SEARCH

SEARCH BY CITATION

References

  • Allen, R.D., Webb, R.P. and Shake, S.A. (1997) Use of transgenic plants to study antioxidant defences. Free Rad Biol. Med. 23, 473479.
  • Alosi, M.C., Melroy, D.L. and Park, R.B. (1988) The regulation of gelation of phloem exudate from Cucurbita fruit by dilution, glutathione, and glutathione reductase. Plant Physiol. 86, 10891094.
  • Alvarez, M.E., Pennell, R.I., Meijer, P.J., Ishikawa, A., Dixon, R.A. and Lamb, C. (1998) Reactive oxygen intermediates mediate a systemic signal network in the establishment of plant immunity. Cell 92, 773784.
  • Baker, B., Zambryski, P., Staskawicz, B. and Dinesh- Kumar, S.P. (1997) Signalling in plant–microbe interactions. Science 276, 726733.
  • Beauchamp, C. and Fridovich, I. (1971) Superoxide dismutase: Improved assays and an assay applicable to acrylamide gels. Anal. Biochem. 44, 276287.
  • Blumwald, E., Aharon, G.S. and Lam, B.C.-H. (1998) Early signal transduction pathways in plant–pathogen interactions. Trends Plant Sci. 3, 342346.
  • Bolwell, G.P. and Wojtaszek, P. (1997) Mechanisms for the generation of reactive oxygen species in plant defence- a broad perspective. Physiol. Mol. Plant Pathol. 51, 347366.
  • Bowler, C., Van Montagu, M. and Inze, D. (1992) Superoxide dismutase and stress tolerance. Annu. Rev. Plant Physiol. Plant Mol. Biol. 43, 83116.
  • Crawford, K.M. and Zambryski, P.C. (1999) Phloem transport: are you chaperoned? Current Biol. 9, R281R285.
  • Cronshaw, J. (1981) Phloem structure and function. Ann. Rev. Plant Physiol. 32, 465484.
  • Dat, J., Vandenabeele, S., Vranova, E., Van Montagu, M., Inze, D. and Van Breusegem, F. (2000) Dual action of the active oxygen species during plant stress responses. Cell. Mol. Life Sci. 57, 779795.
  • De Gara, L., Paciolla, C., De Tullio, M.C., Motto, M. and Arrigoni, O. (2000) Ascorbate-dependent hydrogen peroxide detoxification and ascorbate regeneration during germination of a highly productive maize hybrid: Evidence of an improved detoxification mechanism against reactive oxygen species. Physiol. Plant. 109, 713.
  • Elstner, E.F. (1982) Oxygen activation and oxygen toxicity. Annu. Rev. Plant Phys. 33, 7396.
  • Elstner, E.F. (1987) Metabolism of activated oxygen species. In: The Biochemistry of Plants, Vol. II (Davis, D.D. ed.) New York, NY: Academic Press, pp. 253315.
  • Evert, R. (1990) Dicotyledons. In: Sieve Elements: Comparative Structure, Induction and Development (Behnke, H. Sjölund, R. eds) Berlin, Heidelberg, New York, NY: Springer, pp. 103137.
  • Fisher, D.B., Wu, Y. and Ku, M.S.B. (1992) Turnover of soluble proteins in the wheat sieve tube. Plant Physiol. 100, 14331441.
  • Haebel, S. and Kehr, J. (2001) Matrix-assisted laser desorption/ionisation time of flight mass spectrometry peptide mass fingerprints and post source decay: a tool for the identification and analysis of phloem proteins from Cucurbita maxima Duch. separated by 2D PAGE. Planta 213, 586593.
  • Hammerschmidt, R., Nuckles, E.M. and Kuc, J. (1982) Association of enhanced peroxidase activity with induced systemic resistance of cucumber to Colletotrichum lagenarium. Physiol. Plant Path. 20, 7382.
  • Henzel, W.J., Billeci, T.M., Stults, J.T., Wong, S.C., Grimley, C. and Watanabe, C. (1993) Identifying proteins from two-dimensional gels by molecular mass searching of peptide fragments in protein sequence databases. Proc. Natl Acad. Sci. USA 90, 50115015.
  • Herouart, D., Van Montagu, M. and Inze, D. (1994) Developmental and environmental regulation of the Nicotiana plumbaginifolia cytosolic Cu/Zn-superoxide dismutase promoter in transgenic tobacco. Plant Physiol. 104, 873880.
  • Ishiwatari, Y., Honda, C., Kawashima, I., Nakamura, S., Hirano, H., Mori, S., Fujiwara, T., Hayashi, H. and Chino, M. (1995) Thioredoxin h is one of the major proteins in rice phloem sap. Planta 195, 456463.
