Sakuranetin State of the Art: Physical Properties, Biological Effects, and Biotechnological Trends

IF 1.3 Q4 BIOTECHNOLOGY & APPLIED MICROBIOLOGY
Leonardo Ribeiro Bernardo, A. R. Braga
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引用次数: 0

Abstract

The search for active metabolites present in plants is of great value and has been an important source of bioactive substances for centuries. Sakuranetin, first identified in the bark of cherry trees (Prunus spp.), is a flavonoid of the flavanone subclass, acting as a phytoalexin essential for the plant defense system. The present work aims to describe the state art of sakuranetin, including physical properties, biological effects, and biotechnological trends. An investigation was carried out in the Elsevier Scopus database to understand the main aspects regarding the contributions of sakuranetin to publications reporting its biological effects. Currently, several biological activities are related to it, the most relevant being the antiviral, antibacterial, anticancer, anti-inflammatory, antiparasitic, and antibiotic. The anti-inflammatory activity is the leading and most cited biological activity related to sakuranetin, and another exciting capacity is cancer cell proliferation inhibition shown over several cell cultures. Sakuranetin is already known for microbial defense of plants and antiparasitic against Leishmania species was reported, as was virostatic and virucidal characteristics for human viruses, including SARS-COV-2. Due to limitations of the flavonoid molecular characteristics, sakuranetin needs to be implemented in new technologies, and nanoencapsulation techniques are presented as an alternative for enhancing sakuranetin features. More studies are necessary to harness all of the biological potential of sakuranetin in our society.
Sakuranetin最新技术:物理特性、生物效应和生物技术趋势
寻找植物中存在的活性代谢物具有重要价值,几个世纪以来一直是生物活性物质的重要来源。Sakuranetin首先在樱桃树(Prunus spp.)的树皮中发现,是黄酮亚类中的一种黄酮类化合物,作为植物防御系统必需的植物抗毒素。本文旨在介绍樱花素的研究现状,包括其物理特性、生物效应和生物技术发展趋势。在Elsevier Scopus数据库中进行了一项调查,以了解樱花素对报告其生物效应的出版物的主要贡献。目前,与之相关的生物活性有抗病毒、抗菌、抗癌、抗炎、抗寄生虫和抗生素等。抗炎活性是与樱花素相关的主要和最被引用的生物活性,另一个令人兴奋的能力是抑制癌细胞增殖,在几个细胞培养中显示出来。据报道,sakuretin具有植物微生物防御和抗利什曼原虫的抗寄生虫作用,以及对包括SARS-COV-2在内的人类病毒的病毒抑制和杀病毒特性。由于类黄酮分子特性的限制,樱素需要在新技术中实现,纳米胶囊技术被提出作为增强樱素特性的替代方法。我们需要更多的研究来利用樱花素在我们社会中的所有生物学潜力。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Industrial Biotechnology
Industrial Biotechnology Biochemistry, Genetics and Molecular Biology-Biotechnology
CiteScore
2.20
自引率
0.00%
发文量
44
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