rao, S.S. (2002) Acceleration of ripening of tomato pericarp discs by brassinosteroids. Phytochemistry, 61, 843847.
  • Vogel, J.T., Tieman, D.M., Sims, C.A., Odabasi, A.Z., Clark, D.G. and Klee, H.J. (2010) Carotenoid content impacts flavor acceptability in tomato (Solanum lycopersicum). J. Sci. Food Agric. 90, 22332240.
  • Wang, Z.Y., Nakano, T., Gendron, J., He, J.X., Chen, M., Vafeados, D., Yang, Y.L., Fujioka, S., Yoshida, S., Asami, T. and Chory, J. (2002) Nuclear-localized BZR1 mediates brassinosteroid-induced growth and feedback suppression of brassinosteroid biosynthesis. Dev. Cell, 2, 505513.
  • Wang, Z.Y., Bai, M.Y., Oh, E. and Zhu, J.Y. (2012) Brassinosteroid signaling network and regulation of photomorphogenesis. Annu. Rev. Genet. 46, 701724.
  • Waters, M.T., Moylan, E.C. and Langdale, J.A. (2008) GLK transcription factors regulate chloroplast development in a cell-autonomous manner. Plant J. 56, 432444.
  • Waters, M.T., Wang, P., Korkaric, M., Capper, R.G., Saunders, N.J. and Langdale, J.A. (2009) GLK transcription factors coordinate expression of the photosynthetic apparatus in Arabidopsis. Plant Cell, 21, 11091128.
  • Welsch, R., Wust, F., Bar, C., Al-Babili, S. and Beyer, P. (2008) A third phytoene synthase is devoted to abiotic stress-induced abscisic acid formation in rice and defines functional diversification of phytoene synthase genes. Plant Physiol. 147, 367380.
  • Yuan, G.F., Sun, B., Yuan, J. and Wang, Q.M. (2010) Effect of 1-methylcyclopropene on shelf life, visual quality, antioxidant enzymes and health-promoting compounds in broccoli florets. Food Chem. 118, 774781.
  • Zhang, M., Yuan, B. and Leng, P. (2009) The role of ABA in triggering ethylene biosynthesis and ripening of tomato fruit. J. Exp. Bot. 60, 15791588.