SciELO - Scientific Electronic Library Online

SciELO - Scientific Electronic Library Online

Referencias del artĂ­culo

DAVILA-AVINA, Jorge E. de J. et al. Compuestos volátiles responsables del sabor del tomate. Rev. fitotec. mex [online]. 2011, vol.34, n.2, pp.133-143. ISSN 0187-7380.

    Abegaz E E, K S Tandon, J W Scott, E A Baldwin, R L Shewfelt (2004) Partitioning taste from aromatic flavor notes of fresh tomato (Lycopersicon esculentum, Mill) to develop predictive models as a function of volatile and nonvolatile components. Postharv. Biol. Technol. 34:227–235. [ Links ]

    Adedeji O, K A Taiwo, C T Akanbi, R Ajani (2006) Physicochemical properties of four tomato cultivars grown in Nigeria. J. Food Proc. Preserv. 30:79–86. [ Links ]

    Alonso A, L Vázquez–Araújo, S García–Martínez, J J Ruiz, A A Carbonell–Barrachina (2009) Volatile compounds of traditional and virus–resistant breeding lines of Muchamiel tomatoes. Europ. Food Res. Technol. 230:315–323. [ Links ]

    Alonso A, S García–Martínez, L Vázquez–Araújo, J J Ruiz, A A Carbonell–Barrachina (2010) Comparative post–harvest behaviour of traditional and virus–resistant Muchamiel tomatoes. J. Sci. Food Agric. 90:1056–1062. [ Links ]

    Anthon G E, D M Barrett (2003) Thermal inactivation of lipoxygenase and hydroperoxytreinoic acid lyase in tomatoes. Food Chem. 81:275–279. [ Links ]

    Anza M, P Riga, C Garbisu (2006) Effects of variety and growth season on the organoleptic and nutritional quality of hydroponically grown tomato. J. Food Qual. 29:16–37. [ Links ]

    Auerswald H, P Peters, B Bruckner, A Krumbein, R Kuchenbuch (1999) Sensory analysis and instrumental measurements of Short–term store tomatoes (Lycopersicon esculentum Mill.). Postharv. Biol. Technol. 15:323–334. [ Links ]

    Augusto F, A L P Valente, E D Tada, S R Rivellino (2000) Screening of Brazilian fruit aromas using solid–phase microextraction–gas chromatography–mass spectrometry. J. Chromatography A 873:117–127. [ Links ]

    Ayala–Zavala J F, M A Villegas–Ochoa, G A González–Aguilar, G I Olivas (2009) Compuestos volátiles del aroma de frutos tropicales frescos cortados. In: Aspectos Nutricionales y Sensoriales de Vegetales Frescos Cortados. Ed. Trillas. México. pp:231–255. [ Links ]

    Baldwin E A, K Goodner, A Plotto (2008) Interaction of volatiles, sugars and acids on perception of tomato aroma and flavor descriptos. J. Food Sci. 73:S294–S307. [ Links ]

    Baldwin, E A, J W Scott, C K Shewmaker, W Schuch (2000) Flavor trivia and tomato aroma: Biochemistry and possible mechanism for control of important aroma components. HortScience 35:1013–1022. [ Links ]

    Baysal T, A Demirdöven (2007) Lipoxygenase in fruits and vegetables: A review. Enzyme Microb. Technol. 40:491–496. [ Links ]

    Berna A Z, J Lammertyn, S Saevels, C Di Natale, B M Nicolai (2004) Electronic nose systems to study shelf life and cultivar effect on tomato aroma profile. Sensors & Actuators B Chemical 97:324–333. [ Links ]

    Beullens K, P Meszaros, S Vermeir, D Kirsanov, A Legin, S Buysens, S. N Cap, B M Nicolai, J Lammertyn (2008) Analysis of tomato taste using two types of electronic tongues. Sensors & Actuators B Chemical 131:10–17. [ Links ]

    Bombelli E C, E R Wright (2006) Tomato fruit quality conservation during postharvest by application of potassium bicarbonate and its effect on Botrytis cinerea. Ciencia Inv. Agraria 33:167–172. [ Links ]

    Brauss M S, R S T Linforth, A J Taylor (1998) Effect of variety, time of eating, and fruit–to–fruit variation on volatile release during eating of tomato fruits (Lycopersicon esculentum). J. Agric. Food Chem. 46:2287–2292. [ Links ]

    Boukobza F, A J Taylor (2002) Effect of postharvest treatment on flavour volatiles of tomatoes. Postharv. Biol. Technol. 25:321–331. [ Links ]

    Buckenhueskes H J (2007) Industrial quality control. In: Flavours and Fragrances Chemistry, Bioprocessing and Sustainability. R G Berger (ed). Springer–Verlag. Berlin, Heidelberg. pp:303–312. [ Links ]

