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Structure of poly(ethylene glycol)-modified horseradish peroxidase in organic solvents: infrared amide I spectral changes upon protein dehydration are largely caused by protein structural changes and not by water removal per se.

机译：有机溶剂中聚乙二醇修饰的辣根过氧化物酶的结构：蛋白质脱水后的红外酰胺I光谱变化在很大程度上是由蛋白质结构变化引起的而不是由本身的水分去除引起的。

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Fourier transform infrared (FTIR) spectroscopy has emerged as a powerful tool to guide the development of stable lyophilized protein formulations by providing information on the structure of proteins in amorphous solids. The underlying assumption is that IR spectral changes in the amide I and III region upon protein dehydration are caused by protein structural changes. However, it has been claimed that amide I IR spectral changes could be the result of water removal per se. Here, we investigated whether such claims hold true. The structure of horseradish peroxidase (HRP) and poly(ethylene glycol)-modified HRP (HRP-PEG) has been investigated under various conditions (in aqueous solution, the amorphous dehydrated state, and dissolved/suspended in toluene and benzene) by UV-visible (UV-Vis), FTIR, and resonance Raman spectroscopy. The resonance Raman and UV-Vis spectra of dehydrated HRP-PEG dissolved in neat toluene or benzene were very similar to that of HRP in aqueous buffer, and thus the heme environment (heme iron spin, coordination, and redox state) was essentially the same under both conditions. Therefore, the three-dimensional structure of HRP-PEG dissolved in benzene and toluene was similar to that in aqueous solution. The amide I IR spectra of HRP-PEG in aqueous buffer and of dehydrated HRP-PEG dissolved in neat benzene and toluene were also very similar, and the secondary structure compositions (percentages of alpha-helices and beta-sheets) were within the standard error the same. These results are irreconcilable with recent claims that water removal per se could cause substantial amide I IR spectral changes (M. van de Weert, P.I. Haris, W.E. Hennink, and D.J. Crommelin. 2001. Anal. Biochem. 297:160-169). On the contrary, amide I IR spectral changes upon protein dehydration are caused by perturbations in the secondary structure.

机译：通过提供有关无定形固体中蛋白质结构的信息，傅里叶变换红外（FTIR）光谱已成为引导稳定的冻干蛋白质制剂发展的强大工具。基本假设是蛋白质脱水后酰胺I和III区域的IR光谱变化是由蛋白质结构变化引起的。然而，已经声称酰胺I IR光谱变化可能是水本身去除的结果。在这里，我们调查了这种说法是否成立。辣根过氧化物酶（HRP）和聚（乙二醇）改性的HRP（HRP-PEG）的结构已在各种条件下（在水溶液中，无定形脱水状态，溶解/悬浮在甲苯和苯中）通过UV-可见光（UV-Vis），FTIR和共振拉曼光谱。溶于纯甲苯或苯中的脱水HRP-PEG的共振拉曼光谱和UV-Vis谱图与水性缓冲液中的HRP谱非常相似，因此血红素环境（血红素铁的自旋，配位和氧化还原状态）基本相同在两种情况下。因此，HRP-PEG溶于苯和甲苯的三维结构与水溶液相似。水性缓冲液中的HRP-PEG以及溶于纯苯和甲苯中的脱水HRP-PEG的酰胺I IR光谱也非常相似，二级结构组成（α-螺旋和β-折叠的百分比）在标准误差范围内相同。这些结果与最近的声称脱水本身会引起酰胺I IR光谱变化的说法不符（M. van de Weert，P.I。Haris，W.E。Hennink和D.J. Crommelin。2001. Anal。Biochem。297：160-169）。相反，蛋白质脱水后酰胺I IR光谱的变化是由二级结构的扰动引起的。

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期刊名称 Biophysical Journal
作者
Wasfi Al-Azzam; Emil A Pastrana; Yancy Ferrer; Qing Huang; Reinhard Schweitzer-Stenner; Kai Griebenow;
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作者单位

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年(卷),期 2002(83),6
年度 2002
页码 3637–3651
总页数 15
原文格式 PDF
正文语种
中图分类生物物理学;
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7. Structure of poly(ethylene glycol)-modified horseradish peroxidase in organic solvents: infrared amide I spectral changes upon protein dehydration are largely caused by protein structural changes and not by water removal per se. [O] . Al-Azzam, Wasfi, Pastrana, Emil A, Ferrer, Yancy, 2002

机译：有机溶剂中聚乙二醇修饰的辣根过氧化物酶的结构：蛋白质脱水后的红外酰胺I光谱变化主要是由蛋白质结构变化引起的，而不是由本身的水分去除引起的。

Structure of poly(ethylene glycol)-modified horseradish peroxidase in organic solvents: infrared amide I spectral changes upon protein dehydration are largely caused by protein structural changes and not by water removal per se.

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