Secondary metabolites from endophytic fungi: Production, methods of analysis, and diverse pharmaceutical potential.

IF 2.1 3区 生物学 Q3 MICROBIOLOGY Symbiosis Pub Date : 2023-06-08 DOI:10.1007/s13199-023-00925-9
Vivek Kumar Singh, Awanish Kumar
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引用次数: 3

Abstract

The synthesis of secondary metabolites is a constantly functioning metabolic pathway in all living systems. Secondary metabolites can be broken down into numerous classes, including alkaloids, coumarins, flavonoids, lignans, saponins, terpenes, quinones, xanthones, and others. However, animals lack the routes of synthesis of these compounds, while plants, fungi, and bacteria all synthesize them. The primary function of bioactive metabolites (BM) synthesized from endophytic fungi (EF) is to make the host plants resistant to pathogens. EF is a group of fungal communities that colonize host tissues' intracellular or intercellular spaces. EF serves as a storehouse of the above-mentioned bioactive metabolites, providing beneficial effects to their hosts. BM of EF could be promising candidates for anti-cancer, anti-malarial, anti-tuberculosis, antiviral, anti-inflammatory, etc. because EF is regarded as an unexploited and untapped source of novel BM for effective drug candidates. Due to the emergence of drug resistance, there is an urgent need to search for new bioactive compounds that combat resistance. This article summarizes the production of BM from EF, high throughput methods for analysis, and their pharmaceutical application. The emphasis is on the diversity of metabolic products from EF, yield, method of purification/characterization, and various functions/activities of EF. Discussed information led to the development of new drugs and food additives that were more effective in the treatment of disease. This review shed light on the pharmacological potential of the fungal bioactive metabolites and emphasizes to exploit them in the future for therapeutic purposes.

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内生真菌的次生代谢产物:生产、分析方法和不同的药用潜力。
次级代谢产物的合成是所有生命系统中一个不断发挥作用的代谢途径。次生代谢产物可分为许多类别,包括生物碱、香豆素、类黄酮、木脂素、皂苷、萜烯、醌、黄酮等。然而,动物缺乏这些化合物的合成途径,而植物、真菌和细菌都能合成这些化合物。由内生真菌(EF)合成的生物活性代谢产物(BM)的主要功能是使宿主植物对病原体产生抗性。EF是一组在宿主组织的细胞内或细胞间定殖的真菌群落。EF是上述生物活性代谢产物的仓库,为宿主提供有益的作用。EF的BM可能是抗癌、抗疟疾、抗结核病、抗病毒、抗炎等有前景的候选药物,因为EF被认为是有效候选药物的新BM的未开发和未开发的来源。由于耐药性的出现,迫切需要寻找新的对抗耐药性的生物活性化合物。本文综述了EF生产BM、高通量分析方法及其在药物中的应用。重点是EF代谢产物的多样性、产量、纯化/表征方法以及EF的各种功能/活性。讨论的信息促使开发出更有效治疗疾病的新药和食品添加剂。这篇综述阐明了真菌生物活性代谢产物的药理潜力,并强调在未来将其用于治疗目的。
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来源期刊
Symbiosis
Symbiosis 生物-微生物学
CiteScore
4.80
自引率
8.00%
发文量
56
审稿时长
>12 weeks
期刊介绍: Since 1985, Symbiosis publishes original research that contributes to the understanding of symbiotic interactions in a wide range of associations at the molecular, cellular and organismic level. Reviews and short communications on well-known or new symbioses are welcomed as are book reviews and obituaries. This spectrum of papers aims to encourage and enhance interactions among researchers in this rapidly expanding field. Topics of interest include nutritional interactions; mutual regulatory and morphogenetic effects; structural co-adaptations; interspecific recognition; specificity; ecological adaptations; evolutionary consequences of symbiosis; and methods used for symbiotic research.
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