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REFERENCES

  • Aebi H. (1984) Catalase in vitro. Methods in Enzymology 105, 121 126.
  • Ayub R., Guis M., Ben Amor M., Gillot L., Roustan J.P., Latché A., Bouzayen M., Pech J.C. (1996) Expression of ACC oxidase antisense gene inhibits ripening of cantaloupe melon fruits. Nature Biotechnology 14, 826 866.
  • Cabrera R.M. & Saltveit M.Jr (1992) Cucumber cultivars differ in their response to chilling temperatures. Journal of the American Society for Horticultural Science 117, 802 807.
  • Chaplin G.R., Wills R.B., Graham D. (1983) Induction of chilling injury in stored avocados with exogenous ethylene. Hortscience 18, 952 953.
  • Collins G.G., Nie X., Saltviet M.E.Jr (1993) Heat shock increases chilling tolerance of mung bean hypocotyl tissue. Physiologia Plantarum 89, 117 124.
  • Davis P.L. & Chace W.G. (1969) Determination of alcohol in citrus juice by gas chromatographic analysis of headspace. Hortscience 4, 117 119.
  • Ferrer M.A., Calderon A.A., Munoz R., Barcelo A.R. (1990) 4-Methoxy-α−naphtol as a specific substrate for kinetic, zymographic and cytochemical studies on plant peroxidase activities. Phytochemical Analysis 1, 63 69.
  • Foster J.G. & Hess J.L. (1980) Response of superoxide dismutase and glutathione reductase activities in cotton leaf tissue exposed to an atmosphere enriched in oxygen. Plant Physiology 66, 482 487.
  • Gray J.E., Picton S., Giovannoni J.J., Grierson D. (1994) The use of transgenic and naturally occurring mutants to understand and manipulate tomato fruit ripening. Plant, Cell and Environment 17, 557 571.
  • Guis M., Botondi R., Ben Amor M., Ayub R., Bouzayen M., Pech J.C., Latché A. (1997) Ripening-associated biochemical traits of cantaloupe Charentais melons expressing an antisense ACC oxidase transgene. Journal of the American Society for Horticultural Science 122, 748 751.
  • Hamilton A.J., Lycett G.W., Grierson D. (1990) Antisense gene that inhibits synthesis of the hormone ethylene in transgenic plants. Nature 346, 284 287.
  • Hariyadi P. & Parkin K.L. (1991) Chilling-induced oxidative stress in cucumber fruits. Postharvest Biology and Technology 1, 33 45.
  • Hatton T.T. & Cubbedge R.H. (1981) Effect of ethylene on chilling injury and subsequent decay of conditioned early ‘Marsh’ grapefruit during low-temperature storage. Horscience 16, 783 784.
  • Hirose T. (1985) Effects of pre- and interposed warming on chilling injury, respiratory rate and membrane permeability of cucumber fruits during cold storage. Journal of the Japanese Society for Horticultural Science 53, 459 466.
  • Inaba M. & Crandall P.G. (1988) Electrolyte leakage as an indicator of high-temperature injury to harvest mature green tomatoes. Journal of the American Society for Horticultural Science 113, 96 99.
  • Ju Z., Yuan Y., Liou C., Zhan S., Xiu S. (1994) Effects of low temperature on H2O2 and heart browning of Chili and Yali pear (Pyrus brestscheideri, R.). Scientia Agricultural Sinica 27, 77 81.
  • Kerdnaimongkol K. & Woodson W.R. (1999) Inhibition of catalase by antisense RNA increases susceptibility to oxidative stress and chilling injury in transgenic tomato plants. Journal of the American Society for Hortiultural Science, in press.
  • Lacan D. & Baccou J.C. (1996) Changes in lipids and electrolyte leakage during nonnetted muskmelon ripening. Journal of the American Society for Horticultural Science 121, 554 558.
  • Lacan D. & Baccou J.C. (1998) High levels of antioxidant enzymes correlate with delayed senescence in nonnetted muskmelon fruits. Planta 204, 377 382.
  • Lelièvre J.M., Latché A., Jones B., Bouzayen M., Pech J.C. (1997) Ethylene and fruit ripening. Physiologia Plantarum 101, 727 739.
  • Lester G. & Stein E. (1993) Plasma membrane physicochemical changes during maturation and postharvest storage of muskmelon fruit. Journal of the American Society for Horticultural Science 118, 223 227.
