Chemistry Reference
In-Depth Information
Nazar, R., Iqbal, N., Syeed, S., & Khan, N. A. (2011). Salicylic acid alleviates decreases in
photosynthesis under salt stress by enhancing nitrogen and sulfur assimilation and antioxidant
metabolism differentially in two mungbean cultivars. Journal of Plant Physiology, 168,
807-815.
Pál, M., Horváth, E., Janda, T., Páldi, E., & Szalai, G. (2006). Physiological changes and defense
mechanisms induced by cadmium stress in maize. Journal of Plant Nutrition and Soil Science,
169, 239-246.
Potters, G., Pasternak, T., Guisez, Y., & Jansen, M. A. K. (2009). Different stresses, similar
morphogenic responses: integrating a plethora of pathways. Plant, Cell and Environment, 32,
158-169.
Rajjou, L., Belghazi, M., Huguet, R., Robin, C., Moreau, A., Job, C., et al. (2006). Proteomic
investigation of the effect of salicylic acid on Arabidopsis seed germination and establishment
of early defense mechanisms. Plant Physiology, 141, 910-923.
Raskin, I. (1992). Role of salicylic acid in plants. Annual Review of Plant Physiology. Plant
Molecular Biology, 43, 439-463.
Rock, C. D., Sakata, Y., & Quatrano, R. S. (2010). Stress signaling I: the role of abscisic acid
(ABA). In: A. Pareek, S. A. Sopory, H. J. Bohner & Govindjee (Eds.) Abiotic stress
adaptation in plants: physiological, molecular and genomic foundation. Dordrecht: Springer.
Seregin, I. V., & Ivanov, V. B. (1997). Histochemical investigation of cadmium and lead
distribution in plants. Russian Journal of Plant Physiology, 44, 791-796.
Shakirova, F. M. (2001). Nonspecific resistance of plants to stress factors and its regulation. Ufa:
Gilem.
Shakirova, F. M. (2007). Role of hormonal system in manifestation of growth promoting and
antistress action of salicylic acid. In S. Hayat & A. Ahmad (Eds.), Salicylic acid—a plant
hormone. The Netherlands: Springer.
Shakirova, F. M., Avalbaev, A. M., Bezrukova, M. V., & Gimalov, F. R. (2001). Induction of
wheat germ agglutinin synthesis by abscisic and gibberellic acids in roots of wheat seedlings.
Plant Growth Regulation, 33, 111-115.
Shakirova, F. M., Allagulova, Ch. R., Bezrukova, M. V., Avalbaev, A. M., & Gimalov, F. R.
(2009). The role of endogenous ABA in cold-induced expression of the TADHN dehydrin
gene in wheat seedlings. Russian Journal of Plant Physiology, 56, 720-723.
Shakirova, F. M., Avalbaev, A. M., Bezrukova, M. V., & Kudoyarova, G. R. (2010). Role of
endogenous hormonal system in the realization of the antistress action of plant growth
regulators on plants. Plant Stress, 4, 32-38.
Shakirova,
F.
M.,
&
Bezrukova,
M.
V.
(1997).
Induction
of
wheat
resistance
against
environmental salinization by salicylic acid. Biological Bulletin, 24, 109-112.
Shakirova, F. M., & Bezrukova, M. V. (2007). Current knowledge about presumable functions of
plant lectins. J. General Biol., 68, 98-114.
Shakirova, F. M., Bezrukova, M. V., & Khayrullin, R. M. (1993). The increase in lectin level in
wheat shoots under the action of salt stress. Biological Bulletin, 20, 142-145.
Shakirova, F. M., Bezrukova, M. V., & Shayakhmetov, I. F. (1996). Effect of heat shock on
dynamics of ABA and WGA accumulation in wheat cell culture. Plant Growth Regulation,
19, 85-87.
Shakirova, F. M., Sakhabutdinova, A. R., Bezrukova, M. V., Fatkhutdinova, R. A., &
Fatkhutdinova, D. R. (2003). Changes in the hormonal status of wheat seedlings induced by
salicylic acid and salinity. Plant Science, 164, 317-322.
Shinozaki, K., & Yamaguchi-Shinozaki, K. (2007). Gene networks involved in drought stress
response and tolerance. Journal of Experimental Botany, 58, 221-227.
Singh, P., Bhaglal, P., & Bhullar, S. S. (2000). Wheat germ agglutinin (WGA) gene expression
and ABA accumulation in developing embryos of wheat (Triticum aestivum) in response to
drought. Plant Growth Regulation, 30, 145-150.
Skriver, K., & Mundy, J. (1990). Gene expression in response to abscisic acid and osmotic stress.
Plant Cell, 2, 503-512.
Search WWH ::
Custom Search