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外源甘氨酸甜菜碱调节干旱和淹水胁迫下玉米叶片生理生化特性及生长的不同响应。

Exogenous Glycinebetaine Regulates the Contrasting Responses in Leaf Physiochemical Attributes and Growth of Maize under Drought and Flooding Stresses.

作者信息

Wang Guo-Yun, Ahmad Shakeel, Wang Bing-Wei, Shi Li-Bo, Wang Yong, Shi Cheng-Qiao, Zhou Xun-Bo

机构信息

Guangxi Key Laboratory of Agro-Environment and Agro-Products Safety, Key Laboratory of Crop Cultivation and Physiology, College of Agriculture, Guangxi University, Nanning 530004, China.

Maize Research Institute, Guangxi Academy of Agricultural Sciences, Nanning 530007, China.

出版信息

Biology (Basel). 2024 May 21;13(6):360. doi: 10.3390/biology13060360.

DOI:10.3390/biology13060360
PMID:38927240
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11200549/
Abstract

Flooding and drought are the two most devastating natural hazards limiting maize production. Exogenous glycinebetaine (GB), an osmotic adjustment agent, has been extensively used but there is limited research on its role in mitigating the negative effects of different abiotic stresses. This study aims to identify the different roles of GB in regulating the diverse defense regulation of maize against drought and flooding. Hybrids of Yindieyu 9 and Heyu 397 grown in pots in a ventilated greenhouse were subjected to flooding (2-3 cm standing layer) and drought (40-45% field capacity) at the three-leaf stage for 8 d. The effects of different concentrations of foliar GB (0, 0.5, 1.0, 5.0, and 10.0 mM) on the physiochemical attributes and growth of maize were tested. Greater drought than flooding tolerance in both varieties to combat oxidative stress was associated with higher antioxidant activities and proline content. While flooding decreased superoxide dismutase and guaiacol peroxidase (POD) activities and proline content compared to normal water, they all declined with stress duration, leading to a larger reactive oxygen species compared to drought. It was POD under drought stress and ascorbate peroxidase under flooding stress that played crucial roles in tolerating water stress. Foliar GB further enhanced antioxidant ability and contributed more effects to POD to eliminate more hydrogen peroxide than the superoxide anion, promoting growth, especially for leaves under water stress. Furthermore, exogenous GB made a greater increment in Heyu 397 than Yindieyu 9, as well as flooding compared to drought. Overall, a GB concentration of 5.0 mM, with a non-toxic effect on well-watered maize, was determined to be optimal for the effective mitigation of water-stress damage to the physiochemical characteristics and growth of maize.

摘要

洪涝和干旱是限制玉米产量的两种最具破坏性的自然灾害。外源甘氨酸甜菜碱(GB)作为一种渗透调节物质,已被广泛应用,但其在减轻不同非生物胁迫负面影响方面的作用研究有限。本研究旨在确定GB在调节玉米对干旱和洪涝的多种防御调节中的不同作用。在通风温室的花盆中种植的银迪玉9和和育397杂交种在三叶期遭受洪涝(积水层2 - 3厘米)和干旱(田间持水量的40 - 45%)处理8天。测试了不同浓度叶面GB(0、0.5、1.0、5.0和10.0 mM)对玉米理化特性和生长的影响。两个品种在应对氧化应激时,耐旱性均强于耐涝性,这与较高的抗氧化活性和脯氨酸含量有关。与正常水分条件相比,洪涝降低了超氧化物歧化酶和愈创木酚过氧化物酶(POD)活性以及脯氨酸含量,且它们均随胁迫持续时间而下降,导致与干旱相比产生更多的活性氧。干旱胁迫下的POD和洪涝胁迫下的抗坏血酸过氧化物酶在耐受水分胁迫中起关键作用。叶面GB进一步增强了抗氧化能力,对POD的作用更大,以消除比超氧阴离子更多的过氧化氢,促进生长,尤其是对水分胁迫下的叶片。此外,外源GB在和育397中的增量大于银迪玉9,且洪涝处理的增量大于干旱处理。总体而言,5.0 mM的GB浓度对正常浇水的玉米无毒,被确定为有效减轻水分胁迫对玉米理化特性和生长造成损害的最佳浓度。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/444e/11200549/d207cd38bb42/biology-13-00360-g008.jpg
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