The Microbial Metabolite Wuyiencin Potential Targets Threonine dehydratase in Didymella segeticola to Achieve Control of Tea Leaf Spot.

IF 2.6 2区 农林科学 Q2 PLANT SCIENCES
Youli Ma, Peiying Li, Wenjing Xie, Fenghua Liu, Dongxue Li, Atta Ur Rehman, Delu Wang, Jing-Jiang Zhou, Yue Ma, Zhuo Chen
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Abstract

Tea leaf spot caused by Didymella segeticola is a disease that has recently been discovered in the tea plantations of Southwest China, and which has a significant negative impact on the yield and quality of tea leaves. Wuyiencin is a nucleotide antimicrobial that is effective against a range of fungal diseases. However, its mode of action is still unclear. The current study found that wuyiencin inhibited the mycelial growth of D. segeticola in vitro. Meanwhile, in vivo experiments confirmed that wuyiencin had a significant curative effect on tea leaf spot. Microscopic observation represented it damaged the organelles and nucleus in fungal cells. Reverse transcription quantitative PCR assays revealed that mycelium treated with wuyiencin at the half-maximal effective concentration (EC50) dosage for 1 hour exhibited 3.23 times lower expression of Threonine dehydratase (Td) gene, which is responsible for producing pyruvate. The wild type (WT) strain had a 1.77-fold higher pyruvate concentration than that in the td mutant (P < 0.05). The td mutant was more sensitive than the WT to wuyiencin treatment, with the EC50 value in the td mutant being 30.01 μg/ml, compared with 82.34 μg/ml in the WT. Molecular docking demonstrated that wuyiencin bound to Td, with a binding energy of -10.47 kcal/mol. Compared with the WT strain, wuyiencin significantly reduced ATP concentration of the td mutant strain at dosages of 80.0 and 160.0 µg/ml. In total, wuyiencin reduced Td activity, inhibited pyruvate production, and decreased ATP content in the phytopathogenic fungus, ultimately disturbing the growth of the mycelium.

微生物代谢物武夷菌素能潜在地靶向半知菌(Didymella segeticola)体内的苏氨酸脱水酶,从而达到防治茶叶斑点病的目的。
由Didymella segeticola引起的茶叶斑点病是最近在中国西南茶园发现的一种病害,对茶叶的产量和质量有很大的负面影响。武夷菌素是一种核苷酸抗菌素,对多种真菌病害有效。然而,其作用模式尚不清楚。目前的研究发现,武夷菌素能在体外抑制 D. segeticola 的菌丝生长。同时,体内实验证实武夷菌素对茶叶斑点病有显著疗效。显微镜观察表明,它破坏了真菌细胞的细胞器和细胞核。反转录定量 PCR 分析表明,用半最大有效浓度(EC50)的武夷菌素处理菌丝 1 小时后,负责产生丙酮酸的苏氨酸脱水酶(Td)基因的表达量降低了 3.23 倍。野生型(WT)菌株的丙酮酸浓度是td突变体的 1.77 倍(P < 0.05)。与 WT 相比,td 突变体对武夷菌素处理更敏感,td 突变体的 EC50 值为 30.01 μg/ml,而 WT 突变体的 EC50 值为 82.34 μg/ml。分子对接表明,武夷毒芹与 Td 的结合能为-10.47 kcal/mol。与 WT 菌株相比,在剂量为 80.0 和 160.0 µg/ml 时,武夷菌素能显著降低td 突变菌株的 ATP 浓度。总之,武夷菌素降低了植物病原真菌的 Td 活性,抑制了丙酮酸的产生,减少了 ATP 含量,最终干扰了菌丝的生长。
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来源期刊
Phytopathology
Phytopathology 生物-植物科学
CiteScore
5.90
自引率
9.40%
发文量
505
审稿时长
4-8 weeks
期刊介绍: Phytopathology publishes articles on fundamental research that advances understanding of the nature of plant diseases, the agents that cause them, their spread, the losses they cause, and measures that can be used to control them. Phytopathology considers manuscripts covering all aspects of plant diseases including bacteriology, host-parasite biochemistry and cell biology, biological control, disease control and pest management, description of new pathogen species description of new pathogen species, ecology and population biology, epidemiology, disease etiology, host genetics and resistance, mycology, nematology, plant stress and abiotic disorders, postharvest pathology and mycotoxins, and virology. Papers dealing mainly with taxonomy, such as descriptions of new plant pathogen taxa are acceptable if they include plant disease research results such as pathogenicity, host range, etc. Taxonomic papers that focus on classification, identification, and nomenclature below the subspecies level may also be submitted to Phytopathology.
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