QIN Xincheng, WANG Fei, WANG Xiaojuan, ZHOU Gongke, LI Zhixiao. Effect of combined treatment of 60Coy-ray and EMS on antioxidase activity and ODAP content in Lathyrus sativus[J]. Chinese Journal of Applied Ecology, 2000, (6): 957-958.
[1] Aebi H. 1984. Catalase in vitro. Meth Enzymol,105(1):121~126 [2] Bai L-Y(白玲玉),Ma Y-Zh((马玉珠),Hua L(华骆)et al. 1996. The effects of low-dose 60Coy rays irradiation on some enzyme activities and isoenzyme zymogram in pak-choi seedlings. Acta Agric Nucl Sin(核农学报),10(1):21~24(in Chinese) [3] Blech DM, Borders CL. 1983. Hydroperoxide anion, HO2-, is an affinity reagent for the inactivation of yeast Cu, Zn superoxide dismutese: modification of one histidine per subunit. Arch Biochem Biophys, 224(2):579~586 [4] Del Longo OT, Gonzalez CA, Postori GM et al. 1993. Antioxidant defences under hyperoxygenic and hyperosmotic conditions in leaves of two lines of maize with differential sensitivity to drought. Plant and Cell Physiol,34(7):1023~1028 [5] Inze DM, Van MM. 1995. Oxidative stress in plants. Curr Opin Biotechnol,6(1):153~158 [6] Kar PK, Choudhuri MA. 1987. Possible mechanism of light-induced cholorophyll degradation in senescing leaves of hydrila verticillata. Physiol Plant,70(4):729~734 [7] Shinizu N, Kazuo K, Koichivo H. 1984. The reaction of superoxide radical with catalase. J Bio Chem,259(7):4414~4418 [8] Song D-J(宋道军),Li H(李红),Yu Z-L(余增亮)1998. Effects of N+ ion implantation on activities of superoxide dismutase, peroxidase catalase of different radiation-sensitive bacteria. Acta Biophys Sin(生物物理学报),14(2):325~329(in Chinese)
