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ZHANG Hong-Pei, ZHANG Xiao-Ru, HU Ge-Ge, DONG Juan-E. Relationship between H2O2 Burst and Medium Alkalinization Induced by Salicylic Acid in Salvia miltiorrhiza Cell Suspension Cultures[J]. Plant Science Journal, 2015, 33(3): 405-413. DOI: 10.11913/PSJ.2095-0837.2015.30405
Citation: ZHANG Hong-Pei, ZHANG Xiao-Ru, HU Ge-Ge, DONG Juan-E. Relationship between H2O2 Burst and Medium Alkalinization Induced by Salicylic Acid in Salvia miltiorrhiza Cell Suspension Cultures[J]. Plant Science Journal, 2015, 33(3): 405-413. DOI: 10.11913/PSJ.2095-0837.2015.30405
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Relationship between H2O2 Burst and Medium Alkalinization Induced by Salicylic Acid in Salvia miltiorrhiza Cell Suspension Cultures

  • College of Life Sciences, Northwest Agriculture and Forestry University, Yangling, Shaanxi 712100, China

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  • Received Date: August 12, 2014
  • Available Online: October 31, 2022
  • Published Date: June 27, 2015
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    • Abstract
  • Salicylic acid (SA) treatment can induce significant H2O2 burst in Salvia miltiorrhiza suspension culture cell and its medium alkalinization. In this study, the correlation between SA-induced H2O2 burst and medium alkalinization was investigated through NADPH oxidase inhibitor imidazole (IMD), H2O2 quenching agent dimethylthiourea (DMTU), plasma membrane H+-ATPase inhibitor Na3VO4 and plasma membrane H+-ATPase activator fusicoccin (FC). Results showed that (1) H2O2 treatment also induced significant medium alkalinization, and IMD and DMTU suppressed the process of SA-induced medium alkalinization, which suggested that H2O2 was involved in the process of SA-induced medium alkalinization; (2) SA suppressed the activity of plasma membrane H+-ATPase, Na3VO4 treatment caused rapid medium alkalinization and led to H2O2 burst ahead of time, and FC reversed SA-induced medium alkalinization and H2O2 accumulation, which suggested that plasma membrane H+-ATPase regulated the change in medium pH value and medium alkalinization promoted the generation of H2O2. Overall, the H2O2 level in the S. miltiorrhiza suspension culture cell and its medium alkalinization level functioned together to respond to induction of salicylic acid.
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  • [1]
    王弋博, 冯虎元, 曲颖, 程佳强, 王勋陵, 安黎哲. 活性氧在UV-B诱导的玉米幼苗叶片乙烯产生中的作用[J]. 植物生态学报, 2007, 31(5): 946-951.
    [2]
    Bessonbard A, Pugin A, Wendehenne D. New insights into nitric oxide signaling in plants[J]. Annu Rev Plant Biol, 2008, 5(9): 21-39.
    [3]
    Rengel Z. Confocal pH Topography in Plant Cells: Shifts of Proton Distribution Involved in Plant Signalling[M]// Handbook of Plant Growth: pH as A Major Variable in Plant Growth. New York: CRC Press, 2001: 55-86.
    [4]
    Zhao J, Lawrence C. Davis RV. Elicitor signal transduction leading to production of plant se-condary metabolites[J]. Biotechnol Adv, 2005, 23(4): 283-333.
    [5]
    Ojalvo I, Rokem JS, Navon G. 31P NMR study of elicitor treated Phaseolus vulgaris cell suspension cultures[J]. J Plant Physiol, 1987, 85(3): 716-719.
    [6]
    高海波, 沈应柏, 黄秦军. 机械刺激触发沙冬青细胞产生依赖Ca2+的H+内流[J]. 林业科学, 2012, 48(11): 36-41.
    [7]
    Benouaret R, Goujon E, Goupil P. Grape marc extract causes early perception events, defence reactions and hypersensitive response in cultured tobacco cells[J]. Plant Physiol Bioch, 2014, 77(4): 84-89.
    [8]
    Gust AA, Biswas R, Lenz HD, Rauhut T, Ranf S, Kemmerling B, Gotz F, Glawischnig E, Lee J, Felix G, Nurnberger T. Bacteria-derived peptidoglycans constitute pathogen-associated molecular patterns triggering innate immunity in Arabidopsis[J]. J Biol Chem, 2007, 282(2): 32338-32348.
