Chemistry Reference
In-Depth Information
Kunihiro, S., Hiramatsu, T., & Kawano, T. (2011). Involvement of salicylic acid signal
transduction in aluminum-responsive oxidative burst in Arabidopsis thaliana cell suspension
culture. Plant Signaling and Behavior, 6, 611-616.
Lazof, D. B., Goldsmith, J. G., Rufty, T. W., & Linton, R. W. (1994). Rapid uptake of aluminum
into cells of intact soybean root tips. A microanalytical study using secondary ion mass
spectrometry. Plant physiology, 106, 1107-1114.
Lee, J.-S. (1998). The mechanism of stomatal closing by salicylic acid in Commelina communis
L. Journal of Plant Biology, 41, 97-102.
Li, G. M., Qing, S. F., Zheng, Q. Y., Hua, L. Z., Fu, S. Z., & Da, Y. S. (2000). Does aluminum
inhibit pollen germination via extracellular calmodulin. Plant and Cell Physiology, 41,
372-376.
Lin, C., Yu, Y., Kadono, T., Iwata, M., Umemura, K., Furuichi, T., et al. (2005). Action of
aluminum, novel TPC1-type channel inhibitor, against salicylate-induced and cold shock-
induced calcium influx in tobacco BY-2 cells. Biochemical and Biophysical Research
Communications, 332, 823-830.
Lin, C., Kadono, T., Suzuki, T., Yoshizuka, K., Furuichi, T., Yokawa, K., et al. (2006).
Mechanism
Ca
2+
for
temperature-shift-responsive
acute
uptake
in
suspension-cultured
tobacco and rice cells. Cryobiology and Cryotechnology, 52, 83-89.
Lin, C., Yoshizuka, K., & Kawano, T. (2007). Effect of rare earth elements on cold-responsive
Ca
2+
signaling in tobacco cells. Cryobiology and Cryotechnology, 53, 7-11.
Ma, J. F. (2000). Role of organic acids in detoxification of aluminum in higher plants. Plant and
Cell Physiology, 41, 383-390.
Ma, J. F., Yamamoto, R., Nevin, D. J., Matsumoto, H., & Brown, P. H. (1999). Al binding in the
epidermis cell wall inhibits cell elongation of okra hypocotyl. Plant and Cell Physiology, 40,
549-556.
Malamy, J., Carr, J. P., Klessig, D. F., & Raskin, I. (1990). Salicylic acid: A likely endogenous
signal in the resistance response of tobacco to viral infection. Science, 250, 1002-1004.
Manthe, B., Schulz, M., & Schnable, H. (1992). Effects of salicylic acid on growth and stomatal
movement on Vicia faba L.: Evidence for salicylic acid metabolism. Journal of Chemical
Ecology, 18, 1525-1539.
Marino, D., Dunand, C., Puppo, A., & Pauly, N. (2012). A burst of plant NADPH oxidases.
Trends in Plant Science, 17, 9-15.
Mehlhorn, H., Tabner, B. J., & Wellburn, A. R. (1990). Electron spin resonance evidence for the
formation of free radicals in plants exposed to ozone. Physiologia Plantarum, 79, 377-383.
Métraux, J.-P., Signer, H., Ryals, J., Ward, E., Wyss-Benz, M., Gaudin, J., et al. (1990). Increase
in salicylic acid at the onset of systemic acquired resistance in cucumber. Science, 250,
1004-1006.
Mittler, R., Vanderauwera, S., Suzuki, N., Miller, G., Tognetti, V. B., Vandepoele, K., et al.
(2011). ROS signaling: The new wave? Trends in Plant Science, 16, 300-309.
Moeder, W., Barry, C. S., Tauriainen, A. A., Betz, C., Tuomainen, J., Utriainen, M., et al. (2002).
Ethylene synthesis regulated by biphasic induction of 1-aminocyclopropane-1-carboxylic acid
synthase and 1-aminocyclopropane-1-carboxylic acid oxidase genes is required for hydrogen
peroxide accumulation and cell death in ozoneexposed tomato. Plant Physiology, 130,
1918-1926.
Møller, I. M. (2001). Plant Mitochondria and oxidative stress: Electron transport, NADPH
turnover, and metabolism of reactive oxygen species. Annual Review of Plant Physiology,
Plant Molecular Biology, 52, 561-591.
Møller,
I.
M., Jensen,
P. E., &
Hansson, A.
(2007). Oxidative
modifications
to
cellular
components in plants. Annual Review of Plant Biology, 58, 459-481.
Mori, I. C., & Schroeder, J. I. (2004). Reactive oxygen species activation of plant Ca
2+
channels.
A
signaling
mechanism
in
polar
growth,
hormone
transduction,
stress
signaling,
and
hypothetically mechanotransduction. Plant Physiology, 135, 702-708.
Search WWH ::
Custom Search