Molecular Docking of Monomethine Cyanine Dyes to Lysozyme Amyloid Fibrils

IF 2.8 4区生物学

3 Biotech Pub Date : 2022-09-02 DOI:10.26565/2312-4334-2022-3-18

O. Zhytniakivska, U. Tarabara, A. Kurutos, Kateryna Vus, V. Trusova, G. Gorbenko

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引用次数: 0

Abstract

Protein aggregation into highly ordered supramolecular aggregates is the hallmark of many degenerative diseases including the neurological disorders (Parkinson’s, Alzheimer’s, and Huntington’s diseases), type II diabetes, systemic amyloidosis, spongiform encephalopathies, etc. One of the simplest and effective methods for the identification and characterization of amyloid fibrils in vitro and the visualization of amyloid inclusions in vivo is based on the use of probes sensitive to the beta-pleated motifs. In the attempt to design new amyloid-sensing dyes or to optimization the existing molecules, it is crucial to have the sufficient knowledge of the molecular and atomic levels interactions in the binding sites. Among the especially useful methods available to provide the atomic-level insights into the mechanisms of various types of biomolecular interactions is molecular docking technique. In the present study, the molecular docking tool has been employed to investigate the interactions between the monomethine cyanine dyes and the lysozyme amyloid fibrils constructed from the K-peptide of lysozyme, GILQINSRW (residues 54–62 of the wild-type protein). Using the AutoDOCK and the protein-ligand interaction profiler PLIP it was found: i) monomethines interact with the fibril surface (with the aromatic residues on the top of β-sheet or with the edges of the β-sheet); ii) the dye binding is governed by the hydrophobic interactions, salt bridges and the hydrogen bonds between the aliphatic substituents on the nitrogen atom of benzothiazole part of dye molecules and the lysozyme amyloid fibril; iii) the variations in the cyanine structure and in the lysozyme amiloid twisting didn’t insert significant effect on the binding mode of cyanines.

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单亚甲基菁染料与溶菌酶淀粉样蛋白原纤维的分子对接

蛋白质聚集成高度有序的超分子聚集体是许多退行性疾病的标志，包括神经系统疾病(帕金森病、阿尔茨海默病和亨廷顿病)、2型糖尿病、系统性淀粉样变性、海棉状脑病等。在体外鉴定和表征淀粉样蛋白原纤维以及在体内可视化淀粉样蛋白内含物的最简单有效的方法之一是基于对β褶基序敏感的探针的使用。在尝试设计新的淀粉样蛋白传感染料或优化现有分子时，对结合位点的分子和原子水平相互作用有足够的了解是至关重要的。分子对接技术是一种特别有用的方法，可以在原子水平上深入了解各种生物分子相互作用的机制。本研究采用分子对接工具研究了单亚甲基花青素染料与溶菌酶k肽GILQINSRW(野生型蛋白残基54-62)构建的溶菌酶淀粉样原纤维之间的相互作用。使用AutoDOCK和蛋白质-配体相互作用分析器PLIP发现:i)单亚胺与纤维表面相互作用(与β-薄片顶部或β-薄片边缘的芳香残基相互作用);Ii)染料结合受染料分子苯并噻唑部分氮原子上的脂肪取代基与溶菌酶淀粉样纤维之间的疏水相互作用、盐桥和氢键控制;Iii)菁氨酸结构和溶菌酶类淀粉扭转的变化对菁氨酸的结合方式没有显著影响。

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来源期刊

3 Biotech BIOTECHNOLOGY & APPLIED MICROBIOLOGY-

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发文量

314

期刊介绍： 3 Biotech publishes the results of the latest research related to the study and application of biotechnology to: - Medicine and Biomedical Sciences - Agriculture - The Environment The focus on these three technology sectors recognizes that complete Biotechnology applications often require a combination of techniques. 3 Biotech not only presents the latest developments in biotechnology but also addresses the problems and benefits of integrating a variety of techniques for a particular application. 3 Biotech will appeal to scientists and engineers in both academia and industry focused on the safe and efficient application of Biotechnology to Medicine, Agriculture and the Environment.