The Laurencia Paradox: An Endless Source of Chemodiversity.

Q1 Medicine
Maria Harizani, Efstathia Ioannou, Vassilios Roussis
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引用次数: 50

Abstract

Nature, the most prolific source of biological and chemical diversity, has provided mankind with treatments for health problems since ancient times and continues to be the most promising reservoir of bioactive chemicals for the development of modern drugs. In addition to the terrestrial organisms that still remain a promising source of new bioactive metabolites, the marine environment, covering approximately 70% of the Earth's surface and containing a largely unexplored biodiversity, offers an enormous resource for the discovery of novel compounds. According to the MarinLit database, more than 27,000 metabolites from marine macro- and microorganisms have been isolated to date providing material and key structures for the development of new products in the pharmaceutical, food, cosmeceutical, chemical, and agrochemical sectors. Algae, which thrive in the euphotic zone, were among the first marine organisms that were investigated as sources of food, nutritional supplements, soil fertilizers, and bioactive metabolites.Red algae of the genus Laurencia are accepted unanimously as one of the richest sources of new secondary metabolites. Their cosmopolitan distribution, along with the chemical variation influenced to a significant degree by environmental and genetic factors, have resulted in an endless parade of metabolites, often featuring multiple halogenation sites.The present contribution, covering the literature until August 2015, offers a comprehensive view of the chemical wealth and the taxonomic problems currently impeding chemical and biological investigations of the genus Laurencia. Since mollusks feeding on Laurencia are, in many cases, bioaccumulating, and utilize algal metabolites as chemical weaponry against natural enemies, metabolites of postulated dietary origin of sea hares that feed on Laurencia species are also included in the present review. Altogether, 1047 secondary metabolites, often featuring new carbocyclic skeletons, have been included.The chapter addresses: (1) the "Laurencia complex", the botanical description and the growth and population dynamics of the genus, as well as its chemical diversity and ecological relations; (2) the secondary metabolites, which are organized according to their chemical structures and are classified into sesquiterpenes, diterpenes, triterpenes, acetogenins, indoles, aromatic compounds, steroids, and miscellaneous compounds, as well as their sources of isolation which are depicted in tabulated form, and (3) the biological activity organized according to the biological target and the ecological functions of Laurencia metabolites.

劳伦斯悖论:化学多样性的无尽源泉。
大自然是生物和化学多样性最丰富的源泉,自古以来就为人类提供了治疗健康问题的方法,并继续是开发现代药物的最有希望的生物活性化学品储存库。除了陆地生物仍然是新的生物活性代谢物的有希望的来源之外,海洋环境,覆盖了大约70%的地球表面,包含了很大程度上未开发的生物多样性,为发现新的化合物提供了巨大的资源。根据MarinLit数据库,迄今为止已从海洋宏观和微生物中分离出27,000多种代谢物,为制药,食品,药品,化工和农化部门的新产品开发提供了材料和关键结构。藻类生长在绿化带,是最早被研究作为食物、营养补充、土壤肥料和生物活性代谢物来源的海洋生物之一。Laurencia属的红藻被公认为是新的次生代谢产物最丰富的来源之一。它们的世界性分布,以及在很大程度上受环境和遗传因素影响的化学变化,导致了无穷无尽的代谢物,通常具有多个卤化位点。目前的贡献,涵盖了截至2015年8月的文献,提供了一个全面的化学财富和目前阻碍Laurencia属化学和生物学研究的分类问题。由于软体动物以劳伦藻为食,在许多情况下具有生物积累作用,并利用藻类代谢物作为对抗天敌的化学武器,因此本综述也包括了以劳伦藻为食的海兔饮食来源的代谢物。总共包括1047种次生代谢物,通常具有新的碳环骨架。本章主要讨论:(1)“Laurencia complex”,该属植物的植物描述、生长和种群动态、化学多样性和生态关系;(2)次生代谢产物按其化学结构分类为倍半萜类、二萜类、三萜类、乙酰素类、吲哚类、芳香族化合物、甾体类和杂类化合物及其分离来源,并以表格形式描述;(3)次生代谢产物按生物靶点和生态功能分类的生物活性。
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
CiteScore
4.40
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0.00%
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