Bio prospecting of Lapachol producing endophytic fungi

C. Srinivasa, Sushma Pradeep, Shashank M. Patil, R. Ramu, S. Kollur, Shashanka K. Prasad, C. Shivamallu
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Abstract

Background : The association of endophytic fungi with medicinal plants has been one of the evolving areas of research in the past few decades. The secondary metabolites produced owing to such associations have been recognised for a wide range of biological activities. Objectives : The aim of the present review is to highlight the isolation of lapachol from endophytic microorganisms with an emphasis on its biotransformation to improve its ef fi cacy. Methodology : The researchers followed the Preferred Reporting Items for Systematic Reviews and Meta-Analyses (PRISMA) criteria. Published scienti fi c articles on endophytes, host e pathogen interaction and lapachol isolation were collected from reputed journals from 1960 to 2022 using electronic databases using the key words as stated. Following that, the authors chose the required papers based on the criteria they devised. The data was extracted using the common research elements found in the publications. Results and discussion : Lapachol is one such secondary metabolite known for potent antitumor properties. Synthesis of lapachol and its isolation from plant sources have been reported but an expensive process. Therefore, bioprospecting of this metabolite from endophytic fungi have been evaluated by a few researchers. It has been identi fi ed that A. niger and Alternaria alternata along with some of the fi lamentous endophytic fungi have been identi fi ed to produce lapachol. Some fi ndings of biotransformation of lapachol to render it more potent have also been reported in the present review. Conclusion : Lapachol is one of the plant secondary metabolites that possess several therapeutic bene fi ts. Owing to its isolation being highly expensive from plant sources, endophytes have been exploited. Furthering to the isolation, the biotrasformation of this bioactive molecule to enhance its ef fi ciency has proven to be useful. In this regard, this review has enlightened some of the biotransformed lapachol and its derivatives with special emphasis on the endophytes that produce them. This review comprehensively highlights the various endophytic sources for lapachol production and its biotransformed derivatives.
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产内生真菌Lapachol的生物前景研究
背景:在过去的几十年里,内生真菌与药用植物的关联是一个不断发展的研究领域。由于这种关联而产生的次生代谢物已被认为具有广泛的生物活性。目的:本文综述了从内生微生物中分离拉帕恰尔的研究进展,重点介绍了其生物转化作用,以提高其疗效。方法:研究人员遵循系统评价和荟萃分析(PRISMA)标准的首选报告项目。采用电子数据库对1960 ~ 2022年国内外知名期刊上发表的有关内生菌、宿主与病原体相互作用和lapachol分离的论文进行检索,检索关键词如下所示。然后,作者根据他们设计的标准选择所需的论文。数据是使用在出版物中发现的常见研究元素提取的。结果和讨论:Lapachol是一种次级代谢物,具有有效的抗肿瘤特性。从植物中合成和分离拉帕醇已经有报道,但这是一个昂贵的过程。因此,一些研究人员对该内生真菌代谢物的生物开发前景进行了评价。已经确定黑曲霉和互交霉以及一些真菌内生真菌可以产生lapachol。本文还报道了一些生物转化的发现,以使其更有效。结论:Lapachol是一种具有多种治疗作用的植物次生代谢物,由于其从植物中分离的成本较高,因此已被开发利用。在进一步分离的基础上,对该生物活性分子进行生物转化以提高其效率已被证明是有用的。在这方面,本文综述了一些生物转化的lapachol及其衍生物,特别强调了产生它们的内生菌。本文综合介绍了各种内生来源的lapachol生产及其生物转化衍生物。
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