Exploring the role of preferential solvation in the stability of globular proteins through the study of ovalbumin interaction with organic additives

IF 1.1 Q4 BIOPHYSICS AIMS Biophysics Pub Date : 2023-01-01 DOI:10.3934/biophy.2023025
Tatyana Tretyakova, Maya Makharadze, Sopio Uchaneishvili, Mikhael Shushanyan, Dimitri Khoshtariya
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Abstract

The impact of denaturing and stabilizing osmolytes on protein conformational dynamics has been extensively explored due to the significant contribution of protein solvation to the stability, function, malfunction and regulation of globular proteins. We studied the effect of two nonspecific organic molecules, urea, which is a conventional denaturant, and dimethyl sulfoxide (DMSO), which is a multilateral organic solvent, on the stability and conformational dynamics of a non-inhibitory serpin, ovalbumin (OVA). A differential scanning microcalorimetry (DSC) experimental series conducted in the phosphate buffer solutions containing 0–30% of additives revealed the destabilizing impact of both urea and DMSO in a mild acidic media, manifested in the gradual decrease of thermal unfolding enthalpy and transition temperature. These findings differ from the results observed in our study of the mild alkaline DMSO buffered solutions of OVA, where the moderate stabilization of OVA was observed in presence of 5–10% of DMSO. However, the overall OVA interaction patterns with urea and DMSO are consistent with our previous findings on the stability and conformational flexibility of another model globular protein, α-chymotrypsin, in similar medium conditions. The obtained results could be explained by preferential solvation patterns. Positive preferential solvation of protein by urea in urea/water mixtures mainly weakens the hydrophobic interactions of the protein globule and eventually leads to the disruption of the tertiary structure within the whole range of urea concentrations. Alternatively, under certain experimental conditions in DMSO/water mixtures, positive preferential solvation by water molecules can be observed. We assume that the switch to the positive preferential solvation by DMSO, which is shown to have a soft maximum around 20–30% DMSO, could be shifted towards lower additive concentrations due to the intrinsic capability of ovalbumin OVA to convert into a heat-stable, yet flexible set of conformations that have increased the surface hydrophobicity, characteristic to molten-globule-like states.

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通过研究卵清蛋白与有机添加剂的相互作用,探索优先溶剂化在球状蛋白稳定性中的作用
& lt; abstract>由于蛋白质溶剂化对球状蛋白的稳定性、功能、失能和调控的重要贡献,变性和稳定化渗透物对蛋白质构象动力学的影响已被广泛探索。我们研究了两种非特异性有机分子,尿素(常规变性剂)和二甲基亚砜(DMSO)(多边有机溶剂)对非抑制丝氨酸蛋白卵清蛋白(OVA)的稳定性和构象动力学的影响。在含0-30%添加剂的磷酸盐缓冲溶液中进行的差示扫描微量热(DSC)系列实验揭示了尿素和DMSO在温和酸性介质中的不稳定作用,表现为热展开焓和转变温度逐渐降低。这些发现不同于我们在OVA的温和碱性DMSO缓冲溶液中观察到的结果,其中在5-10%的DMSO存在下观察到OVA的适度稳定。然而,OVA与尿素和DMSO的整体相互作用模式与我们之前在类似培养基条件下对另一种模型球形蛋白α-凝乳胰蛋白酶的稳定性和构象灵活性的研究结果一致。所得结果可以用优先溶剂化模式来解释。在尿素/水混合物中,尿素对蛋白质的正向优先溶剂化主要削弱了蛋白质球的疏水相互作用,最终导致整个尿素浓度范围内三级结构的破坏。或者,在一定的实验条件下,在DMSO/水混合物中,可以观察到水分子的正向优先溶剂化。我们假设,DMSO的正向优先溶剂化的转变可以转向较低的添加剂浓度,因为卵清蛋白OVA具有内在的能力,可以转化为热稳定的、但灵活的构象,这些构象增加了表面疏水性,特征是熔融球状状态。& lt; / abstract>
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来源期刊
AIMS Biophysics
AIMS Biophysics BIOPHYSICS-
CiteScore
2.40
自引率
20.00%
发文量
16
审稿时长
8 weeks
期刊介绍: AIMS Biophysics is an international Open Access journal devoted to publishing peer-reviewed, high quality, original papers in the field of biophysics. We publish the following article types: original research articles, reviews, editorials, letters, and conference reports. AIMS Biophysics welcomes, but not limited to, the papers from the following topics: · Structural biology · Biophysical technology · Bioenergetics · Membrane biophysics · Cellular Biophysics · Electrophysiology · Neuro-Biophysics · Biomechanics · Systems biology
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