氯过氧化物酶化合物II中的氧代铁（IV）呈碱性：对细胞色素P450化学的启示。

Oxoiron(IV) in chloroperoxidase compound II is basic: implications for P450 chemistry.

作者信息

Green Michael T, Dawson John H, Gray Harry B

机构信息

Department of Chemistry, Pennsylvania State University, PA 16802, USA.

出版信息

Science. 2004 Jun 11;304(5677):1653-6. doi: 10.1126/science.1096897.

DOI:10.1126/science.1096897

PMID:15192224

Abstract

With the use of x-ray absorption spectroscopy, we have found that the Fe-O bond in chloroperoxidase compound II (CPO-II) is much longer than expected for an oxoiron(IV) (ferryl) unit; notably, the experimentally determined bond length of 1.82(1) A accords closely with density functional calculations on a protonated ferryl (Fe(IV)-OH, 1.81 A). The basicity of the CPO-II ferryl [pKa > 8.2 (where Ka is the acid dissociation constant)] is attributable to strong electron donation by the axial thiolate. We suggest that the CPO-II protonated ferryl is a good model for the rebound intermediate in the P450 oxygenation cycle;with elevated pKa values after one-electron reduction, thiolate-ligated ferryl radicals are competent to oxygenate saturated hydrocarbons at potentials that can be tolerated by folded polypeptide hosts.

摘要

通过使用X射线吸收光谱法，我们发现氯过氧化物酶化合物II（CPO-II）中的Fe-O键比氧合铁（IV）（高铁）单元预期的要长得多；值得注意的是，实验测定的键长为1.82(1) Å，与质子化高铁（Fe(IV)-OH，1.81 Å）的密度泛函计算结果非常吻合。CPO-II高铁的碱性[pKa > 8.2（其中Ka是酸解离常数）]归因于轴向硫醇盐的强电子给予作用。我们认为CPO-II质子化高铁是P450氧化循环中反弹中间体的良好模型；单电子还原后pKa值升高，硫醇盐连接的高铁自由基能够在折叠多肽宿主可耐受的电位下氧化饱和烃。

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氯过氧化物酶化合物II中的氧代铁（IV）呈碱性：对细胞色素P450化学的启示。

Oxoiron(IV) in chloroperoxidase compound II is basic: implications for P450 chemistry.

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