关于一氧化氮与带有中性轴向配体的铁卟啉和亚铁卟啉结合时观察到的键长变化的见解。

Insights into the Observed -Bond Length Variations upon NO Binding to Ferric and Ferrous Porphyrins with Neutral Axial Ligands.

作者信息

Khade Rahul L, Abucayon Erwin G, Powell Douglas R, Richter-Addo George B, Zhang Yong

机构信息

Department of Chemistry and Chemical Biology, Stevens Institute of Technology, Castle Point on Hudson, Hoboken, New Jersey 07030, Unites States.

Price Foundation Institute of Structural Biology and Department of Chemistry and Biochemistry, University of Oklahoma, 101 Stephenson Parkway, Norman, Oklahoma 73019, United States.

出版信息

ACS Omega. 2021 Sep 15;6(38):24777-24787. doi: 10.1021/acsomega.1c03610. eCollection 2021 Sep 28.

DOI:10.1021/acsomega.1c03610

PMID:34604659

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8482462/

Abstract

NO is well-known for its effect. NO binding to ferrous hemes of the form (por)Fe(L) (L = neutral N-based ligand) to give the {FeNO} (por)Fe(NO)(L) product results in a lengthening of the axial Fe-L bond. In contrast, NO binding to the ferric center in [(por)Fe(L)] to give the {FeNO} [(por)Fe(NO)(L)] product results in a shortening of the Fe-L bond. NO binding to both ferrous and ferric centers involves the lowering of their spin states. Density functional theory (DFT) calculations were used to probe the experimentally observed -bond shortening in some NO adducts of ferric porphyrins. We show that the strong σ antibonding interaction of d and the axial (L) ligand p orbitals present in the Fe(II) systems is absent in the Fe(III) systems, as it is now in an unoccupied orbital. This feature, combined with a lowering of spin state upon NO binding, provides a rationale for the observed net -bond shortening in the {FeNO} but not the {FeNO} derivatives.

摘要

一氧化氮（NO）因其作用而闻名。NO与形式为(por)Fe(L)（L = 中性含氮配体）的亚铁血红素结合，生成{FeNO}(por)Fe(NO)(L)产物，导致轴向Fe-L键延长。相比之下，NO与[(por)Fe(L)]中的铁中心结合，生成{FeNO}[(por)Fe(NO)(L)]产物，导致Fe-L键缩短。NO与亚铁和铁中心的结合都涉及它们自旋态的降低。密度泛函理论（DFT）计算用于探究在一些铁卟啉的NO加合物中实验观察到的σ键缩短现象。我们表明，Fe(II)体系中存在的d与轴向（L）配体p轨道的强σ反键相互作用在Fe(III)体系中不存在，因为它现在处于未占据轨道。这一特征，结合NO结合时自旋态的降低，为在{FeNO}衍生物中观察到的净σ键缩短提供了一个解释，但在{FeNO}衍生物中却没有。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/0954/8482462/1ca9f693af6f/ao1c03610_0002.jpg

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关于一氧化氮与带有中性轴向配体的铁卟啉和亚铁卟啉结合时观察到的键长变化的见解。

Insights into the Observed -Bond Length Variations upon NO Binding to Ferric and Ferrous Porphyrins with Neutral Axial Ligands.

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