Cinnamic acid derivatives played a major role in the resistance of peach leaves to Xanthomonas arboricola pv. pruni infection

IF 1.1 4区农林科学 Q3 PLANT SCIENCES Journal of Phytopathology Pub Date : 2024-08-06 DOI:10.1111/jph.13369

Tailiang Lu, Pengxiang Zhu, Haiyan Li, Ruizheng Liang, Yijie Li, Xin Liang, Baoxiong Wan

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Abstract

Peach bacterial shot hole is a common global disease of peach trees caused by the pathogen Xanthomonas arboricola pv. pruni (Xap). To preliminarily explore the resistance mechanism of peach bacterial shot hole, leaves of the resistant variety ‘Yanbao’ and the susceptible variety ‘Frederic’ were used as test materials. The contents of total phenols, total flavonoids and lignin were analysed after 1 day of inoculation treatment, and the activities of defence enzymes and cell wall degradation enzymes in the leaves were determined. Furthermore, the resistant substances were screened by combining broad-target metabolomics technology and in vitro antibacterial activity. The results showed that the contents of total phenols, total flavonoids and lignin in peach leaves were related to resistance. The resistant varieties resisted infection by inhibiting the activities of polygalacturonase (PG) and pectin methyl trans-eliminase (PMTE) produced by Xap in peach leaves and increasing the activities of 4-coumarate:coenzyme A ligase (4CL), cinnamic acid-4-hydroxylase (C4H), phenylalanine ammonia lyase (PAL) and peroxidase (POD). A total of six resistant compounds were screened from 85 differential metabolites. The minimum inhibitory concentrations of methyl ferulate (MF), p-coumaric acid (p-CA) and methyl caffeate (MC) on Xap were 0.0625, 00625 and 0.125 mg/mL, respectively, while that of the positive control drug oxytetracycline (OTC) was 0.125 mg/mL. The antibacterial activities of MF and p-CA were better than that of OTC, and MF was equivalent to OTC. In addition, homoeriodictyol, hesperetin and fraxin have certain antibacterial effects. Before inoculation treatment, the contents of MF, p-CA and MC in ‘Yanbao’ were 1.13, 1.24 and 1.96 times higher than those in ‘Frederic’, respectively, while they were 1.29, 1.80 and 1.94 times after inoculation treatment, respectively. During the process of pathogen infection, MF and p-CA in the leaves of resistant peach varieties played a role in inducing resistance, while MC was a component of resistance. The above three cinnamic acid derivatives play an important roles in the resistance of peach bacterial shot hole and are potential control drugs.

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肉桂酸衍生物在桃叶抵抗黄单胞菌 arboricola pv. pruni 感染的过程中发挥了重要作用

桃细菌性弹孔病是由病原菌 Xanthomonas arboricola pv. pruni（Xap）引起的一种全球常见的桃树病害。为初步探讨桃细菌性破洞病的抗性机理，以抗病品种 "燕宝 "和感病品种 "弗雷德里克 "的叶片为试验材料。接种处理 1 天后，分析了叶片中总酚、总黄酮和木质素的含量，并测定了叶片中防御酶和细胞壁降解酶的活性。此外，还结合广靶标代谢组学技术和体外抗菌活性筛选了抗性物质。结果表明，桃叶中总酚、总黄酮和木质素的含量与抗性有关。抗性品种通过抑制 Xap 在桃叶中产生的聚半乳糖醛酸酶（PG）和果胶甲基转酰亚胺酶（PMTE）的活性，提高 4-香豆酸：辅酶 A 连接酶（4CL）、肉桂酸-4-羟化酶（C4H）、苯丙氨酸氨化酶（PAL）和过氧化物酶（POD）的活性来抵抗感染。从 85 种不同的代谢物中共筛选出 6 种抗性化合物。阿魏酸甲酯（MF）、对香豆酸（p-CA）和咖啡酸甲酯（MC）对 Xap 的最小抑制浓度分别为 0.0625、00625 和 0.125 毫克/毫升，而阳性对照药物土霉素（OTC）的最小抑制浓度为 0.125 毫克/毫升。MF 和 p-CA 的抗菌活性优于 OTC，MF 的抗菌活性与 OTC 相当。此外，高碘酚、橙皮甙和氟辛也有一定的抗菌作用。接种处理前，'燕宝'中 MF、p-CA 和 MC 的含量分别是'弗雷德里克'的 1.13 倍、1.24 倍和 1.96 倍，而接种处理后则分别是 1.29 倍、1.80 倍和 1.94 倍。在病原体感染过程中，抗性桃品种叶片中的 MF 和 p-CA 起到了诱导抗性的作用，而 MC 则是抗性的组成部分。以上三种肉桂酸衍生物在桃细菌性射孔病的抗性中起着重要作用，是潜在的防治药物。

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来源期刊

Journal of Phytopathology 生物-植物科学

CiteScore

2.90

自引率

0.00%

发文量

审稿时长

4-8 weeks

期刊介绍： Journal of Phytopathology publishes original and review articles on all scientific aspects of applied phytopathology in agricultural and horticultural crops. Preference is given to contributions improving our understanding of the biotic and abiotic determinants of plant diseases, including epidemics and damage potential, as a basis for innovative disease management, modelling and forecasting. This includes practical aspects and the development of methods for disease diagnosis as well as infection bioassays. Studies at the population, organism, physiological, biochemical and molecular genetic level are welcome. The journal scope comprises the pathology and epidemiology of plant diseases caused by microbial pathogens, viruses and nematodes. Accepted papers should advance our conceptual knowledge of plant diseases, rather than presenting descriptive or screening data unrelated to phytopathological mechanisms or functions. Results from unrepeated experimental conditions or data with no or inappropriate statistical processing will not be considered. Authors are encouraged to look at past issues to ensure adherence to the standards of the journal.