AMF improves response to waterlogging stress in cucumber

IF 3.5 3区生物学 Q1 PLANT SCIENCES Rhizosphere Pub Date : 2024-04-25 DOI:10.1016/j.rhisph.2024.100891

Dan Wang , Wei-Jia Wu , Xiao Tian , Nan Xiang , Abeer Hashem , Elsayed Fathi Abd_Allah , Qiang-Sheng Wu , Ying-Ning Zou

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Abstract

This study aimed to examine whether and how an arbuscular mycorrhizal fungus, Paraglomus occultum, affected the growth performance, antioxidant enzyme defense system, and expression levels of fourteen plasma membrane intrinsic protein (PIP) genes of cucumber seedlings after five days of waterlogging. The fungal treatment significantly increased growth rate of plant height and stem diameter, root length, and root surface area under waterlogging. Inoculation with P. occultum significantly boosted superoxide dismutase, peroxidase, and catalase activities under waterlogging, enabling inoculated plants to maintain low levels of hydrogen peroxide and malondialdehyde. The waterlogging up-regulated the expression of more CsPIP genes in inoculated versus uninoculated plants. Interestingly, four of fourteen CsPIP genes were down-regulated under no stress by P. occultum, and seven were up-regulated under waterlogging, implying that inoculated plants actively responded to waterlogging stress by up-regulating the expression of CsPIP genes. This study confirmed that P. occultum increased waterlogging tolerance in cucumber plants, which was associated with enhanced antioxidant enzyme defense system and up-regulation of CsPIP genes.

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AMF 可改善黄瓜对水涝胁迫的反应

本研究旨在探讨黄瓜幼苗受涝五天后，丛枝菌根真菌Paraglomus occultum是否以及如何影响其生长表现、抗氧化酶防御系统和14个质膜固有蛋白（PIP）基因的表达水平。真菌处理明显提高了黄瓜秧苗在涝害条件下的株高、茎径、根长和根表面积的生长速度。接种隐翅虫能显著提高涝害条件下超氧化物歧化酶、过氧化物酶和过氧化氢酶的活性，使接种植株保持低水平的过氧化氢和丙二醛。与未接种植物相比，水涝会上调接种植物中更多 CsPIP 基因的表达。有趣的是，14 个 CsPIP 基因中有 4 个在隐球菌不胁迫的情况下下调，7 个在涝害情况下上调，这意味着接种植物通过上调 CsPIP 基因的表达积极应对涝害胁迫。本研究证实，隐球菌提高了黄瓜植株的耐涝性，这与抗氧化酶防御系统的增强和 CsPIP 基因的上调有关。

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来源期刊

Rhizosphere Agricultural and Biological Sciences-Agronomy and Crop Science

CiteScore

5.70

自引率

8.10%

发文量

155

审稿时长

29 days

期刊介绍： Rhizosphere aims to advance the frontier of our understanding of plant-soil interactions. Rhizosphere is a multidisciplinary journal that publishes research on the interactions between plant roots, soil organisms, nutrients, and water. Except carbon fixation by photosynthesis, plants obtain all other elements primarily from soil through roots. We are beginning to understand how communications at the rhizosphere, with soil organisms and other plant species, affect root exudates and nutrient uptake. This rapidly evolving subject utilizes molecular biology and genomic tools, food web or community structure manipulations, high performance liquid chromatography, isotopic analysis, diverse spectroscopic analytics, tomography and other microscopy, complex statistical and modeling tools.