    Buttery R, L Ling (1993) Volatiles of tomato fruit and plant parts: relationship and biogenesis. In: Bioactive Volatile Compounds from Plants. R Teranish, R Buttery, H Sugisawa (eds). ACS Books. Washington D.C. pp:23–34. [ Links ]

    Buttery R G, R Teranishi, L C Ling, R A Flath, D J Stern (1988). Quantitative studies on origins of fresh tomato aroma volatiles. J. Agric. Food Chem. 36:1247–1250. [ Links ]

    Canoles M, M Soto, R Beaudry (2005) Hydroperoxide lyase activity necessary for normal aroma volatile biosynthesis of tomato fruit, impacting sensory perception and preference. Hortscience 40:1130–1131. [ Links ]

    Chen G, R Hackett, D Walker, A Taylor, Z Lin, D Grierson (2004) Identification of specific isoform of tomato lipoxygenase (TomloxC) involved in the generation of fatty acid–derived flavor compounds. Plant Phisiol. 136:2641–2651. [ Links ]

    Christensen L P, M Edelenbos, S Kreutzmann (2007) Fruits and vegetables of moderate climate. In: Flavours and Fragrances Chemistry, Bioprocessing and Sustainability. R G Berger (ed). Springer–Verlag. Berlin, Heidelberg. pp:135–181. [ Links ]

    Czerny M, M Christlbauer, A Fischer, M Granvogl, M Hammer, C Hartl, N Hernandez, P Schieberle (2008) Re–investigation on odour thresholds of key food aroma compounds and development of an aroma language based on odour qualities of defined aqueous odorant solutions. Europ. Food Res. Technol. 228:265–273. [ Links ]

    Díaz de León–Sánchez F, C Pelayo–Zaldívarb, F Rivera–Cabrera, M Ponce–Valadeza, X Ávila–Alejandrea, F J Fernández (2009) Effect of refrigerated storage on aroma and alcohol dehydrogenase activity in tomato fruit. Postharv. Biol. Technol. 54:93–100. [ Links ]

    Dorais M, A P Papadopoulos, A Gosselin (2001) Greenhouse tomato fruit quality. Hort. Rev. 26:239–319. [ Links ]

    Dudareva N, E Pichersky (2008) Metabolic engineering of plant volatiles. Curr. Op. Biotechnol. 19:181–189. [ Links ]

    Eskin N A M (1979) Aldehydes, alcohols, and esteres: Biogenesis. In: Plant Pigments, Flavors and Textures. The Chemistry and Biochemistry of Selected Compounds. Academic Press. New York. pp:94–107. [ Links ]

    Galliard T, J A Matthew, A J Wright, MF Fishwick (1977) The enzyme breakdown of lipids to volatile and non–volatile carbonyl fragments in distrupted tomato fruit. J. Agric. Food Chem. 28: 863– 868. [ Links ]

    García–Sahagún M L, V Martínez–Juárez, A N Avedaño–López, M C Padilla–Sahagún, H Izquierdo–Oviedo (2009) Acción de oligosacáridos en el rendimiento y calidad de tomate. Rev. Fitotec. Mex. 32:295–301. [ Links ]

    Gargouri M, N Ben Akacha, F Kotti, I Ben Rejeb (2008) Lipoxygenase pathway: valorization of plant oils and aroma biosynthesis. Biotechnol Agron. Soc. Environ. 12:185–202. [ Links ]

    González–Aguilar G A, J F Ayala–Zavala, L A De La Rosa, E Álvarez–Parrilla (2010) Preserving quality of fresh–cut products using safe technologies. J. Consumer Prot. Food Safety 5:65–72. [ Links ]

    Griffiths A, C Barry, A G Alpuche–Soli, D Grierson (1999) Ethylene and developmental signals regulate expression of lipoxygenase genes during tomato fruit ripening. J. Exp. Bot. 50:793–798 [ Links ]

    Grosch W (2007) Gas chromatography–olfactometry of aroma compounds. In: Flavours and Fragrances Chemistry, Bioprocessing and Sustainability. R G Berger (ed). Springer–Verlag. Berlin, Heidelberg. pp:363–377. [ Links ]

    Heitz T, D R Bergey, C A Ryan (1997) A gene encoding a chloroplast–targeted lipoxygenase in tomato leaves is transiently induced by wounding, systemin, and methyl jasmonate. Plant Physiol. 114:1085–1093. [ Links ]

    Kader A A (2008) Flavor quality of fruits and vegetables. J. Sci. Food Agric. 88:1863–1868. [ Links ]

    Kataoka H, H L Lord, J Pawliszyn (2000) Applications of solid–phase microextraction in food analysis. J. Chromatography A 880:35–62. [ Links ]

