Fucanome and Galactanome: Marine Glycomics Contribution

Journal of glycobiology Pub Date : 2012-01-31 DOI:10.4172/2168-958X.1000101

V. Pomin

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引用次数: 1

Abstract

Following the genome, transcriptome and proteome, the glycome has currently launched in biology bringing apparently more challenges than the first projects. The long major conception of carbohydrates as just energetically involved class of biomolecules has fallen apart as innumerable essential biological actions have been raised, impossible to be enlisted all together at once. Such actions involve not only vital roles in cell and physiology but within a different context they also include potent therapeutic actions in coagulation, thrombosis, inflammation, virosis, pathogenesis, tumorigenesis, metastasis and angiogenesis. Glycomics is so extensive project that subdivision is necessary for its progress. Specific segments of research have been created about particular bioactive sugar classes such as sialome for sialic acids, and heparanomics for heparan bioactive domains. Fucanome and galactanome must be also included in the recent glycomics age with respect to the relatively new class of marine fucose- or galactose-composing polysaccharides named sulfated fucans and sulfated galactans. These glycans are very biologically relevant since they show potent pharmacological properties in many of the above-mentioned systems; besides in sea-urchins they are responsible to control a very rare case of carbohydrate-mediated cell signaling event, the acrosome reaction. The structure of these glycans is very restricted to phyla or species of occurrence. Among all marine organisms, only invertebrates and red algae have been known so far to express high molecular weight polymers composed of well-defined structures. These structural features are unique and very rare among any bioactive polysaccharide ever studied. This would make fucanome and galactanome differential glycomics subprojects in terms of structure and phylogeny. This paper not only brings out novel segments and their respective contribution to glycomics but also highlights the great relevance of pharmacological effects of these new glycans in the current glycome era.

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岩藻烯和半乳糖烯:海洋糖组学贡献

继基因组学、转录组学和蛋白质组学之后，糖苷学目前在生物学领域的启动带来了明显比最初的项目更多的挑战。长期以来，碳水化合物只是一种能量相关的生物分子的主要概念已经瓦解，因为无数基本的生物作用已经被提出，不可能同时被纳入其中。这些作用不仅涉及细胞和生理的重要作用，而且在不同的背景下，它们还包括凝血、血栓形成、炎症、病毒感染、发病机制、肿瘤发生、转移和血管生成等强有力的治疗作用。糖组学是一个非常广泛的项目，它的进展需要细分。特定的生物活性糖类的研究已经形成了特定的部分，如唾液酸的唾液糖和肝素生物活性域的肝素糖。在最近的糖组学时代中，也必须包括岩藻脂和半乳糖脂，这是相对较新的一类海洋焦糖或半乳糖组成的多糖，称为硫酸岩藻脂和硫酸半乳糖。这些聚糖具有很强的生物学相关性，因为它们在许多上述系统中显示出强大的药理特性;此外，在海胆中，它们负责控制一种非常罕见的碳水化合物介导的细胞信号事件，顶体反应。这些聚糖的结构非常局限于发生的门或种。在所有海洋生物中，迄今为止已知只有无脊椎动物和红藻能够表达由明确结构组成的高分子量聚合物。这些结构特征是独特的，非常罕见的任何生物活性多糖研究。这将使岩藻糖脂素和半乳糖糖脂素在结构和系统发育方面成为不同的糖组亚项目。本文不仅提出了新的糖组学片段及其各自对糖组学的贡献，而且强调了这些新聚糖在当前糖组学时代的药理作用的重要相关性。

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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Journal of glycobiology

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