在低温环境中,一种耐热生物素结合蛋白的结构适应性。
Structural adaptation of a thermostable biotin-binding protein in a psychrophilic environment.
机构信息
Department of Biological Chemistry, the Hebrew University of Jerusalem, Givat Ram, Jerusalem, Israel.
出版信息
J Biol Chem. 2012 May 25;287(22):17951-62. doi: 10.1074/jbc.M112.357186. Epub 2012 Apr 5.
Abstract
Shwanavidin is an avidin-like protein from the marine proteobactrium Shewanella denitrificans, which exhibits an innate dimeric structure while maintaining high affinity toward biotin. A unique residue (Phe-43) from the L3,4 loop and a distinctive disulfide bridge were shown to account for the high affinity toward biotin. Phe-43 emulates the function and position of the critical intermonomeric Trp that characterizes the tetrameric avidins but is lacking in shwanavidin. The 18 copies of the apo-monomer revealed distinctive snapshots of L3,4 and Phe-43, providing rare insight into loop flexibility, binding site accessibility, and psychrophilic adaptation. Nevertheless, as in all avidins, shwanavidin also displays high thermostability properties. The unique features of shwanavidin may provide a platform for the design of a long sought after monovalent form of avidin, which would be ideal for novel types of biotechnological application.
摘要
Shwanavidin 是一种来自海洋 Proteobacterium Shewanella denitrificans 的抗生物素蛋白,它具有先天的二聚体结构,同时对生物素有高亲和力。来自 L3,4 环的一个独特残基(Phe-43)和一个独特的二硫键被证明是对生物素有高亲和力的原因。Phe-43 模拟了关键的单体间色氨酸的功能和位置,该色氨酸是四聚体抗生物素的特征,但在 shwanavidin 中缺失。18 个apo-单体的独特快照揭示了 L3,4 和 Phe-43 的独特特征,为环灵活性、结合位点可及性和耐寒性适应提供了难得的见解。然而,与所有抗生物素蛋白一样,shwanavidin 也表现出高热稳定性特性。Shwanavidin 的独特特征可能为设计长期以来一直寻求的单价形式的抗生物素蛋白提供了一个平台,这对于新型生物技术应用将是理想的。
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