    Krumbein A, P Peters, B Bruckner (2004) Flavor compounds and a quantitative descriptive analysis of tomatoes (Lycopersicon esculentum Mill.) of different cultivars in shorterm storage. Postharv. Biol. Technol. 35:15–28. [ Links ]

    Lalel H J D, Z Singh, C S Tan (2004) Ripening temperatures influence biosynthesis of aroma volatile compounds in 'Kensington Pride' mango fruit. J. Hort. Sci. Biotechnol. 79:146–157. [ Links ]

    Lewinsohn E, F Schalechet, J Wilkinson, K Matsui, Y Tadmor, K H Nam, O Amar, E Lastochkin, O Larkov, U Ravid, W Hiatt, S Gepstein, E Pichersky (2001) Enhances levels of the aroma and flavor compound S–Linalool by metabolic engineering of the terpenoid pathway in tomato fruits. Plant Physiol. 127:1256–1265. [ Links ]

    Malundo T M M, R L Shewfelt, J W Scott (1995) Flavor quality of fresh tomato (Lycopersicon esculentum Mill.) as affected by sugar and acid levels. Postharv. Biol. Technol. 6:103–110. [ Links ]

    Maneerat C, Y Hayata, K H Hiroshi, K Sakamoto, Y Osajima (2002) Application of the porapak q column extraction method for tomato flavor volatile analysis. J. Agric. Food Chem. 50:3401–3404. [ Links ]

    Maróstica Jr M R, G M Pastore (2007) Tropical fruit flavour. In: Flavours and Fragrances Chemistry, Bioprocessing and Sustainability. R G Berger (ed). Springer–Verlag. Berlin, Heidelberg. pp:189–200. [ Links ]

    Maul E, S A Sargent, C A Sims, E A Baldwin, M O Balaban, D J Huber (2000) Tomato flavor and aroma quality as affected by storage temperature. J. Food Sci. 65:1228–1237. [ Links ]

    Narain N,MS Galvao, K L Santana, J J Silveira (2010) Volatile compounds in tomato–based dried products. Drying Technol. 28:232–239. [ Links ]

    Ortiz–Serrano P, J V Gil (2010) Quantitative comparison of free and bound volátiles of two comercial tomato cultivars (Solanum lycopersicum L.) during ripening. J. Agric. Food Chem. 58:1106–1114. [ Links ]

    Peach J C, A Latché, B Rest van der (2008) Genes involved in the biosynthesis of aroma volatiles and biotechnological applications. In: Fruit and Vegetable Flavor. B Brucker, S G Wyllie (eds). CRC Press. Boca Raton, Boston, New York, Washington D.C. pp:254–271. [ Links ]

    Perez A G, C Sanz (2008) Formation of fruit flavor. In: Fruit and Vegetables Flavor. B Bruker, S G Wyllie (eds). CRC Press. Boca Raton, Boston, New York Washington, D.C. pp:41–70. [ Links ]

    Piggott J R, C J Schaschke (2001) Release cells, breath analysis and inmouth analysis in flavor research. Biomol. Enginer. 17:129–136. [ Links ]

    Prestage S, R S T Linforth, A J Taylor, E Lee, J Speirs, W Schuch (1999) Volatile production in tomato fruit with modified alcohol dehydrogenase activity. J. Sci. Food Agric. 79:131–136. [ Links ]

    Reineccius G A (2007) Flavour–isolation techniques. In: Flavours and Fragrances Chemistry, Bioprocessing and Sustainability. R G Berger (ed). Springer–Verlag. Berlin, Heidelberg. pp: 409–425. [ Links ]

    Riley J C M, C Willemot, J E Thompson (1996) Lipoxygenase and hydroperoxide lyase activities in ripening tomato fruit. Postharv. Biol. Technol. 7: 97–107. [ Links ]

    Saladié M, A J Matas, T Isaacson, M A Jenks, S M Goodwin, K J Niklas, R Xiaolin, J M Labavitch, K A Shackel, A R Fernie, A Lytovchenko, M A O'Neill, C B Watkins, J K C Rose (2007) A reevaluation of the key factors that influence tomato fruit softening and integrity. Plant Physiol. 144:1012–1028. [ Links ]

    Salas J J (2004) Characterization of alcohol acytransferase from olive fruit. J. Agric. Food Chem. 52:3155–3158. [ Links ]

    Schwab W, R Davidovich–Rikanati, E Lewinsohn (2008) Biosynthesis of plant–derived flavor compounds. The Plant J. 54:712–732. [ Links ]

    Schwab W, P Schreier (2002) Enzymic formation of flavor volatiles from lipids. In: Lipid Biotechnology. T M Kuo, H W Gardner (eds). Marcel Dekker. New York. pp:293–318. [ Links ]

