Hydrogen peroxide and nitric oxide regulation of phenolic metabolism under water stress and ABA in wheat.

Q3 Biochemistry, Genetics and Molecular Biology

Acta Biologica Hungarica Pub Date : 2017-06-01 DOI:10.1556/018.68.2017.2.4

Rattanpreet Kaur, Vikramjit Kaur Zhawar

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引用次数: 13

Abstract

Wheat cultivar PBW644 (drought tolerant) and PBW343 (drought sensitive) were found as ABA-higher sensitive and ABA-lesser sensitive, respectively, in the screen of six wheat cultivars. Both cultivars were studied for H₂O₂ (ROS)/nitric oxide (NO)-regulation of growth and phenolic metabolism under ABA and water stress (WS) by supplying ROS/NO producers as well as scavengers. Endogenous ROS/NO under ABA/WS increased growth, such effect was higher in PBW644. In PBW343, reduced growth under WS was improved by exogenous ROS/NO. Exogenous ROS/NO under ABA/WS decreased lignin and increased phenolics in PBW343 but such relation was not found in PBW644. Endogenous NO under WS increased flavonoids in both cultivars. Both ROS/NO under ABA/WS increased flavonoids in PBW644, however, in PBW343, only ROS increased these in roots. Under WS, PBW644 showed higher levels of cell wall peroxidase (CW-POX) and lower levels of soluble peroxidase (S-POX) than PBW343. However, under ABA, it showed higher levels of both peroxidases. ROS/NO signals under ABA increased both types of POX in both cultivars while under WS, these signals increased both types in PBW343 but CW-POX only in PBW644. Polyphenol oxidases were ABA-upregulated in PBW644 only. Under WS, these enzymes were maintained higher in PBW343. This study indicated that tolerant cultivar under WS contained sufficient endogenous ROS/NO signalling to which susceptible cultivar lacked but showed improvement on exogenous applications. Secondly, tolerant cultivar was using less phenolic activity under WS which could be due to the presence of sufficient levels of primary antioxidants.

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过氧化氢和一氧化氮对水分胁迫和ABA下小麦酚代谢的调控。

在6个小麦品种的筛选中，发现耐旱品种PBW644和干旱敏感品种PBW343分别表现为aba -高敏感和aba -低敏感。研究了两个品种在ABA和水分胁迫(WS)下H2O2 (ROS)/一氧化氮(NO)-通过提供ROS/NO产生剂和清除剂对生长和酚代谢的调节。内源ROS/NO在ABA/WS处理下促进了生长，其中PBW644的作用更大。在PBW343中，外源ROS/NO改善了WS胁迫下的生长。在ABA/WS作用下，外源ROS/NO降低了PBW343的木质素，增加了酚类物质，但PBW644没有发现这种关系。WS处理下的内源NO增加了两个品种的黄酮类化合物含量。ABA/WS处理下的ROS/NO均增加了PBW644中黄酮类化合物的含量，而PBW343中只有ROS增加了根中黄酮类化合物的含量。WS处理下，PBW644细胞壁过氧化物酶(CW-POX)水平高于PBW343，可溶性过氧化物酶(S-POX)水平低于PBW343。而在ABA作用下，两种过氧化物酶的含量均较高。在ABA处理下，ROS/NO信号在PBW343和PBW644中均有升高，而在WS处理下，ROS/NO信号在PBW343和PBW644中均有升高。多酚氧化酶仅在PBW644中出现aba上调。WS处理下，PBW343中这些酶保持较高水平。本研究表明，抗性品种含有足够的内源ROS/NO信号，而敏感品种缺乏这种信号，但在外源胁迫下表现出改善。其次，抗性品种在WS处理下的酚类活性较低，这可能是由于存在足够水平的初级抗氧化剂。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Acta Biologica Hungarica 生物-生物学

CiteScore

1.40

自引率

0.00%

发文量

审稿时长

3 months

期刊介绍： Acta Biologica Hungarica provides a forum for original research works in the field of experimental biology. It covers cytology, functional morphology, embriology, genetics, endocrinology, cellular physiology, plant physiology, neurobiology, ethology and environmental biology with emphasis on toxicology. Publishes book reviews and advertisements.