Deciphering the enigmatic PilY1 of Acidithiobacillus thiooxidans: An in silico analysis

IF 2.3 Q3 BIOCHEMISTRY & MOLECULAR BIOLOGY Biochemistry and Biophysics Reports Pub Date : 2024-07-26 DOI:10.1016/j.bbrep.2024.101797
Araceli Hernández-Sánchez , Edgar D. Páez-Pérez , Elvia Alfaro-Saldaña, J. Viridiana García-Meza
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Abstract

Thirty years since the first report on the PilY1 protein in bacteria, only the C-terminal domain has been crystallized; there is no study in which the N-terminal domain, let alone the complete protein, has been crystallized. In our laboratory, we are interested in characterizing the Type IV Pili (T4P) of Acidithiobacillus thiooxidans. We performed an in silico characterization of PilY1 and other pilins of the T4P of this acidophilic bacterium. In silico characterization is crucial for understanding how proteins adapt and function under extreme conditions. By analyzing the primary and secondary structures of proteins through computational methods, researchers can gain valuable insights into protein stability, key structural features, and unique amino acid compositions that contribute to resilience in harsh environments. Here, it is presented a description of the particularities of At. thiooxidans PilY1 through predictor software and homology data. Our results suggest that PilY1 from At. thiooxidans may have the same role as has been described for other PilY1 associated with T4P in neutrophilic bacteria; also, its C-terminal interacts (interface interaction) with the minor pilins PilX, PilW and PilV. The N-terminal region comprises domains such as the vWA and the MIDAS, involved in signaling, ligand-binding, and protein-protein interaction. In fact, the vWA domain has intrinsically disordered regions that enable it to maintain its structure over a wide pH range, not only at extreme acidity to which At. thiooxidans is adapted. The results obtained helped us design the correct methodology for its heterologous expression. This allowed us partially experimentally characterize it by obtaining the N-terminal domain recombinantly and evaluating its acid stability through fluorescence spectroscopy. The data suggest that it remains stable across pH changes. This work thus provides guidance for the characterization of extracellular proteins from extremophilic organisms.

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解密硫氧亚酸盐杆菌神秘的 PilY1:一项硅学分析
自首次报道细菌中的 PilY1 蛋白以来的 30 年中,只有 C 端结构域被结晶化;N 端结构域,更不用说完整的蛋白质,还没有任何研究被结晶化。我们实验室对硫代硫杆菌的 IV 型纤毛虫(T4P)的特征研究很感兴趣。我们对这种嗜酸性细菌 T4P 的 PilY1 和其他纤毛蛋白进行了硅学表征。硅表征对于了解蛋白质如何在极端条件下适应和发挥作用至关重要。通过计算方法分析蛋白质的一级和二级结构,研究人员可以深入了解蛋白质的稳定性、关键结构特征以及有助于在恶劣环境中恢复能力的独特氨基酸组成。本文通过预测软件和同源数据描述了At.我们的研究结果表明,硫氧单胞菌中的 PilY1 可能与嗜中性细菌中与 T4P 相关的其他 PilY1 具有相同的作用;此外,它的 C 端还与次要柔毛蛋白 PilX、PilW 和 PilV 相互作用(界面相互作用)。N 端区域由 vWA 和 MIDAS 等结构域组成,参与信号传递、配体结合和蛋白质之间的相互作用。事实上,vWA 结构域具有内在无序区,使其能够在很宽的 pH 值范围内保持结构,而不仅仅是在硫氧虫卵适应的极端酸性条件下。获得的结果帮助我们设计了正确的异源表达方法。这使我们能够通过重组获得 N 端结构域,并通过荧光光谱评估其酸性稳定性,从而对其进行部分实验表征。数据表明,它在 pH 值变化时保持稳定。因此,这项工作为鉴定嗜极生物的细胞外蛋白质提供了指导。
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来源期刊
Biochemistry and Biophysics Reports
Biochemistry and Biophysics Reports Biochemistry, Genetics and Molecular Biology-Biophysics
CiteScore
4.60
自引率
0.00%
发文量
191
审稿时长
59 days
期刊介绍: Open access, online only, peer-reviewed international journal in the Life Sciences, established in 2014 Biochemistry and Biophysics Reports (BB Reports) publishes original research in all aspects of Biochemistry, Biophysics and related areas like Molecular and Cell Biology. BB Reports welcomes solid though more preliminary, descriptive and small scale results if they have the potential to stimulate and/or contribute to future research, leading to new insights or hypothesis. Primary criteria for acceptance is that the work is original, scientifically and technically sound and provides valuable knowledge to life sciences research. We strongly believe all results deserve to be published and documented for the advancement of science. BB Reports specifically appreciates receiving reports on: Negative results, Replication studies, Reanalysis of previous datasets.
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