Hydration of bacterial lectin in native state and after immobilization on surface of hydrophobic silica

V. Turov, P. Gorbyk, T. Krupska, S. P. Turanska, E. V. Koval, N. Cheremshenko
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Abstract

The aim of the work was to study the peculiarities of interaction of the surface of bacterial lectin of Bacillus subtilis IMB B-7724 inthe native state and under different model conditions with water molecules by 1 H NMR; to create a composite system based on the studied lectin, in which the protein molecule is minimally affected by the surface of the carrier, because protein molecules are capable to bind a significant amount of water localized in the spaces between the polymer chains. A method of “dry” immobilization of bacterial lectin on the surface of hydrophobic silica has been developed. Hydration of native lectin and lectin fixed on the surface of hydrophobic silica AM-1-175 was studied by low-temperature 1 H NMR spectroscopy. It has been shown that the immobilization of lectin on the surface of AM1 is accompanied by an increase in the interfacial energy gS from 4.1 to 5.2 J/g. This is due to an increase in the concentration of strongly bound water. Analysis of changes in the distributions of radii R of clusters of adsorbed water allows us to state that in water adsorbed by native lectin, there are two main maxima at R = 1 and 3 nm. In the immobilized state, the maximum at R = 1 nm is present in both types of water (of different order), but the second maximum is observed only for more ordered associates. Chloroform medium slightly reduces the binding energy of water to native lectin molecules (from 4.3 to 4.1 J/g), but in the case of immobilized lectin in CDCl3 medium, the value of ΣgS increases from 5.2 to 7.4 J/g. That is, the weakly polar medium promotes to increase in the interaction of water with interfaces, which is manifested in a relative increase in the number of water clusters of smaller size (Fig. 4). It should be noted that weakly associated forms of water (signal 3) are also represented by several types of clusters that have a radius in the range R = 1–10 nm, and their size distribution changes significantly during immobilization of lectin on the surface of AM1. Probably, weakly associated types of water are formed both in cavities, between polymer chains of protein molecules, and on the surface of AM1, free of protein.
细菌凝集素在天然状态和在疏水二氧化硅表面固定化后的水化作用
利用核磁共振(1h NMR)研究了枯草芽孢杆菌(Bacillus subtilis IMB -7724)凝集素表面在天然状态和不同模型条件下与水分子相互作用的特性;创建一个基于所研究的凝集素的复合系统,其中蛋白质分子受载体表面的影响最小,因为蛋白质分子能够结合大量的水,这些水位于聚合物链之间的空间。研究了一种在疏水二氧化硅表面“干”固定细菌凝集素的方法。采用低温1h NMR研究了天然凝集素与固定在疏水二氧化硅AM-1-175表面的凝集素的水化作用。结果表明,将凝集素固定在AM1表面,界面能gS从4.1增加到5.2 J/g。这是由于强结合水浓度的增加。对吸附水簇半径R分布变化的分析表明,在天然凝集素吸附的水中,在R = 1和3nm处存在两个主要的最大值。在固定状态下,R = 1 nm处的最大值存在于两种类型的水(不同的顺序)中,但第二个最大值仅在更有序的缔合物中观察到。氯甲烷介质使水与天然凝集素分子的结合能从4.3降低到4.1 J/g,但在CDCl3介质中固定凝集素时,ΣgS的值从5.2增加到7.4 J/g。弱极性介质,促进与接口,增加水的相互作用体现在水的数量相对增加集群规模较小的(图4)。需要注意的是,相关弱形式的水(3)信号也是由几种类型的集群中有一个半径R = 1 - 10 nm范围,及其大小分布变化明显在凝集素AM1表面的固定。可能,弱相关类型的水既形成于蛋白质分子的聚合物链之间的空腔中,也形成于无蛋白质的AM1表面。
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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