  • Jagtap, V. and Bhargava, S. (1995) Variation in the antioxidant metabolism of drought tolerant and drought susceptible varieties of Sorgum Bicolor (L.) Moench. exposed to high light, low water and high temperature stress. J. Plant Physiol. 145, 195197.
  • Kauss, H., Fauth, M., Merten, A. and Jeblick, W. (1999) Cucumber hypocotyls respond to cutin monomers via both an inducible and a constitutive H2O2-generating system. Plant Physiol. 120, 11751182.
  • Kehr, J., Haebel, S., Blechschmidt-Schneider, S., Willmitzer, L., Steup, M. and Fisahn, J. (1999) Analysis of phloem protein patterns from different organs of Cucurbita maxima Duch. by matrix-assisted laser desorption/ionisation time of flight mass spectroscopy combined with sodium dodecyl sulfate-polyacrylamide gel electrophoresis. Planta 207, 612619.
  • Lamb, C. and Dixon, R.A. (1997) The oxidative burst in plant disease resistance. Annu. Rev. Plant Physiol. Plant Mol. Biol. 48, 251275.
  • Larson, R.A. (1988) The antioxidants in higher plants. Phytochemistry 27, 969978.
  • Levine, A., Tenhaken, R., Dixon, R. and Lamb, C. (1994) H2O2 from the oxidative burst orchestrates the plant hypersensitive disease resistance response. Cell 79, 583593.
  • Manchenko, G.P. (1994) A Handbook of Detection of Enzymes on Electrophoretic Gels. Boca Raton: CRC Press,pp. 92–94, ISBN 0-8493-8935-6.
  • Mann, M. and Wilm, M. (1994) Error tolerant identification of peptides in sequence databases by peptide sequence tags. Anal. Chem. 66, 43904399.
  • McEuen, A.R. and Hill, H.A.O. (1982) Superoxide, hydrogen peroxide, and the gelling of phloem sap from Cucurbita pepo. Planta, 154, 295297.
  • Mittler, R. and Zilinskas, B.A. (1994) Regulation of pea cytosolic ascorbate peroxidase and other antioxidant enzymes during the progression of drought stress and following recovery from drought. Plant J. 5, 397405.
  • Ogawa, K., Kanematsu, S. and Asada, K. (1997) Generation of superoxide anion and localisation of CuZn-superoxide dismutase in the vascular tissue of spinach hypocotyls: their association with lignification. Plant Cell Physiol. 38, 11181126.
  • Orozco-Cardenas, M.L., Narvaez-Vasquez, J. and Ryan, C.A. (2001) Hydrogen Peroxide acts as a second messenger for the induction of defence genes in tomato plants in response to wounding, systemin and methyl jasmonate. Plant Cell 13, 179191.
  • Pagano, E.A., Chueca, A. and Lopéz-Gorgé, J. (2000) Expression of thioredoxins f and m, and of their targets fructose-1, 6-bisphosphatase and NADP-malate dehydrogenase, in pea plants grown under normal and light/temperature stress conditions. J. Exp. Bot. 51, 12991307.
  • Raven, J.A. (1991) Long-term functioning of enucleate sieve elements: possible mechanisms of damage avoidance and damage repair. Plant Cell Environ. 14, 139146.
  • Rice-Evans, C.A., Diplock, A.T. and Symons, M.C.R. (1991) Techniques in Free Radical Research. Amsterdam: Elsevier, ISBN 0-4448-1304-7.
  • Scandalios, J.G. (1997) Oxidative stress and defence mechanisms in plants: introduction. Free Radic. Biol. Med. 23, 471472.
  • Schoner, S. and Krause, G.H. (1990) Protective systems against reactive oxygen species in spinach: response to cold acclimation in excess light. Planta 180, 383389.
  • Schopfer, P. (1994) Histochemical demonstration and localization of H2O2 in organs of higher plants by tissue printing on nitrocellulose paper. Plant Physiol. 104, 12691275.
  • Suyama, T., Yamada, K., Mori, H., Takeno, K. and Yamaki, S. (1999) Cloning cDNAs for genes preferentially expressed during fruit growth in cucumber. J. Am. Soc. Hort. Sci. 124, 136139.
  • Yates, J.R. (1998) Mass spectrometry and the age of the proteome. J. Mass Spectrom. 33, 119.