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在豌豆叶背表皮中,壳聚糖诱导气孔关闭期间,保卫细胞中一氧化氮的产生发生在活性氧下游。

Nitric oxide production occurs downstream of reactive oxygen species in guard cells during stomatal closure induced by chitosan in abaxial epidermis of Pisum sativum.

作者信息

Srivastava Nupur, Gonugunta Vijay K, Puli Mallikarjuna R, Raghavendra Agepati S

机构信息

Department of Plant Sciences, School of Life Sciences, University of Hyderabad, Hyderabad, 500046, India.

出版信息

Planta. 2009 Mar;229(4):757-65. doi: 10.1007/s00425-008-0855-5. Epub 2008 Dec 16.

DOI:10.1007/s00425-008-0855-5
PMID:19084995
Abstract

The effects of chitosan (beta-1,4 linked glucosamine, a fungal elicitor), on the patterns of stomatal movement and signaling components were studied. cPTIO (NO scavenger), sodium tungstate (nitrate reductase inhibitor) or L: -NAME (NO synthase inhibitor) restricted the chitosan induced stomatal closure, demonstrating that NO is an essential factor. Similarly, catalase (H(2)O(2) scavenger) or DPI [NAD(P)H oxidase inhibitor] and BAPTA-AM or BAPTA (calcium chelators) prevented chitosan induced stomatal closure, suggesting that reactive oxygen species (ROS) and calcium were involved during such response. Monitoring the NO and ROS production in guard cells by fluorescent probes (DAF-2DA and H(2)DCFDA) indicated that on exposure to chitosan, the levels of NO rose after only 10 min, while those of ROS increased already by 5 min. cPTIO or sodium tungstate or L: -NAME prevented the rise in NO levels but did not restrict the ROS production. In contrast, catalase or DPI restricted the chitosan-induced production of both ROS and NO in guard cells. The calcium chelators, BAPTA-AM or BAPTA, did not have a significant effect on the chitosan induced rise in NO or ROS. We propose that the production of NO is an important signaling component and participates downstream of ROS production. The effects of chitosan strike a marked similarity with those of ABA or MJ on guard cells and indicate the convergence of their signal transduction pathways leading to stomatal closure.

摘要

研究了壳聚糖(β-1,4连接的葡糖胺,一种真菌激发子)对气孔运动模式和信号成分的影响。cPTIO(一氧化氮清除剂)、钨酸钠(硝酸还原酶抑制剂)或L-NAME(一氧化氮合酶抑制剂)抑制了壳聚糖诱导的气孔关闭,表明一氧化氮是一个关键因素。同样,过氧化氢酶(过氧化氢清除剂)或DPI [NAD(P)H氧化酶抑制剂]以及BAPTA-AM或BAPTA(钙螯合剂)阻止了壳聚糖诱导的气孔关闭,这表明活性氧(ROS)和钙参与了这种反应。通过荧光探针(DAF-2DA和H2DCFDA)监测保卫细胞中一氧化氮和活性氧的产生,结果表明,在接触壳聚糖后,一氧化氮水平仅在10分钟后就升高了,而活性氧水平在5分钟时就已经升高。cPTIO、钨酸钠或L-NAME阻止了一氧化氮水平的升高,但没有抑制活性氧的产生。相反,过氧化氢酶或DPI抑制了壳聚糖诱导的保卫细胞中活性氧和一氧化氮的产生。钙螯合剂BAPTA-AM或BAPTA对壳聚糖诱导的一氧化氮或活性氧升高没有显著影响。我们认为,一氧化氮的产生是一个重要的信号成分,并且在活性氧产生的下游发挥作用。壳聚糖的作用与脱落酸或茉莉酸甲酯对保卫细胞的作用有显著相似之处,这表明它们的信号转导途径汇聚导致气孔关闭。

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