毛霉 TIND02 上调茶叶发病相关基因和酶的表达,增强茶叶对灰霉病的抗性

IF 4.2 1区 农林科学 Q2 BIOCHEMISTRY & MOLECULAR BIOLOGY
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引用次数: 0

摘要

由 Pestalotiopsis 及其同属引起的灰疫病是影响茶叶种植的一种普遍病害,用毛霉菌属来防治这种病害是合成杀菌剂的一种替代方法。当植物接触到毛霉菌属时,它们会改变自身的防御系统,产生与致病相关的蛋白质和酶。了解防御相关标记的表达模式将有助于开发抗灰萎病菌的茶叶品种。因此,本研究旨在通过毛霉 TIND02 诱导茶叶对灰枯病的抗性。为此,研究人员对源自有机茶根瘤的 8 个毛霉分离株进行了特征鉴定和功效评估。双重培养试验显示,分离株 TIND02 对灰枯病病原体 Pseudopestalotiopsis theae 的抑制活性为 74.6%,是最有潜力的候选菌株。根据 ITS 和 tef-1 alpha 基因进行的分子鉴定证实,分离物 TIND02 为 T. harzianum。扫描电子显微镜研究表明,T. harzianum TIND02(TH-TIND02)对假丝酵母具有寄生性。在 100 和 200 μg mL-1 的浓度下,TH-TIND02 的乙酸乙酯提取物对 Ps.气相色谱-质谱研究表明,TH-TIND02 的乙酸乙酯提取物由 21 种主要和次要挥发性有机化合物组成,其中乙酰胺、2,2,2-三氟-N,N-双三甲基硅烷-C(94.74%)是主要成分。该分离物还能产生几丁质酶、纤维素酶、β-1, 3葡聚糖酶和蛋白水解酶。苗圃实验表明,2%和 5%剂量(2 × 106 CFU mL-1)的 TH-TIND02 能显著降低病害严重程度,分别比对照降低 65.0% 和 70.0%,同时改善植物生长。此外,还测定了 TH-TIND02 导致的防御相关酶(几丁质酶、pHenolics、过氧化物酶、苯丙氨酸氨裂解酶、β-1, 3-葡聚糖酶和多酚氧化酶)和致病相关基因(几丁质酶和β-1, 3-葡聚糖酶)的表达。与对照组相比,施用 TH-TIND02 后再接种 Ps.RT-qPCR 分析表明,培养 21 天后,共同接种的植物中这两种基因的表达量是对照组的两倍。这些结果表明,TH-TIND02 的应用通过提高酶活性和过表达茶树中的致病相关基因来降低灰霉病的严重程度,这为其在茶园中作为生物杀菌剂的生态友好和可持续使用提供了条件。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Trichoderma harzianum TIND02 upregulates the expression of pathogenesis-related genes and enzymes and enhances gray blight resistance in tea

Trichoderma harzianum TIND02 upregulates the expression of pathogenesis-related genes and enzymes and enhances gray blight resistance in tea

The gray blight incited by Pestalotiopsis and allied genera is a prevalent disease affecting tea cultivation, and managing it with Trichoderma spp. is an alternative to synthetic fungicides. Plants modify their arsenal system against pathogens when they are exposed to Trichoderma spp., which produces proteins and enzymes associated with pathogenesis. Understanding the expression pattern of defense-related markers will help in developing gray blight resistance tea cultivars. Thus, this study intended to induce resistance against gray blight in tea by Trichoderma harzianum TIND02. For this, a total of eight Trichoderma isolates originated from organic tea rhizospheres were characterized and evaluated for their efficacy. Dual culture test revealed isolate TIND02 as the most potential candidate with 74.6% inhibitory activity against gray blight pathogen Pseudopestalotiopsis theae. Molecular characterization based on ITS and tef-1 alpha genes confirmed isolate TIND02 as T. harzianum. Scanning electron microscopic study showed the mycoparasitic nature of T. harzianum TIND02 (TH-TIND02) to Ps. theae. The ethyl acetate extract of TH-TIND02 at 100 and 200 μg mL−1 showed potential inhibitory activity (>69.9%) against Ps. theae which confirmed the presence of higher volatile metabolites. Gas chromatography–Mass spectrometry study revealed that ethyl acetate extract of TH-TIND02 was composed of 21 major and minor volatile organic compounds with acetamide, 2, 2, 2-trifluoro-N, N-bis trimethyIsilyl–C (94.74%) as a major component. The isolate also produced chitinase, cellulase, β-1, 3 glucanase, and protease hydrolytic enzymes. Nursery experiments revealed that 2% and 5% doses (2 × 106 CFU mL−1) of TH-TIND02 significantly reduced respective 65.0% and 70.0% disease severity over control with improved plant growth. Besides, expressions of defense-related enzymes (chitinase, pHenolics, peroxidase, phenylalanine ammonia lyase, β-1, 3-glucanase, and polyphenol oxidase) and pathogenesis-related genes (chitinase and β-1, 3-glucanase) due to TH-TIND02 were determined. The secretion of defense-related enzymes was highly upregulated in plants applied with TH-TIND02 followed by Ps. theae inoculation compared to controls. The RT-qPCR analysis showed that the expression of both genes in co-inoculated plants was two-fold higher than in control after 21-day post incubation. These results suggest that TH-TIND02 application reduced gray blight severity by elevated enzyme activity and overexpressed pathogenesis-related genes in tea plants which offer for its eco-friendly and sustainable use as a bio-fungicide in tea gardens.

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来源期刊
CiteScore
7.00
自引率
8.50%
发文量
238
审稿时长
4.2 months
期刊介绍: Pesticide Biochemistry and Physiology publishes original scientific articles pertaining to the mode of action of plant protection agents such as insecticides, fungicides, herbicides, and similar compounds, including nonlethal pest control agents, biosynthesis of pheromones, hormones, and plant resistance agents. Manuscripts may include a biochemical, physiological, or molecular study for an understanding of comparative toxicology or selective toxicity of both target and nontarget organisms. Particular interest will be given to studies on the molecular biology of pest control, toxicology, and pesticide resistance. Research Areas Emphasized Include the Biochemistry and Physiology of: • Comparative toxicity • Mode of action • Pathophysiology • Plant growth regulators • Resistance • Other effects of pesticides on both parasites and hosts.
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