铜离子对硫代亚硝基硫醇中RS-NO键解离能的影响。

Influence of Cu+ on the RS-NO bond dissociation energy of S-nitrosothiols.

作者信息

Baciu Cristina, Cho Kyung-Bin, Gauld James W

机构信息

Department of Chemistry and Biochemistry, University of Windsor, Windsor, Ontario N9B 3P4, Canada.

出版信息

J Phys Chem B. 2005 Feb 3;109(4):1334-6. doi: 10.1021/jp0443759.

DOI:10.1021/jp0443759

PMID:16851099

Abstract

Density functional theory methods have been used to investigate the role and effects of Cu+ binding to the S and N centers of the -SNO functional group within S-nitrosothiols (RSNOs), on the lability of the NO group. The binding of Cu+ to the S center is found to weaken the S-N bond, while the N-O bond is concomitantly strengthened, consistent with the notion that Cu+ binding catalyzes NO radical release. In contrast, however, the binding of Cu+ to the N center is found to dramatically shorten and strengthen the S-N bond with a concomitant lengthening of the N-O bond, suggesting stabilization of the RSNOs against NO release. Upon solvation, complexes with Cu+ bound to the N center are stabilized relative to the corresponding S-bound complexes, though remaining slightly higher in energy. The barriers to interconversion between corresponding isomers were also investigated. Implications for biochemical regulation of NO release from RSNOs are discussed.

摘要

密度泛函理论方法已被用于研究铜离子（Cu⁺）与亚硝基硫醇（RSNOs）中-SNO官能团的硫（S）和氮（N）中心结合对NO基团稳定性的作用及影响。研究发现，Cu⁺与S中心的结合会削弱S-N键，同时N-O键会相应增强，这与Cu⁺结合催化NO自由基释放的观点一致。然而，相比之下，Cu⁺与N中心的结合会显著缩短并增强S-N键，同时N-O键会延长，这表明RSNOs对NO释放具有稳定性。溶剂化后，与N中心结合Cu⁺的配合物相对于相应的与S结合的配合物更稳定，尽管其能量仍略高。还研究了相应异构体之间相互转化的势垒。讨论了其对RSNOs释放NO的生化调节的影响。

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铜离子对硫代亚硝基硫醇中RS-NO键解离能的影响。

Influence of Cu+ on the RS-NO bond dissociation energy of S-nitrosothiols.

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