The mechanistic basis for warfarin’s structural diversity and implications for its bioavailability

Journal of Molecular Structure-theochem Pub Date : 2010-10-30 DOI:10.1016/j.theochem.2010.07.018
Henning Henschel , Björn C.G. Karlsson , Annika M. Rosengren , Ian A. Nicholls
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引用次数: 13

Abstract

The anticoagulent drug warfarin exhibits chameleon-like isomerism, where the environment-dependent composition of the ensemble of structures greatly influences its bioavailability. Here, the mechanism of conversion between the major isomeric forms is studied. The dramatic differences in transition state energies, as determined by density functional calculations, highlight the necessity for the involvement of intermolecular interactions in the key proton transfer step. A viable model for the mechanism underlying the isomerization reactions is presented.

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华法林结构多样性的机制基础及其对生物利用度的影响
抗凝药物华法林表现出变色龙样的异构体,其结构集合的环境依赖性组成极大地影响了其生物利用度。本文研究了主要同分异构体之间的转化机理。由密度泛函计算确定的过渡态能量的巨大差异,突出了在关键的质子转移步骤中参与分子间相互作用的必要性。提出了异构化反应机理的可行模型。
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来源期刊
Journal of Molecular Structure-theochem
Journal of Molecular Structure-theochem 化学-物理化学
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