Institute of Organic Chemistry and Biochemistry, Academy of Sciences, Prague, Czech Republic.
Chirality. 2012 Feb;24(2):97-103. doi: 10.1002/chir.21029. Epub 2011 Dec 19.
The amyloid fibril of bovine insulin and its renaturing intermediates were studied by using Raman optical activity (ROA). In the spectrum of the amyloid, the sharp +/- ROA couplet of amide I band characteristic of the β-sheet-rich proteins was observed, together with a sharp peak at 1271 cm(-1) characteristic of a turn structure. The shoulder ROA peak of the native insulin at ~ 1340 cm(-1), which was assigned to the hydrated α-helix, was not observed in the amyloid, suggesting that the hydrated α-helix was converted to the parallel β-sheet structure in the amyloid. Recovery of the amyloid to the native state was also monitored by ROA. The intermediate states showed distinct features from the amyloid or native ones. The intermediates did not show a characteristic ROA peak of the poly(L-proline) II helix at ~ 1318 cm(-1). The hydrated α-helix ROA peak was not recovered in the intermediate states. In a process of the amyloid formation, at first the hydrated α-helix of the native insulin is converted to a specific partially unfolded structure, and then, it was converted to the parallel β-sheet structure with many turns.
使用拉曼光学活性(ROA)研究了牛胰岛素的淀粉样纤维及其复性中间体。在淀粉样纤维的光谱中,观察到特征性β-折叠丰富蛋白酰胺 I 带的尖锐 +/- ROA 偶合,以及 1271 cm(-1) 处特征性的转角结构的尖锐峰。天然胰岛素在1340 cm(-1)处的肩 ROA 峰,被分配到水合α-螺旋,在淀粉样纤维中未观察到,表明水合α-螺旋在淀粉样纤维中转化为平行β-折叠结构。ROA 还监测了淀粉样纤维到天然状态的恢复。中间状态显示出与淀粉样纤维或天然状态不同的特征。中间状态没有在1318 cm(-1)处显示聚(L-脯氨酸)II 螺旋的特征 ROA 峰。中间状态未恢复水合α-螺旋 ROA 峰。在淀粉样纤维形成过程中,首先将天然胰岛素的水合α-螺旋转化为特定的部分展开结构,然后转化为具有许多转角的平行β-折叠结构。
