Co-chaperonin GroES subunit exchange as dependent on time, pH, protein concentration, and urea

IF 2.5 4区生物学 Q3 BIOCHEMISTRY & MOLECULAR BIOLOGY

Biochimica et biophysica acta. Proteins and proteomics Pub Date : 2024-07-14 DOI:10.1016/j.bbapap.2024.141032

Victor Marchenkov , Alexey Surin , Victor Ugarov , Nina Kotova , Natalia Marchenko , Alexey Fedorov , Alexei Finkelstein , Vladimir Filimonov , Gennady Semisotnov

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Abstract

The discovery of a subunit exchange in some oligomeric proteins, implying short-term dissociation of their oligomeric structure, requires new insights into the role of the quaternary structure in oligomeric protein stability and function. Here we demonstrate the effect of pH, protein concentration, and urea on the efficiency of GroES heptamer (GroES₇) subunit exchange. A mixture of equimolar amounts of wild-type (WT) GroES₇ and its Ala97Cys mutant modified with iodoacetic acid (97-carboxymethyl cysteine or CMC-GroES₇) was incubated in various conditions and subjected to isoelectric focusing (IEF) in polyacrylamide gel. For each sample, there are eight Coomassie-stained electrophoretic bands showing different charges that result from a different number of included mutant subunits, each carrying an additional negative charge. The intensities of these bands serve to analyze the protein subunit exchange. The protein stability is evaluated using the transverse urea gradient gel electrophoresis (TUGGE). At pH 8.0, the intensities of the initial bands corresponding to WT-GroES₇ and CMC-GroES₇ are decreased with a half-time of (23 ± 2) min. The exchange decreases with decreasing pH and seems to be strongly hindered at pH 5.2 due to the protonation of groups with pK ∼ 6.3, which stabilizes the protein quaternary structure. The destabilization of the protein quaternary structure caused by increased pH, decreased protein concentration, or urea accelerates the GroES subunit exchange. This study allows visualizing the subunit exchange in oligomeric proteins and confirms its direct connection with the stability of the protein quaternary structure.

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共合子蛋白 GroES 亚基交换与时间、pH 值、蛋白质浓度和尿素有关。

在一些低聚蛋白中发现亚基交换意味着其低聚结构的短期解离，这就需要对四元结构在低聚蛋白稳定性和功能中的作用有新的认识。在这里，我们展示了pH值、蛋白质浓度和尿素对GroES七聚体（GroES7）亚基交换效率的影响。将等摩尔量的野生型（WT）GroES7及其经碘乙酸修饰的Ala97Cys突变体（97-羧甲基半胱氨酸或CMC-GroES7）混合物在不同条件下培养，并在聚丙烯酰胺凝胶中进行等电聚焦（IEF）。每个样本都有八条库马西染色电泳条带，这些条带显示出不同的电荷，这是由于含有不同数量的突变亚基，每个突变亚基都带有额外的负电荷。这些条带的强度可用于分析蛋白质亚基交换。使用横向尿素梯度凝胶电泳（TUGGE）评估蛋白质的稳定性。在 pH 值为 8.0 时，对应于 WT-GroES7 和 CMC-GroES7 的初始条带强度降低，半衰期为（23 ± 2）分钟。交换随着 pH 值的降低而减少，在 pH 值为 5.2 时，由于 pK ~ 6.3 基团的质子化作用，交换似乎受到严重阻碍，从而稳定了蛋白质的四元结构。pH 值升高、蛋白质浓度降低或尿素导致的蛋白质四元结构不稳定会加速 GroES 亚基的交换。这项研究使寡聚蛋白中的亚基交换可视化，并证实了亚基交换与蛋白四元结构的稳定性直接相关。

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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来源期刊

Biochimica et biophysica acta. Proteins and proteomics 生物-生化与分子生物学

CiteScore

8.00

自引率

0.00%

发文量

审稿时长

33 days

期刊介绍： BBA Proteins and Proteomics covers protein structure conformation and dynamics; protein folding; protein-ligand interactions; enzyme mechanisms, models and kinetics; protein physical properties and spectroscopy; and proteomics and bioinformatics analyses of protein structure, protein function, or protein regulation.