研究报告 |
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过量表达拟南芥CAT提高烟草对气体甲醛的吸收和抗性 |
韩双, 杨志丽, 陈丽梅 |
昆明理工大学生命科学与技术学院 生物工程技术研究中心 昆明 650500 |
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Over Expression of Arabidopsis CAT Improved the Absorption and Tolerance of Gas HCHO in Tobacco |
HAN Shuang, YANG Zhi-li, CHEN Li-mei |
Biotechnology Research Center, College of Life Science and Technology, Kunming University of Science and Technology, Kunming 650500, China |
[1] 金凯洪,王宝荣,李磊,等.农药废水中甲醛资源化回收的应用研究//持久性有机污染物论坛2010暨第五届持久性有机污染物全国学术研讨会论文集,持久性有机污染物论坛2010暨第五届持久性有机污染物全国学术研讨会, 2010, 南京:中国化学会, 2010: 212-213. Jin K H,Wang B R, Li L, et al. Application of Formaldehyde Resources Recycling on Pesticide Wastewater//POPs Forum 2010 cum Proceedings of the Fifth Persistent Organic Pollutants National Symposium .POPs Forum 2010 cum and the Fifth Persistent Organic Pollutants National Symposium, 2010, Nanjing:Chinese Chemical Society, 2010: 212-213.
[2] 宋春生.室内空气污染的来源及危害.福建环境, 2001,18(5): 38-41. Song C S. Sources and harm of indoor air pollution. Fujian Environment, 2001, 18(5): 38-41.
[3] Wolverton B C, Mcdonald R C, Watkins E A. Foliage plants for removing indoor air pollution from energy-efficient homes. Economic Bitany, 1984, 38(2): 224-228.
[4] Schmitz H, Hilgers U, Weidner M, et al. Assimilation and metabolism of formaldehyde by leaves appear unlikely to be of value for indoor air purification. New Phytologist, 2000, 147(2): 307-315.
[5] Wang S S, Song Z B, Sun Z, et al. Physiological and transcriptional analysis of the effects of formaldehyde exposure on Arabidopsis thaliana. Acta Physiologiae Plantarum, 2012, 34(3):923-936.
[6] Zeng Z D, QI C J, Chen Q, et al. Absorption and metabolism of formaldehyde in solutions by detached banana leaves. Journal of Bioscience and Bioengineering, 2014, 117(5): 602-612.
[7] 赵辉,郝振萍,金潇潇,等.甲醛污染对3种室内观赏植物叶片保护酶活性的影响.安徽农业科学,2009, 37(32): 55-57. Zhao H, Hao Z P, Jin X X, et al. The effect of protection enzyme activity of 3 indoor ornamental plant leaves under formaldehyde pollution. Agricultural Science of AnHui, 2009, 37(32): 55-57.
[8] Christie J M, Briggs W R. Blue light sening in higher plants. J. Biol. Chem, 2001, 276 (15): 11457-11460.
[9] 张晓,岛崎研一郎.过氧化氢抑制蓝光诱导的14-3-3蛋白与向光素的结合.科学通报,2005,8(50):836-838. Zhang X, Shimazaki. Hydrogen peroxide inhibited that 14-3-3 proteins induced by Blue light combined with PHOT. Chinese Science Bulletin, 2005,8(50): 36-838.
[10] Zhang X, Zhang L, Dong F, et al. Hydrogen peroxid is involved in abscisic acid-induced stomatal closure in Vicia faba. Plant Physiology, 2001, 126: 1438-1448.
[11] Pei Z M, Murata Y, Benning G, et al. Calcium channels activated by hydrogen peroxide mediate abscisic acid signaling in guard cells. Nature, 2000, 406(6797): 731-744.
[12] Aebi H.Catalase in vitro. Methods in Enzymology, 1984, 105:121-126.
[13] 宋中邦. 提高天竺葵甲醛修复能力的遗传操作及模式植物甲醛代谢途径分析.昆明:昆明理工大学,生命科学与技术学院,2010,21-22. Song Z B. The genetic manipulation for enhancing formaldehyde phytoremediation ability of geranium and the analyses on formaldehyde metabolic pathways in model plants. Kanming:Kunming University of Science and Technology, Faculty of Life Science and Technology,2010, 21-22.
[14] Yemm E W, Willis A J. The estimation of carbohydrates in plant extracts by anthrone. Biochem J, 1954, 57(3): 508-514.
[15] 李合生.植物生理生化实验原理和技术.北京:高等教育出版社, 2003:143-145. Li H S. The Principle and Technology of Plant Physiology and Biochemistry Experiment. BeiJing: Higher Education Press, 2003:143-145.
[16] Gay C A, Gebicki J M. Measurement of protein and lipid hydroperoxides in biological systems by the ferric-xylenol orange method. Anal Biochem, 2003, 315(1): 29-35.
[17] Gurel A O, Coskun F, Armutcu, et al. Vitamin E against oxidative damage caused by formaldehyde in frontal cortex and hippocampus: biochemical and histological studies. Journal of Cheical Neuroanatomy, 2005,29(3):173-178.
[18] 王莎莎. C1化合物影响拟南芥和烟草生长的生理基础和分子机理研究. 昆明:昆明理工大学,生命科学与技术学院,2012,55-56. Wang S S. Study on Physiological Basis and Molecular Mechanism of Arabidopsis and Tobacco Growth Effects of C1 Compounds. Kunming:Kunming University of Science and Technology, Faculty of Life Science and Technology,2012.55-56.
[19] Giuseppina R, Graziano Z. Plasma membrane-bound H+-ATPase and reductase activities in Fe-defident cucumber roots. Physiologia Plantarum, 1994, 90(4):779-785.
[20] Shen H, He L F, Sasaki T, et al. Citrate secretion coupled with the modulation of soybean root tip under aluminum stress. up-regulation of transcription, translation, and threonine-oriented phosphorylation of plasma membrane H+-ATPase. Plant Physiology, 2005, 138(1):287-296.
[21] Chen W R, Liu M, Xu G D, et al. Effects of applicated on alleviation of aluminum toxicity to soybean. Journal of Zhejiang Normal University, 2008, 31(2):201-207.
[22] Andrew D, Saori M, Hans B. Expression profiling of the response of Arabidopsis thaliana to methanol stimulation. Phytochemistry, 2004,65(16):2305-2316.
[23] Serrano R. Structure and function of proton translocating ATPases in plasma membrane of plants and fungi. Bioch Bio Phy Acta, 1988, 947(1):1-28.
[24] Serrano R. Structure and function of plasma membrane ATPase. Plant Biology, 1989, 40: 61- 94.
[25] Christie J M, Briggs W R. Blue light sening in higher plants. The Journal of Biological Chemistry, 2001, 276(15):11457-11460.
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