    [9]
    Sakano K. Metabolic regulation of pH in plant cells: role of cytoplasmic pH in defense reaction and secondary metabolism[J]. Int Rev Cytol, 2001, 20(6): 41-44.
    [10]
    刘连成, 王聪, 董娟娥, 苏慧, 卓泽群, 薛雅馨. Ca2+在水杨酸诱发的丹参培养细胞培养基碱化过程中的作用[J] . 生物工程学报, 2013, 29(7): 986-997.
    [11]
    刘菲, 魏芳芳, 王蕾, 刘辉, 梁元存, 刘爱新. 核黄素对烟草悬浮细胞活性氧和防卫反应的激活作用[J]. 中国农业科学, 2009, 42(12): 4175-4181.
    [12]
    Brault M, Amiar Z, Pennarun AM. Plasma membrane depolarization induced by abseisic acid in Arabidopsis suspension cells involves reduction of proton pumping in addition to anion channel activation, which ale both Ca2+ dependent[J]. J Plant Physiol, 2004, 135(1): 231-243.
    [13]
    Hao HP, Jiang CD, Shi L, Tang YD, Yao J, Li ZQ. Effects of root temperature on thermostability of photosynthetic apparatus in Prunus mira seedlings[J]. Chin J Plant Ecol, 2009, 33(5): 984-992.
    [14]
    庞杰, 郝丽珍, 张凤兰, 赵鹏, 杨忠仁. 沙芥叶片活性氧和抗坏血酸对干旱胁迫的响应[J]. 植物生理学报, 2013, 49(1): 57-62.
    [15]
    Xiao Z, Dong FC, Gao JF, Song CP. Hydrogen peroxide-induced changes in intracellular pH of guard cells precede stomatal closure[J]. Cell Res, 2001, 11(1): 37-43.
    [16]
    Meijer HJ, Terriet B, Vanhimbergen JA. KCI activates phospholipase D at two different concentration ranges: distinguishing between hyperosmotic stress and membrane depolarization[J]. Plant J, 2002, 31(1): 51-59.
    [17]
    中华人民共和国药典委员会. 中国药典[S]. 北京: 化学工业出版社, 2010: 70-71.
    [18]
    焦蒙丽, 曹蓉蓉, 陈红艳, 郝文芳, 董娟娥. 水杨酸对丹参培养细胞中迷迭香酸生物合成及其相关酶的影响[J]. 生物工程学报, 2012, 28(3): 320-328.
    [19]
    Chen MJ, Zhang CZ, Zi Q, Qiu DW, Liu WX, Zeng HM. A novel elicitor identified from Magnaporthe oryzae triggers[J]. Plant Cell Rep, 2014, 24(7): 166-174.
    [20]
    陈红艳, 刘连成, 董娟娥, 夏广东. H2O2参与水杨酸诱导丹参培养细胞中丹酚酸B合成的信号转导[J]. 生物工程学报, 2012, 28(7): 834-846.
    [21]
    行冰玉, 党小琳, 张婧一, 汪波, 陈子逸, 董娟娥. 茉莉酸甲酯对丹参培养细胞中迷迭香酸生物合成及相关酶活性的影响[J]. 植物生理学报, 2013, 49(12): 1326-1332.
    [22]
    Li SW, Xue LG, Xu SJ. Hydrogen peroxide acts as a signal molecule in the adventitious root formation of mung bean seedlings[J]. Environ Exp Bot, 2009, 65(1): 63-71.
    [23]
    贺学勤, 张聪超. DMTU对瓶插月季花瓣中抗氧化酶和蔗糖代谢酶活性的影响[J]. 作物杂志, 2013, 13(2): 91-95.
    [24]
    Okada M, Matsumura M, Ito Y. High-affinity bin-ding proteins for N-acetylchitooligosaccharide eli-citor in the plasma membranes from wheat, barley and carrot cells: conserved presence and correlation with the responsiveness to the elicitor[J]. Plant Cell Physiol, 2002, 43(5): 505-512.
    [25]
    Juan CC, Aurélien B, Pierre C, Patrick F, Pierre VC. Chitosan oligosaccharides modulate the supramolecular conformation and the biological activity of oligogalacturonides in Arabidopsis[J]. Glycobiology, 2010, 20(6): 775-786.
    [26]
    Andreas S, Claudia O. Modulation of plasma membrane H+-ATPase activity differentially activates wound and pathogen defense responses in tomato plants[J]. Plant Cell, 1999, 11(2): 263-272.
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