拉曼光谱在生物传感器应用中的蛋白质相互作用研究

R. P. Kengne-Momo, P. Daniel, F. Lagarde, Y. L. Jeyachandran, J. Pilard, Marie-José Durand-Thouand, G. Thouand
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引用次数: 74

摘要

利用拉曼光谱研究了葡萄球菌蛋白A (SpA)与抗大肠杆菌免疫球蛋白G (IgG)的相互作用和表面结合特性。发现SpA α-螺旋结构中的酪氨酸氨基酸残基参与了与IgG的相互作用。在整体相互作用条件下,蛋白质的天然结构几乎被保留,而SpA的整体二级结构(α-螺旋)发生了相互作用相关的变化。在吸附状态下,蛋白质结构被大量修饰,从而鉴定出参与SpA和IgG相互作用的酪氨酸氨基酸。本研究对SpA和IgG(受体抗体)相互作用机制进行了直接的拉曼光谱研究,目的是未来生物传感器在病原微生物检测中的应用。
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Protein Interactions Investigated by the Raman Spectroscopy for Biosensor Applications
Interaction and surface binding characteristics of staphylococcal protein A (SpA) and an anti-Escherichia coli immunoglobulin G (IgG) were studied using the Raman spectroscopy. The tyrosine amino acid residues present in the α-helix structure of SpA were found to be involved in interaction with IgG. In bulk interaction condition the native structure of proteins was almost preserved where interaction-related changes were observed in the overall secondary structure (α-helix) of SpA. In the adsorbed state, the protein structure was largely modified, which allowed the identification of tyrosine amino acids involved in SpA and IgG interaction. This study constitutes a direct Raman spectroscopic investigation of SpA and IgG (receptor-antibody) interaction mechanism in the goal of a future biosensor application for detection of pathogenic microorganisms.
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