糖基化在大豆凝集素解折叠途径建立中的特性
Attributes of glycosylation in the establishment of the unfolding pathway of soybean agglutinin.
作者信息
Sinha Sharmistha, Surolia Avadhesha
机构信息
Molecular Biophysics Unit, Indian Institute of Science, Bangalore, India.
出版信息
Biophys J. 2007 Jan 1;92(1):208-16. doi: 10.1529/biophysj.106.092668. Epub 2006 Sep 15.
Abstract
Soybean agglutinin (gSBA) is a tetrameric legume lectin, each of whose subunits are glycosylated. Earlier studies have shown that this protein shows exceptionally high stability in terms of free energy of unfolding when compared to other proteins from the same family. This article deals with the unfolding reactions of the nonglycosylated recombinant form of the protein rSBA and its comparison with the glycosylated counterpart gSBA. The nonglycosylated form features a lower stability when compared to the glycosylated form. Further, the unfolding pathways in the two are widely different. Although the glycosylated form undergoes a simple two-state unfolding, the nonglycosylated species unfolds via a compact monomeric intermediate that is not a molten globule. Representative isothermal and thermal denaturation profiles show that glycosylation accounts for a stabilization of approximately 9 kcal/mol of the tetramer, whereas the difference in T(m) between the two forms is 26 degrees C. Computational studies on the glycan-protein interactions at the noncanonical interface of the protein show that quite a number of hydrogen bond and hydrophobic interactions stabilize the glycoprotein tetramer.
摘要
大豆凝集素(gSBA)是一种四聚体豆科植物凝集素,其每个亚基都进行了糖基化修饰。早期研究表明,与同一家族的其他蛋白质相比,该蛋白质在展开自由能方面表现出极高的稳定性。本文研究了非糖基化重组形式的蛋白质rSBA的展开反应,并将其与糖基化对应物gSBA进行比较。与糖基化形式相比,非糖基化形式的稳定性较低。此外,两者的展开途径差异很大。虽然糖基化形式经历简单的两态展开,但非糖基化物种通过一个不是熔球态的紧密单体中间体展开。代表性的等温及热变性曲线表明,糖基化使四聚体稳定约9千卡/摩尔,而两种形式之间的熔点差异为26℃。对蛋白质非经典界面处聚糖-蛋白质相互作用的计算研究表明,相当数量的氢键和疏水相互作用稳定了糖蛋白四聚体。
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