Study on the dose-effect relationship of selenite with the growth of wheat (original) (raw)

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References

1. G. Q. Yang, Studies of human selenium requirements in China, in G. F. Combs, O. A. Levander, J. E. Spallholz, and J. E. Oldfield, eds. Selenium in Biology and Medicine, 3th Symposium, Van Nostrand Reinhold, New York, pp. 589–618 (1987).
   Google Scholar
2. T. C. Broyer, O. C. Lee, and C. J. Asher, Selenium nutrition of green plants, effect of selenite supply on growth and selenium content of alfalfa and subterranean clover, Plant Physiol. 44, 1425–1428 (1966).
   Google Scholar
3. S. F. Trelease and H. M. Trelease, Selenium as a stimulating and possible essential element for certain plants, Science 15, 57–58 (1990).
   Google Scholar
4. M. H. Zhou, Influence of selenium on growth, root vigor and seed morphology of rice, Gui-Zhou Agri. Sci. (China) 15, 57–59 (1990).
   Google Scholar
5. Y. Xu, Z. J. Wang, and A. Peng, Effect of fulvic acid in environment on the uptake selenium of wheat, J. Ecol. (China) 16, 135–139 (1996).
   Google Scholar
6. Z. J. Wang, Y. Xu, and A. Peng, Influences of fulvic acid on bioavailability and toxicity of selenite for wheat seedling and growth, Biol. Trace Element Res. 55, 147–162 (1996).
   Article CAS Google Scholar
7. P. L. Steponkus and F. O. Lanphear, Refinement of the triphenyl tetrazolium chloride method of determining cold injury, Plant Physiol. 42, 1423–1426 (1967).
   PubMed CAS Google Scholar
8. G. L. Miller, Use of dinitro-salicylic acid reagent for determination of reducing sugar, Anal. Chem. 31, 426–428 (1959).
   Article CAS Google Scholar
9. D. I. Arnon, Copper enzymes in isolated chloroplants polyphenoloxidase in Beet Vulgaris, Plant Physiol. 24, 1–4 (1949).
   Article PubMed CAS Google Scholar
10. H. X. Liu, S. X. Zeng, Y. R. Wang, P. Li, D. F. Chen, and J. Y. Guo, Effect of low temperature on peroxidase activity of cucumbers seedling leaf with various ability of cold-resisting, Acta Plant Physiol. (China) 11, 48–57 (1985).
    CAS Google Scholar
11. L. S. Bates, R. P. Waldren, and I. D. Teare, Rapid determination of free proline for water stress studies, Plant Soil 39, 205–214 (1973).
    Article CAS Google Scholar
12. M. M. Bradford, A rapid and sensitive method for the quantities of microgram quantitative of protein utilizing the principle of protein dries binding, Anal. Biochem. 72, 248–251 (1976).
    Article PubMed CAS Google Scholar
13. R. S. Dhindsa, P. D. Pamela, and T. A. Thorpe, Leaf senescence: correlated with increased levels of membrane permeability and lipid peroxidation and decrease levels of superoxide dismutase and catalase, J. Exp. Bot. 32, 93–95 (1981).
    Article CAS Google Scholar
14. C. Z. Zhu, Determination of activity of peroxidase, Adv. Biochem. Biophys. (China) 6, 80–83 (1985).
    Google Scholar
15. B. J. Davis, Disc electrophoresis: Method and application to human serum protein, Ann. NY Acad. Sci. 121, 404–407 (1964).
    Article PubMed CAS Google Scholar
16. Shanghai Plant Physiology Committee, Experimental Handbook of Plant Physiology, Shanghai Science and Technology Press, Shanghai, pp. 67–70 (1981).
    Google Scholar
17. J. Y. Zhou, B. H. Chen, and H. B. Xu, The dose-effect of selenium and active oxygen species, The Sixth International Symposium on Selenium in Biology and Medicine, Abstract Book, Beijing, p. 130 (1996).
18. K. X. Huang, Study on containing-selenium bio-macromolecule in plant, Ph.D. thesis, Hua-Zhong Polytechnical University, Wuhan, China, pp. 27–29 (1995).
    Google Scholar

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