六配位亚铁血红素亚硝酰基的振动归属：核共振振动光谱的新见解

Vibrational assignments of six-coordinate ferrous heme nitrosyls: new insight from nuclear resonance vibrational spectroscopy.

作者信息

Paulat Florian, Berto Timothy C, DeBeer George Serena, Goodrich Lauren, Praneeth V K K, Sulok Corinne D, Lehnert Nicolai

机构信息

Department of Chemistry, The University of Michigan, 930 N. University, Ann Arbor, Michigan 48109-1055, USA.

出版信息

Inorg Chem. 2008 Dec 15;47(24):11449-51. doi: 10.1021/ic801626w.

DOI:10.1021/ic801626w

PMID:18998631

Abstract

This Communication addresses a long-standing problem: the exact vibrational assignments of the low-energy modes of the Fe-N-O subunit in six-coordinate ferrous heme nitrosyl model complexes. This problem is addressed using nuclear resonance vibrational spectroscopy (NRVS) coupled to (15)N(18)O isotope labeling and detailed simulations of the obtained data. Two isotope-sensitive features are identified at 437 and 563 cm(-1). Normal coordinate analysis shows that the 437 cm(-1) mode corresponds to the Fe-NO stretch, whereas the 563 cm(-1) band is identified with the Fe-N-O bend. The relative NRVS intensities of these features determine the degree of vibrational mixing between the stretch and the bend. The implications of these results are discussed with respect to the trans effect of imidazole on the bound NO. In addition, a comparison to myoglobin-NO (Mb-NO) is made to determine the effect of the Mb active site pocket on the bound NO.

摘要

本通讯解决了一个长期存在的问题

六配位亚铁血红素亚硝酰基模型配合物中Fe-N-O亚基低能模式的精确振动归属。利用核共振振动光谱（NRVS）结合(^{15}N^{18}O)同位素标记以及对所得数据的详细模拟来解决这个问题。在437和563 (cm^{-1})处识别出两个同位素敏感特征。简正坐标分析表明，437 (cm^{-1})模式对应于Fe-NO伸缩振动，而563 (cm^{-1})谱带被确定为Fe-N-O弯曲振动。这些特征的相对NRVS强度决定了伸缩振动和弯曲振动之间的振动混合程度。讨论了这些结果对于咪唑对结合的NO的反位效应的影响。此外，与肌红蛋白-NO（Mb-NO）进行了比较，以确定Mb活性位点口袋对结合的NO的影响。

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六配位亚铁血红素亚硝酰基的振动归属：核共振振动光谱的新见解

Vibrational assignments of six-coordinate ferrous heme nitrosyls: new insight from nuclear resonance vibrational spectroscopy.

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本通讯解决了一个长期存在的问题

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