  • Lipton W.J. & Ahroni Y. (1979) Chilling injury and ripening of ‘Honey Dew’ muskmelon stored at 2.5 °C or 5 °C after ethylene treatment at 20 °C. Journal of the American Society for Horticultural Science 104, 327 330.
  • Lipton W.J. & Wang C.Y. (1987) Chilling exposures and ethylene treatment change the level of ACC in ‘Honey Dew’ melons. Journal of the American Society for Horticultural Science 112, 109 112.
  • Lyons J.M. (1973) Chilling injury in plants. Annual Review of Plant Physiology 24, 445 446.
  • Lyons J.M., Raison J.K., Steponkus P.L. (1979) The plant membrane in response to low temperaure, In Low Temperature Stress in Crop Plants (eds Lyons J. M., Graham D. & Raison J. K.), pp. 1 24. Academic Press, New York.
  • Marangoni A.G., Palma T., Stanley D.W. (1996) Membrane effects in postharvest physiology. Postharvest Biology and Technology 7, 193 217.
  • McCollum T.G., Doostdar H., Mayer R.T., McDonald R.E. (1995) Immersion of cucumber fruit in heated water alters chilling-induced physiological changes. Postharvest Biology and Technology 6, 55 64.
  • McCornack A.A. (1976) Chilling injury of ‘Marsh’ grapefruit as influenced by diphinyl pads. Proceedings of the Florida State Horticultural Society 89, 200 202.
  • Miccolis V. & Saltveit M.E. (1995) Influence of storage period and temperature on the postharvest characteristics of six melon (Cucumis melo L., Inodorus Group) cultivars. Postharvest Biology and Technology 5, 211 219.
  • Oeller P.A., Min-Wong L., Taylor L., Pike D.A., Theologis A. (1991) Reversible inhibition of tomato fruit senescence by antisense RNA. Science. 254, 437 439.
  • Paliyath G. & Droillard M.J. (1992) The mechanism of membrane deterioration and disassembly during senescence. Plant Physiology and Biochemistry 30, 789 812.
  • Porat R., Weiss B., Cohen L., Daus A., Goen R., Droby D. (1999) Effects of ethylene and 1-methylcyclpropane on the postharvest qualities of ‘Shamouti’ oranges. Postharvest Biology and Technology 15, 155 163.
  • Riov J. & Yang S.F. (1982) Autoinhibition of ethylene production in citrus peel disks. Suppression of 1-aminocyclopropane-1- carboxylic acid synthesis. Plant Physiology 69, 687 690.
  • Sala J.M. (1998) Involvement of oxidative stress in chilling injury in cold-stored mandarin fruits. Postharvest Biology and Technology 13, 255 261.
  • Schirra M. (1992) Behaviour of ‘Star Ruby’ grapefruits under chilling and non-chilling storage temperature. Postharvest Biology and Technology 2, 315 327.
  • Tatsumi Y. & Murata T. (1981) Relation between chilling sensitivity of Cucurbitaceae fruits and the membrane permeability. Journal of the Japanese Society for Horticultural Science 50, 108 113.
  • Vendrell M. & McGlasson W.B. (1971) Inhibition of ethylene production in banana fruit tissue by ethylene treatment. Australian Journal of Biological Sciences 24, 885 895.
  • Wang C.Y. (1989) Chilling injury of fruits and vegetables. Food Reviews International 5, 209 236.
  • Wang C.Y. (1993) Approaches to reduce chilling injury of fruits and vegetables. Horticultural Reviews 15, 63 95.
  • Whitaker B.D. (1992) Changes in galactolipid and phospholipid levels of tomato fruits stored at chilling and nonchilling temperatures. Phytochemistry 31, 2627 2630.
  • Yuen C.M.C., Tridjaja N.O., Wills R.B.H., Wild B.L. (1995) Chilling injury development of ‘Tahitian’ lime, ‘Emperor’ mandarin, ‘Marsh’ grapefruit and ‘Valencia’ orange. Journal of the Food and Agriculture 67, 335 339.
  • Zeroni M., Galil J., Ben-Yehoshua S. (1976) Autoinhibition of ethylene formation in non-ripening stages of the fruit of sycamore fig (Ficus sycomorus L.). Plant Physiology 57, 646 650.