F-box蛋白MAX2有助于拟南芥对细菌性植物病原体产生抗性。

The F-box protein MAX2 contributes to resistance to bacterial phytopathogens in Arabidopsis thaliana.

作者信息

Piisilä Maria, Keceli Mehmet A, Brader Günter, Jakobson Liina, Jõesaar Indrek, Sipari Nina, Kollist Hannes, Palva E Tapio, Kariola Tarja

出版信息

BMC Plant Biol. 2015 Feb 13;15:53. doi: 10.1186/s12870-015-0434-4.

DOI:10.1186/s12870-015-0434-4

PMID:25849639

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4340836/

Abstract

BACKGROUND

The Arabidopsis thaliana F-box protein MORE AXILLARY GROWTH2 (MAX2) has previously been characterized for its role in plant development. MAX2 appears essential for the perception of the newly characterized phytohormone strigolactone, a negative regulator of polar auxin transport in Arabidopsis.

RESULTS

A reverse genetic screen for F-box protein mutants altered in their stress responses identified MAX2 as a component of plant defense. Here we show that MAX2 contributes to plant resistance against pathogenic bacteria. Interestingly, max2 mutant plants showed increased susceptibility to the bacterial necrotroph Pectobacterium carotovorum as well as to the hemi-biotroph Pseudomonas syringae but not to the fungal necrotroph Botrytis cinerea. max2 mutant phenotype was associated with constitutively increased stomatal conductance and decreased tolerance to apoplastic ROS but also with alterations in hormonal balance.

CONCLUSIONS

Our results suggest that MAX2 previously characterized for its role in regulation of polar auxin transport in Arabidopsis, and thus plant development also significantly influences plant disease resistance. We conclude that the increased susceptibility to P. syringae and P. carotovorum is due to increased stomatal conductance in max2 mutants promoting pathogen entry into the plant apoplast. Additional factors contributing to pathogen susceptibility in max2 plants include decreased tolerance to pathogen-triggered apoplastic ROS and alterations in hormonal signaling.

摘要

背景

拟南芥F-box蛋白多腋生生长2（MAX2）先前已因其在植物发育中的作用而得到表征。MAX2似乎对于感知新发现的植物激素独脚金内酯至关重要，独脚金内酯是拟南芥中极性生长素运输的负调节剂。

结果

对在胁迫反应中发生改变的F-box蛋白突变体进行反向遗传筛选，确定MAX2为植物防御的一个组成部分。在此我们表明MAX2有助于植物对病原菌的抗性。有趣的是，max2突变体植株对细菌性坏死营养型胡萝卜软腐果胶杆菌以及对半活体营养型丁香假单胞菌的易感性增加，但对真菌性坏死营养型灰葡萄孢不敏感。max2突变体表型与气孔导度持续增加、对质外体活性氧的耐受性降低以及激素平衡的改变有关。

结论

我们的结果表明，先前因其在拟南芥极性生长素运输调控中（进而在植物发育中）的作用而得到表征的MAX2，也显著影响植物抗病性。我们得出结论，max2突变体对丁香假单胞菌和胡萝卜软腐果胶杆菌易感性增加是由于其气孔导度增加，促进了病原体进入植物质外体。导致max2植株对病原体易感性增加的其他因素包括对病原体触发的质外体活性氧的耐受性降低以及激素信号传导的改变。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/2a86/4340836/1b9b1a3eab58/12870_2015_434_Fig1_HTML.jpg

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F-box蛋白MAX2有助于拟南芥对细菌性植物病原体产生抗性。

The F-box protein MAX2 contributes to resistance to bacterial phytopathogens in Arabidopsis thaliana.

作者信息

出版信息

BACKGROUND

RESULTS

CONCLUSIONS

背景

结果

结论

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