Quantitative Explanation of Retention Mechanisms in Reversed-phase Mode Liquid Chromatography, and Utilization of Typical Reversed-phase Liquid Chromatography for Drug Discovery

T. Hanai
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引用次数: 5

Abstract

The retention mechanism in reversed-phase liquid chromatography was quantitatively described using log P (octanol-water partition coefficient). The hydrophobic (lipophilic) interaction liquid chromatography was then used to measure the hydrophobicity of a variety of compounds. Furthermore, the technique has been used as an analytical method to determine molecular properties during the drug discovery process. However, log P values cannot be applied to other chromatographic techniques. Therefore, the direct calculation of molecular interactions was proposed to describe the general retention mechanisms in chromatography. The retention mechanisms in reversed-phase liquid chromatography were quantitatively described in silico by using simple model compounds and phases. The competitive interactions between a bonded-phase and a solvent phase clearly demonstrated the retention mechanisms in reversed-phase liquid chromatography. Chromatographic behavior of acidic drugs on a pentyl-, an octyl-, and a hexenyl-phase was quantitatively described in the in silico analysis. Their retention was based on their hydrophobicity, and hydrogen bonding and electrostatic interaction were selectivity of the hexenyl-phase. This review focuses on the quantitative explanation of the retention mechanisms in reversed-phase liquid chromatography and the practical applications in drug discovery.
反相模式液相色谱保留机制的定量解释及典型反相液相色谱在药物发现中的应用
用log P(辛醇-水分配系数)定量描述了辛醇-水在反相液相色谱中的保留机理。然后用疏水(亲脂)相互作用液相色谱法测定了各种化合物的疏水性。此外,该技术已被用作药物发现过程中确定分子性质的分析方法。然而,对数P值不能应用于其他色谱技术。因此,提出了直接计算分子相互作用来描述色谱中一般的保留机制。用简单模型化合物和相对反相液相色谱中的保留机理进行了定量描述。结合相和溶剂相之间的竞争性相互作用清楚地证明了反相液相色谱中的保留机制。在硅分析中定量描述了酸性药物在戊基、辛基和己基相上的色谱行为。它们的保留是基于它们的疏水性,氢键和静电相互作用是对己基相的选择性。本文综述了反相液相色谱保留机制的定量解释及其在药物发现中的实际应用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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