黄烷酮型植保素介导香蕉植株(Musa spp.)对潜根线虫(Radopholus similis)的抗性。
Phenalenone-type phytoalexins mediate resistance of banana plants (Musa spp.) to the burrowing nematode Radopholus similis.
机构信息
Nuclear Magnetic Resonance Research Group, Mass Spectrometry Research Group, Department of Entomology, Max Planck Institute for Chemical Ecology, 07745 Jena, Germany.
出版信息
Proc Natl Acad Sci U S A. 2014 Jan 7;111(1):105-10. doi: 10.1073/pnas.1314168110. Epub 2013 Dec 9.
Abstract
The global yield of bananas-one of the most important food crops-is severely hampered by parasites, such as nematodes, which cause yield losses up to 75%. Plant-nematode interactions of two banana cultivars differing in susceptibility to Radopholus similis were investigated by combining the conventional and spatially resolved analytical techniques (1)H NMR spectroscopy, matrix-free UV-laser desorption/ionization mass spectrometric imaging, and Raman microspectroscopy. This innovative combination of analytical techniques was applied to isolate, identify, and locate the banana-specific type of phytoalexins, phenylphenalenones, in the R. similis-caused lesions of the plants. The striking antinematode activity of the phenylphenalenone anigorufone, its ingestion by the nematode, and its subsequent localization in lipid droplets within the nematode is reported. The importance of varying local concentrations of these specialized metabolites in infected plant tissues, their involvement in the plant's defense system, and derived strategies for improving banana resistance are highlighted.
摘要
香蕉是最重要的粮食作物之一,但全球香蕉产量严重受到寄生虫(如线虫)的影响,这些寄生虫会导致高达 75%的产量损失。本研究采用常规和空间分辨分析技术(1)H NMR 光谱、无基质紫外激光解吸/电离质谱成像和拉曼微光谱,结合两种对相似穿孔线虫易感性不同的香蕉品种,研究了植物-线虫相互作用。这项创新的分析技术组合被应用于分离、鉴定和定位香蕉特有的植保素——苯并菲咯酮,在由相似穿孔线虫引起的植物病变中发现了它们。报告了苯并菲咯酮类化合物安格洛鲁酮具有显著的抗线虫活性,线虫会摄入这种化合物,随后会在其体内的脂滴中定位。本研究强调了这些特殊代谢物在感染植物组织中的浓度变化的重要性,它们参与了植物的防御系统,并提出了提高香蕉抗性的策略。
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