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真菌病原菌桔青霉释放的挥发物通过蛋白质组重设调节根系代谢和结构。

Volatiles from the fungal phytopathogen Penicillium aurantiogriseum modulate root metabolism and architecture through proteome resetting.

机构信息

Instituto de Agrobiotecnología (Consejo Superior de Investigaciones Científicas/Gobierno de Navarra), Mutilva, 31192, Spain.

Department of Chemical Biology and Genetics, Centre of the Region Haná for Biotechnological and Agricultural Research, Faculty of Science, Palacký University, Olomouc, CZ-78371, Czech Republic.

出版信息

Plant Cell Environ. 2020 Oct;43(10):2551-2570. doi: 10.1111/pce.13817. Epub 2020 Aug 16.

DOI:10.1111/pce.13817
PMID:32515071
Abstract

Volatile compounds (VCs) emitted by the fungal phytopathogen Penicillium aurantiogriseum promote root growth and developmental changes in Arabidopsis. Here we characterised the metabolic and molecular responses of roots to fungal volatiles. Proteomic analyses revealed that these compounds reduce the levels of aquaporins, the iron carrier IRT1 and apoplastic peroxidases. Fungal VCs also increased the levels of enzymes involved in the production of mevalonate (MVA)-derived isoprenoids, nitrogen assimilation and conversion of methionine to ethylene and cyanide. Consistently, fungal VC-treated roots accumulated high levels of hydrogen peroxide (H O ), MVA-derived cytokinins, ethylene, cyanide and long-distance nitrogen transport amino acids. qRT-PCR analyses showed that many proteins differentially expressed by fungal VCs are encoded by VC non-responsive genes. Expression patterns of hormone reporters and developmental characterisation of mutants provided evidence for the involvement of cyanide scavenging and enhanced auxin, ethylene, cytokinin and H O signalling in the root architecture changes promoted by fungal VCs. Our findings show that VCs from P. aurantiogriseum modify root metabolism and architecture, and improve nutrient and water use efficiencies through transcriptionally and non-transcriptionally regulated proteome resetting mechanisms. Some of these mechanisms are subject to long-distance regulation by photosynthesis and differ from those triggered by VCs emitted by beneficial microorganisms.

摘要

真菌病原菌青霉(Penicillium aurantiogriseum)排放的挥发性化合物(VCs)促进拟南芥的根生长和发育变化。在这里,我们描述了根对真菌挥发物的代谢和分子反应。蛋白质组学分析表明,这些化合物降低了水通道蛋白、铁载体 IRT1 和质外体过氧化物酶的水平。真菌 VCs 还增加了参与甲羟戊酸(MVA)衍生异戊烯基、氮同化和蛋氨酸转化为乙烯和氰化物的酶的水平。一致地,真菌 VC 处理的根积累了高水平的过氧化氢(H2O)、MVA 衍生细胞分裂素、乙烯、氰化物和长距离氮运输氨基酸。qRT-PCR 分析表明,真菌 VCs 差异表达的许多蛋白质由 VC 非响应基因编码。激素报告基因的表达模式和突变体的发育特征为氰化物清除和增强的生长素、乙烯、细胞分裂素和 H2O 信号转导在真菌 VCs 促进的根结构变化中的参与提供了证据。我们的研究结果表明,青霉排放的 VCs 通过转录和非转录调节的蛋白质组重置机制改变根代谢和结构,并通过改善氮素和水分利用效率来提高养分和水分利用效率。其中一些机制受到光合作用的远程调节,与有益微生物排放的 VCs 触发的机制不同。

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