罗映虹, 张一扬, 刘晓颖, 李爽, 刘坤, 崔超岗, 谭观萍, 周冀衡. 外源抗坏血酸与谷胱甘肽对打顶后烟草氧化还原平衡及烟碱的影响[J]. 中国生态农业学报(中英文), 2016, 24(3): 356-364.
引用本文: 罗映虹, 张一扬, 刘晓颖, 李爽, 刘坤, 崔超岗, 谭观萍, 周冀衡. 外源抗坏血酸与谷胱甘肽对打顶后烟草氧化还原平衡及烟碱的影响[J]. 中国生态农业学报(中英文), 2016, 24(3): 356-364.
LUO Yinghong, ZHANG Yiyang, LIU Xiaoying, LI Shuang, LIU Kun, CUI Chaogang, TAN Guanping, ZHOU Jiheng. Influence of daub exogenous ascorbic acid and glutathione on wounds after tobacco topping on redox equilibrium and nicotine content of tobacco[J]. Chinese Journal of Eco-Agriculture, 2016, 24(3): 356-364.
Citation: LUO Yinghong, ZHANG Yiyang, LIU Xiaoying, LI Shuang, LIU Kun, CUI Chaogang, TAN Guanping, ZHOU Jiheng. Influence of daub exogenous ascorbic acid and glutathione on wounds after tobacco topping on redox equilibrium and nicotine content of tobacco[J]. Chinese Journal of Eco-Agriculture, 2016, 24(3): 356-364.

外源抗坏血酸与谷胱甘肽对打顶后烟草氧化还原平衡及烟碱的影响

Influence of daub exogenous ascorbic acid and glutathione on wounds after tobacco topping on redox equilibrium and nicotine content of tobacco

  • 摘要: 烟碱含量偏高是我国烤烟的现状。如何有效降低烟叶烟碱含量, 提高烤烟工业可用性是烟叶生产中的一个难题。根据烟草打顶导致烟碱含量急剧上升和机械损伤造成细胞氧化迸发的的现象, 本试验从打顶创伤引起的一系列生理变化入手, 采取打顶后在伤口涂抹抗氧化剂抗坏血酸+谷胱甘肽(AsA+GSH)和抗坏血酸(AsA)两种方法来抑制活性氧含量的上升, 探究茉莉酸刺激烟碱含量上升和活性氧含量之间的关系, 并比较两种方法在抑制活性氧及烟碱上升的效果。结果发现, 涂抹AsA+GSH和AsA处理对烟草叶片超氧阴离子、过氧化氢、丙二醛的上升有抑制效果, 过氧化氢降解速度慢于超氧阴离子, 在烟草内有积累现象。涂抹AsA+GSH和AsA处理在打顶6 h时茉莉酸含量低于常规打顶, 对茉莉酸的产生有抑制效果。其中处理96 h后, 打顶后涂抹AsA+GSH的处理叶片烟碱含量比常规打顶低21.5%, 打顶后涂抹AsA的处理叶片烟碱含量比常规打顶低17.5%。且各检测指标之间存在显著或极显著的相关性。另外, 打顶后24 h, 各处理的活性氧含量回到对照(不打顶)的水平。试验表明, 抗氧化型物质(AsA+GSH)涂抹打顶后烟草的伤口能有效抑制活性氧、茉莉酸和烟碱含量的上升, 且活性氧、茉莉酸、烟碱之间存在着密切联系。AsA+GSH比AsA有更强的抗氧化性, 能更好地抑制打顶后烟碱的上升。

     

    Abstract: Nicotine is not only an important chemical component of tobacco leaves, but also one of the important quality indexes of cigarette. The current state of flue-cured tobacco in China with nicotine on the high end has severely influenced China-produced tobacco leaf quality. Effectively reducing nicotine content of tobacco leaves and improving flue-cured tobacco usability has been a difficult issue in the tobacco production industry. The content of nicotine in tobacco doubled and redoubled after topping. Because of the sharp rise in nicotine content after tobacco topping and cells oxidative burst due to mechanical damage, testing started with a series of physiological changes induced by?topping in this study. The two methods used in the test included daub of both ascorbic acid and glutathione (AsA+GSH), and daub of ascorbic acid (AsA). Other three methods were also applied in the experiment, duab of buffer solvent after topping, conventional topping and not topping. These methods were applied to tobacco wounds after topping to suppress the rise in active oxygen content, explore the relationship between active oxygen content and jasmonic acid-stimulating nicotine content growth, and to compare the effects of the two methods on suppressing the rise in active oxygen and nicotine content. The results showed that the rise in the contents of super oxygen anion, hydrogen peroxide and malondialdehyde of tobacco leaves dropped when daubing AsA+GSH and AsA to the topping wounds. Hydrogen peroxide degradation was slower than that of oxygen anion, which accumulated in tobacco. Jasmonic acid content under daub of AsA+GSH or AsA treatments was lower than that under conventional topping treatment at 6 h after treatment and with adverse effect on jasmonic acid. At 96 h after treatment, nicotine content of leaves under AsA+GSH treatment was 21.5% lower than that under conventional topping treatment. The content of nicotine in tobacco leaves under AsA treatment was 17.5% lower than that under conventional topping treatment. Correlation analysis among response intensity of each detection index to topping showed significant or extremely significant correlation between the detection indexes. Also at 24 h after topping, active oxygen content of each treatment dropped back to the non-topped level (not topping treatment). The test showed that daubing antioxidant substances (AsA+GSH) to tobacco wounds after topping effectively suppressed reactive oxygen species, jasmonic acid and nicotine contents rise. There was also a close relationship between reactive oxygen species, jasmonic acid and nicotine. AsA+GSH treatment was better than AsA treatment in antioxidant activity, and was therefore better in suppressing nicotine content rise in tobacco leaves after topping.

     

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