Sialic acids structure-analysis-metabolism-occurrence-recognition.

G Reuter, H J Gabius
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引用次数: 75

Abstract

Sialic acids are commonly positioned at non-reducing termini of complex carbohydrates. Steady refinements of analytical techniques have enabled detailed mapping of the complexity of sialic acids, unravelling a number of possibilities for substitutions. These developments have aided the description of the required enzymatic activities. In view of the physiological significance of this intriguing extent of variability of one sugar unit, the assumption that distinct types of sialic acids can serve as ligands in recognitive interactions is gaining support. It is reinforced by the discovery of several classes of mammalian lectins that bind sialo-glycoconjugates. Notably, an often encountered modification of sialic acids, namely O-acetylation, can be considered as a modulatory signal in recognition, either serving as contact point or masking a ligand structure. The increased knowledge of the physiological roles of sialic acids, for example in selectin-mediated leukocyte recruitment to sites of inflammation or in influenza virus propagation, even points to clinical applications. This perspective has led the field from the inherently descriptive beginning to technically sophisticated attempts for deliberate drug design.

唾液酸结构-分析-代谢-发生-识别。
唾液酸通常位于复合碳水化合物的非还原末端。不断改进的分析技术已经能够详细绘制唾液酸的复杂性,揭示了许多替代的可能性。这些进展有助于描述所需的酶活性。鉴于一个糖单位的这种有趣的可变性程度的生理意义,不同类型的唾液酸可以在识别相互作用中作为配体的假设正在获得支持。发现了几种结合唾液糖缀合物的哺乳动物凝集素,这一点得到了加强。值得注意的是,经常遇到的唾液酸修饰,即o -乙酰化,可以被认为是识别中的调节信号,要么作为接触点,要么掩盖配体结构。对唾液酸生理作用的认识的增加,例如在选择素介导的白细胞募集到炎症部位或流感病毒传播中,甚至指向临床应用。这一观点已经将该领域从固有的描述性开始引导到技术上复杂的蓄意药物设计尝试。
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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