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水性蛋白质膜振动和频光谱中蛋白质N-H振动响应的识别。

Identification of the response of protein N-H vibrations in vibrational sum-frequency generation spectroscopy of aqueous protein films.

作者信息

Meister K, Paananen A, Bakker H J

机构信息

AMOLF, Science Park 104, 1098XG Amsterdam, The Netherlands.

出版信息

Phys Chem Chem Phys. 2017 May 3;19(17):10804-10807. doi: 10.1039/c6cp08325k.

Abstract

The N-H stretching vibration is an important probe for investigating structural and functional properties of proteins but is often difficult to analyze as it overlaps with the O-H stretching vibration of water molecules. In this work we investigate the N-H signals of hydrophobins using conventional (VSFG) and heterodyne-detected vibrational sum-frequency generation spectroscopy (HD-VSDG). Hydrophobins represent a group of surface active proteins that form highly-ordered protein films at the water-air interface and that give rise to prominent vibrational modes. We find that in conventional VSFG spectra N-H specific signals show significant changes in shape and intensity upon altering the pH values. These changes can easily be misinterpreted for conformational changes of the protein. Using HD-VSFG experiments, we demonstrate, that for hydrophobin films the change of the N-H response with pH can be well explained from the interference of the N-H response with the broad interfacial water O-H stretch band.

摘要

N-H伸缩振动是研究蛋白质结构和功能特性的重要探针,但由于它与水分子的O-H伸缩振动重叠,往往难以分析。在这项工作中,我们使用传统的(VSFG)和外差检测振动和频产生光谱(HD-VSDG)研究了疏水蛋白的N-H信号。疏水蛋白是一类表面活性蛋白,它们在水-空气界面形成高度有序的蛋白膜,并产生显著的振动模式。我们发现,在传统的VSFG光谱中,改变pH值时,N-H特异性信号在形状和强度上会出现显著变化。这些变化很容易被误解为蛋白质的构象变化。通过HD-VSFG实验,我们证明,对于疏水蛋白膜,N-H响应随pH值的变化可以通过N-H响应与宽界面水O-H伸缩带的干涉得到很好的解释。

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