Croft KPC., Juttner F., Slusarenko A. J.
Institut fur Pflanzenbiologie, Zollikerstrasse 107, Zurich CH-8008, Switzerland.
Plant Physiol. 1993 Jan;101(1):13-24. doi: 10.1104/pp.101.1.13.
Activation of the "lipoxygenase pathway" in plants gives rise to a series of products derived from fatty acids. Analysis by gas chromatography-mass spectroscopy of volatile products produced by Phaseolus vulgaris (L.) cv Red Mexican leaves during a hypersensitive resistance response (HR) to the plant pathogenic bacterium Pseudomonas syringae pv phaseolicola showed evolution of several lipid-derived volatiles, including cis-3-hexenol and trans-2-hexenal, which arise from the 13-hydroperoxide of linolenic acid. These compounds were not produced in detectable amounts by buffer-inoculated leaves, nor did they evolve to such a high degree during comparable stages of the susceptible response. The absence of trans-2,cis-6-nonadienal, a product expected from 9-hydroperoxide of linolenic acid, suggests that lipid peroxidation during the HR proceeded primarily enzymically via bean lipoxygenase, which produces the 13-hydroperoxide, and not via autoxidative processes. The effects of trans-2-hexenal, cis-3-hexenol, and traumatic acid on P.s pv phaseolicola were investigaed. trans-2-Hexenal appeared to be highly bactericidal at low concentrations, whereas cis-3-hexenol was bactericidal only at much higher concentrations. Traumatic acid appeared to have no effect on P.s. pv. phaseolicola at the concentrations tested. These results demonstrate that during plant defense responses against microbial attack, several lipid-derived compounds are produced by the plant, some of which possess antimicrobial activity and conceivably are involved in plant disease resistance. The time of production of these substances, in amounts that would be expected to be antibacterial in vitro, correlated with a slowing down of the growth rate of bacteria in the leaves and was seen at a time before the accumulation of isoflavonoid phytoalexins in the host.
植物中“脂氧合酶途径”的激活会产生一系列源自脂肪酸的产物。通过气相色谱 - 质谱联用对菜豆(Phaseolus vulgaris (L.) cv Red Mexican)叶片在对植物病原菌菜豆丁香假单胞菌(Pseudomonas syringae pv phaseolicola)的过敏反应(HR)过程中产生的挥发性产物进行分析,结果显示有几种脂质衍生的挥发物生成,包括顺 - 3 - 己烯醇和反 - 2 - 己烯醛,它们源自亚麻酸的13 - 氢过氧化物。缓冲液接种的叶片未产生可检测量的这些化合物,在感病反应的类似阶段它们也未大量生成。反 - 2,顺 - 6 - 壬二烯醛是亚麻酸9 - 氢过氧化物预期产生的产物,但未检测到,这表明过敏反应期间的脂质过氧化主要通过菜豆脂氧合酶以酶促方式进行,该酶产生13 - 氢过氧化物,而非通过自动氧化过程。研究了反 - 2 - 己烯醛、顺 - 3 - 己烯醇和创伤酸对菜豆丁香假单胞菌的影响。反 - 2 - 己烯醛在低浓度时似乎具有高度杀菌作用,而顺 - 3 - 己烯醇仅在高得多的浓度时才具有杀菌作用。在所测试的浓度下,创伤酸似乎对菜豆丁香假单胞菌没有影响。这些结果表明,在植物对微生物攻击的防御反应过程中,植物会产生几种脂质衍生的化合物,其中一些具有抗菌活性,并且可能参与植物抗病过程。这些物质在体外预期具有抗菌作用的量的产生时间,与叶片中细菌生长速率的减缓相关,并且在宿主中异黄酮类植保素积累之前就已出现。