{"title":"Ischaemum ciliare Retz 内生真菌促进植物生长的体外和体内研究。","authors":"R. Nischitha, M.B. Shivanna","doi":"10.1007/s42161-023-01586-9","DOIUrl":null,"url":null,"abstract":"<p>The current work sought to characterize the secondary metabolites produced by endophytic fungi from the perennial grass <i>Ischaemum ciliare</i> Retz. and examine in-vitro and in-silico investigations on plant growth promotion. <i>Cochliobolus fallax, Cochliobolus</i> sp., <i>Pestalotiopsis</i> sp., <i>Fusarium oxysporum</i>, and <i>Penicillium islandium</i> were isolated from the aerial part of <i>I. ciliare</i>, and two endophytic fungi, <i>Curvularia protuberata</i> and <i>Pestalotiopsis guepinii</i>, were identified based on ITS rDNA sequence analysis. Furthermore, <i>C. protuberata, F. oxysporum</i>, and <i>P. guepinii</i> demonstrated high antagonistic activity against pathogenic fungal and bacterial strains. They showed significant plant growth promotion in the ethyl acetate extracts of <i>C. protuberata</i> and <i>P. guepinii</i> and the methanolic extract of <i>I. ciliare</i> on <i>Capsicum annuum</i> and <i>Zea mays</i> seedlings in vitro. OHR-LC MS analysis of <i>P. guepinii</i> ethyl acetate extract and <i>I. ciliare</i> methanolic extract identified ten and seventeen potential secondary metabolites, respectively. Furthermore, the docking analysis established the ligand-receptor interaction. It revealed that eight out of ten <i>P. guepinii</i> compounds and nine out of seventeen <i>I. ciliare</i> compounds have a strong binding affinity towards 3OGM, 4LDY, and 6KU3 target proteins. The endophytic fungal and host metabolite research in-vitro and in-silico aids in predicting compounds with bioactive principles, bio-control agents, and plant growth promoters.</p>","PeriodicalId":16837,"journal":{"name":"Journal of Plant Pathology","volume":"16 1","pages":""},"PeriodicalIF":2.2000,"publicationDate":"2024-02-05","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"In-vitro and in-silico studies on plant growth promotion of endophytic fungi of Ischaemum ciliare Retz.\",\"authors\":\"R. Nischitha, M.B. 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They showed significant plant growth promotion in the ethyl acetate extracts of <i>C. protuberata</i> and <i>P. guepinii</i> and the methanolic extract of <i>I. ciliare</i> on <i>Capsicum annuum</i> and <i>Zea mays</i> seedlings in vitro. OHR-LC MS analysis of <i>P. guepinii</i> ethyl acetate extract and <i>I. ciliare</i> methanolic extract identified ten and seventeen potential secondary metabolites, respectively. Furthermore, the docking analysis established the ligand-receptor interaction. It revealed that eight out of ten <i>P. guepinii</i> compounds and nine out of seventeen <i>I. ciliare</i> compounds have a strong binding affinity towards 3OGM, 4LDY, and 6KU3 target proteins. 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引用次数: 0
摘要
目前的研究旨在确定多年生禾本科植物 Ischaemum ciliare Retz.的内生真菌产生的次生代谢产物的特征,并对其促进植物生长的作用进行体外和体内研究。根据 ITS rDNA 序列分析,从纤毛草的气生部分分离出 Cochliobolus fallax、Cochliobolus sp.、Pestalotiopsis sp.、Fusarium oxysporum 和 Penicillium islandium,并鉴定出两种内生真菌 Curvularia protuberata 和 Pestalotiopsis guepinii。此外,C. protuberata、F. oxysporum 和 P. guepinii 对病原真菌和细菌菌株具有很强的拮抗活性。在 C. protuberata 和 P. guepinii 的乙酸乙酯提取物以及 I. ciliare 的甲醇提取物中,它们对辣椒和玉米幼苗的离体生长有明显的促进作用。对 P. guepinii 乙酸乙酯提取物和 I. ciliare 甲醇提取物进行的 OHR-LC MS 分析分别发现了 10 种和 17 种潜在的次生代谢物。此外,对接分析确定了配体与受体之间的相互作用。对接分析表明,十种 P. guepinii 复合物中有八种与 3OGM、4LDY 和 6KU3 目标蛋白有很强的结合亲和力,十七种 I. ciliare 复合物中有九种与 3OGM、4LDY 和 6KU3 目标蛋白有很强的结合亲和力。内生真菌和宿主代谢物的体外和体内研究有助于预测具有生物活性原理的化合物、生物控制剂和植物生长促进剂。
In-vitro and in-silico studies on plant growth promotion of endophytic fungi of Ischaemum ciliare Retz.
The current work sought to characterize the secondary metabolites produced by endophytic fungi from the perennial grass Ischaemum ciliare Retz. and examine in-vitro and in-silico investigations on plant growth promotion. Cochliobolus fallax, Cochliobolus sp., Pestalotiopsis sp., Fusarium oxysporum, and Penicillium islandium were isolated from the aerial part of I. ciliare, and two endophytic fungi, Curvularia protuberata and Pestalotiopsis guepinii, were identified based on ITS rDNA sequence analysis. Furthermore, C. protuberata, F. oxysporum, and P. guepinii demonstrated high antagonistic activity against pathogenic fungal and bacterial strains. They showed significant plant growth promotion in the ethyl acetate extracts of C. protuberata and P. guepinii and the methanolic extract of I. ciliare on Capsicum annuum and Zea mays seedlings in vitro. OHR-LC MS analysis of P. guepinii ethyl acetate extract and I. ciliare methanolic extract identified ten and seventeen potential secondary metabolites, respectively. Furthermore, the docking analysis established the ligand-receptor interaction. It revealed that eight out of ten P. guepinii compounds and nine out of seventeen I. ciliare compounds have a strong binding affinity towards 3OGM, 4LDY, and 6KU3 target proteins. The endophytic fungal and host metabolite research in-vitro and in-silico aids in predicting compounds with bioactive principles, bio-control agents, and plant growth promoters.
期刊介绍:
The Journal of Plant Pathology (JPP or JPPY) is the main publication of the Italian Society of Plant Pathology (SiPAV), and publishes original contributions in the form of full-length papers, short communications, disease notes, and review articles on mycology, bacteriology, virology, phytoplasmatology, physiological plant pathology, plant-pathogeninteractions, post-harvest diseases, non-infectious diseases, and plant protection. In vivo results are required for plant protection submissions. Varietal trials for disease resistance and gene mapping are not published in the journal unless such findings are already employed in the context of strategic approaches for disease management. However, studies identifying actual genes involved in virulence are pertinent to thescope of the Journal and may be submitted. The journal highlights particularly timely or novel contributions in its Editors’ choice section, to appear at the beginning of each volume. Surveys for diseases or pathogens should be submitted as "Short communications".
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