Chemistry Reference
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Doke, N. (1983a). Involvement of superoxide anion generation in the hypersensitive response of
potato tuber tissues to infection with an incompatible race of Phytophthora infestans and to
the hyphal wall components. Physiological Plant Pathology, 23, 345-357.
Doke, N. (1983b). Generation of superoxide anion by potato tuber protoplasts during the
hypersensitive response to hyphal wall components of Phytophthora infestans and specific
inhibition of the reaction by suppressors of hypersensitivity. Physiological Plant Pathology,
23, 359-367.
Doke, N. (1985). NADPH-dependent O2- generation in membrane fractions isolated from
wounded potato tubers inoculated with Phytophthora infestans. Physiological Plant Pathol-
ogy, 27, 311-322.
Doke, N., & Chai, H. B. (1985). Activation of superoxide generation and enhancement of
resistance against compatible races of Phytophthora infestans in potato plants treated with
digitonin. Physiological Plant Pathology, 27, 323-334.
Doke, N., & Miura, N. (1995). In vitro activation of NADPH-dependent O
2
-
generating system
in isolated plasmamembrane-rich fraction of potato tuber tissues by treatment with an elicitor
from Phytophthora infestans and digitonin. Physiological and Molecular Plant Pathology, 46,
17-28.
Du, L., Ali, G. S., Simons, K. A., Hou, J., Yang, T., Reddy, A. S. N., et al. (2009). Ca
2+
/
calmodulin regulates salicylic-acid-mediated plant immunity. Nature, 457, 1154-1158.
Evans, N. H., McAinsh, M. R., Hetherington, A. M., & Knight, M. R. (2005). ROS perception in
Arabidopsis thaliana: The ozone-induced calcium response. The Plant Journal, 41, 615-626.
Fiscus, E. L., Booker, F. L., & Burkey, K. O. (2005). Crop responses to ozone: Uptake, modes of
action, carbon assimilation and partitioning. Plant, Cell and Environment, 28, 997-1011.
Fobert, P. R., & Després, C. (2005). Redox control of systemic acquired resistance. Current
Opinion in Plant Biology, 8, 378-382.
Furuichi, T., Kawano, T., Tatsumi, H., & Sokabe, M., 2007. Roles of ion channels in
environmental responses of plants. In B. Martinac (Ed.), Sensing with ion channels. Springer
series in biophysics (Vol. 11 pp. 47-62). Berlin: Springer.
Gaupels, F., Kuruthukulangarakoola, G. T., & Durner, J. (2011). Upstream and downstream
signals of nitric oxide in pathogen defence. Current Opinion in Plant Biology, 14, 707-714.
Gechev, T. S., Van Breusegem, F., Stone, J. M., Denev, I., & Laloi, C. (2006). Reactive oxygen
species as signals that modulate plant stress responses and programmed cell death. Bioessays,
28, 1091-1101.
Grootveld, M., & Halliwell, B. (1986). Aromatic hydroxylation as a potential measure of
hydroxyl-radical formation in vivo. Identification of hydroxylated derivatives of salicylate in
human body fluids. Biochemical Journal, 273, 499-504.
Halliwell, B., Kaur, H., & Ingelman-Sundberg, M. (1991). Hydroxylation of salicylate as an assay
for hydroxyl radicals: A cautionary note. Free Radical Biology and Medicine, 10, 439-441.
Heggestad, H. E. (1991). Origin of Bel-W3, Bel-C and Bel-B tobacco varieties and their use as
indicators of ozone. Environmental Pollution, 74, 264-291.
Hennig, J., Malamy, J., Grynkiewicz, G., Indulski, J., & Klessig, D. F. (1993). Interconversion of
the salicylic acid signal and its glucoside in plants. The Plant Journal, 4, 593-600.
Higuchi, Y. (2003). Chromosomal DNA fragmentation in apoptosis and necrosis induced by
oxidative stress. Biochemical Pharmacology, 66, 1527-1535.
Inoue, H., Kudo, T., Kamada, H., Kimura, M., Yamaguchi, I., & Hamamoto, H. (2005). Copper
elicits an increase in cytosolic free calcium in cultured tobacco cells. Plant Physiology and
Biochemistry, 43, 1089-1094.
Jiang, M., & Zhang, J. (2002). Involvement of plasma-membrane NADPH oxidase in abscisic
acid- and water stress-induced antioxidant defense in leaves of maize seedlings. Planta, 215,
1022-1030.
Kadono, T., Yamaguchi, Y., Furuichi, T., Hirono, M., Garrec, J. P., & Kawano, T. (2006). Ozone-
induced cell death mediated with oxidative and calcium signaling pathways in tobacco Bel-
W3 and Bel-B cell suspension cultures. Plant Signaling and Behavior, 1, 312-322.
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