    Simkin A, S H Shwartz, M Aulridge, M G Taylor, H J Klee (2004) The tomato carotenoid cleavage dioxygenase 1 genes contribute to the formation of the flavor volatiles ß–ionone, pseudoionone, and geranylacetone. The Plant J. 40:882–892. [ Links ]

    Sinesio F, M Cammareri, E Moneta, B Navez, M Preparaio, M Causse, S Grandillo (2010) Sensory quality of fresh french and dutch market tomatoes: A preference mapping study with italian consumers. J. Food Sci. 75:S55–S67. [ Links ]

    Sorrequieta A, G Ferraro, S B Boggio, E M Valle (2010) Free amino acid production during tomato fruit ripening: a focus on L–glutamate. Amino Acids 38:1523–1532. [ Links ]

    Tandon K S, E A Baldwin, R L Shewfelt (2000) Aroma perception of individual volatile compounds in fresh tomatoes (Lycopersicon esculentum Mill.) as affected by the medium of evaluation. Postharv. Biol. Technol. 20: 261–268. [ Links ]

    Tandon K S, E A Baldwin, J W Scott, R L Shewfelt (2003) Linking sensory descriptors to volatile and nonvolatile components of fresh tomato flavor. J. Food Sci. 68:2366–2371. [ Links ]

    Taylor A J (2002) Release and transport of flavors in vivo: ysicochemical, physiological, and perceptual considerations. Compreh. Rev. Food Sci. Food Safety 1:45–57. [ Links ]

    Taylor A J, K S Pearson, M D Hodgson, J P Landgridge, R S Linforth (2006) Effect of physiology and physical chemistry on aroma delivery and perception. Develop. Food Sci. 43:17–20. [ Links ]

    Thompson J F, E J Mitcham, F G Michel (2002) Preparation for fresh market. In: Postharvest Technology of Horticultural Crops. A Kader (ed). 3rd ed. Univerisity of California, Agriculture and Natural Resouces 3311. pp:67–79. [ Links ]

    Tieman D M, H M Loucas, J Y Kim, D G Clark, H J Klee (2007) Tomato phenylacetaldehyde reductases catalyze the last step in the synthesis of the aroma volatile 2–phenylethanol. Phytochemistry 68:2660–2669. [ Links ]

    Tieman D, M Taylor, N Schauer N, A R Fernie, A D Hanson, H J Klee (2006) Tomato aromatic amino acid decarboxylases participate in synthesis of the flavor volatiles 2–phenylethanol and 2–phenylacetaldehyde. Plant Biol. 103:8287–8292. [ Links ]

    Tikunov Y, A Lommen, C H Ric de Vos, H A Verhoeven, R J Bino, R D Hall, A G Bovy (2005) A novel approach for nontargeted data analysis for metabolomics. Largescale profiling of tomato fruit volatiles. Plant Physiol. 139:1125–1137. [ Links ]

    Vera L, M Mestres, R Boqué, O Busto, J Guasch (2010) Use of synthetic wine for models transfer in wine analysis by HS–MS e–nose. Sensors & Actuators B 143:689–695. [ Links ]

    Vogel J T, D M Tieman, C A Sims, A Z Odabasi, D G Clark, H J Klee (2010) Carotenoid content impacts flavor acceptability in tomato (Solanum lycopersicum). J. Sci. Food Agric. 90:2233–2240. [ Links ]

    Xu Y, S A Barringer (2009) Effect of temperature on lipid–related volatile production in tomato puree. J. Agric. Food Chem. 57:9108–9113. [ Links ]

    Yilmaz E (2001a) The chemistry of fresh tomato flavor. Turkish J. Agric. For. 25:149–155. [ Links ]

    Yilmaz E (2001b) Oxilipin pathway in the biosynthesis of fresh tomato volatiles. Turkish J. Biol. 25:351–360. [ Links ]

    Yilmaz E, K S Tandon, J W Scott, E A Baldwin, R L Shewfelt (2001) Absence of a clear relationship between lipid pathway enzymes and volatile compounds in fresh tomatoes. J. Plant Physiol. 158:1111–1116. [ Links ]

    Yilmaz E, E A Baldwin, R I Shewfelt (2002a) Enzymatic modification of tomato homogenate and its effect on volatile flavor compounds. J. Food Sci. 67:2122–2125. [ Links ]

    Yilmaz E, J W Scott, R I Shewfelt (2002b) Effects of harvesting maturuty and off plant ripening on the activities of lipoxygenase, hydroperoxidelyase, and alcohol dehydrogenase enzymes in fresh tomato. J. Food Biochem. 26:443–457. [ Links ]

    Zhang Z M, D D Zeng, G K Li (2008) Study of the volatile composition of tomato during storage by a combination sampling method coupled with gas chromatography/mass spectrometry. J. Sci. Food Agric. 88:116–124. [ Links ]