Systemin modulates defense responses in roots of tomato plants (Solanum lycopersicum L.) during the pre-colonization stage of the mycorrhizal symbiosis

IF 0.8 4区 农林科学 Q3 AGRICULTURE, MULTIDISCIPLINARY
Blanca M. De la Noval, N. Martínez-Gallardo, J. Délano-Frier
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引用次数: 0

Abstract

Aim of study: The symbiotic association with arbuscular mycorrhizal fungi (AMF) enhances the uptake of soil minerals by the plant, predominantly phosphorus, in return for plant photosynthates. This study was performed to support the premise that the suppression of root defense responses during the pre-colonization stage is required for the subsequent colonization of tomato roots by AMF. Area of study: This study was performed in the Plant Defense Laboratory of Cinvestav, at Irapuato, Guanajuato, Mexico. Material and methods: SYS was added, together with spore suspensions of three different AMF species, to young tomato plantlets. The roots were subsequently sampled, 0.5 to 12 h post-application, in order to quantify degree of mycorrhizal colonization, in vitro β-glucanase (GLN) and chitinase (CHI) enzyme activity and wound-responsive gene expression levels. Main results: The sole application of exogenous SYS induced the rapid expression of a battery of early wound-responsive genes, together with a swift and transient activation of CHI, but not GLN. However, when added together with AMF spores, SYS differentially modulated the activity of these enzymes in an AMF species-dependent manner. Modified lytic activity was preceded or accompanied by the rapid and sustained induction of the RbohD, LOXD and PLA2 genes shortly after contact with AMF spores. Research highlights: The findings of this study suggest a role for oxylipins and reactive oxygen species in the initial AMF recognition process. They also indicate that exogenous SYS is perceived by the roots, where it modulates the local root defense response to facilitate AMF colonization.
在菌根共生的预定植阶段,Systemin调节番茄根系的防御反应
研究目的:与丛枝菌根真菌(AMF)的共生关系增强了植物对土壤矿物质的吸收,主要是磷,以换取植物光合作用。本研究旨在支持AMF在预定殖阶段对根系防御反应的抑制是AMF随后在番茄根系定殖所必需的前提。研究领域:本研究在墨西哥瓜纳华托州Irapuato的Cinvestav植物防御实验室进行。材料与方法:将3种不同AMF菌种的孢子悬浮液与SYS一起加入番茄幼苗中。随后,在施用0.5 ~ 12 h后取样根,以量化菌根定植程度、体外β-葡聚糖酶(GLN)和几丁质酶(CHI)酶活性和伤口反应基因表达水平。主要结果:外源SYS的单独应用诱导了一系列早期伤口反应基因的快速表达,同时CHI的快速和短暂激活,但GLN没有。然而,当与AMF孢子一起添加时,SYS以AMF物种依赖的方式差异调节这些酶的活性。在与AMF孢子接触后不久,RbohD、LOXD和PLA2基因就会快速持续地诱导裂解活性。研究重点:本研究的发现提示了氧化脂类和活性氧在AMF初始识别过程中的作用。他们还表明,外源的SYS可以被根感知,在那里它调节局部的根防御反应,促进AMF的定植。
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来源期刊
Spanish Journal of Agricultural Research
Spanish Journal of Agricultural Research 农林科学-农业综合
CiteScore
2.00
自引率
0.00%
发文量
60
审稿时长
6 months
期刊介绍: The Spanish Journal of Agricultural Research (SJAR) is a quarterly international journal that accepts research articles, reviews and short communications of content related to agriculture. Research articles and short communications must report original work not previously published in any language and not under consideration for publication elsewhere. The main aim of SJAR is to publish papers that report research findings on the following topics: agricultural economics; agricultural engineering; agricultural environment and ecology; animal breeding, genetics and reproduction; animal health and welfare; animal production; plant breeding, genetics and genetic resources; plant physiology; plant production (field and horticultural crops); plant protection; soil science; and water management.
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