Molecular recognition and crystallization behavior of Lisinopril ester

Crystal Engineering Pub Date : 2001-12-01 DOI:10.1016/S1463-0184(01)00025-9

Yasuyoshi Ueda , Hajime Manabe , Mitsutaka Kitamura , Hirokatsu Masuoka

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Abstract

The influence of the solvent on the crystallization of N²-((S)-1-ethoxycarbonyl-3-phenylpropyl) -N⁶-trifluoroacetyl-L-lysyl-L-proline (Lisinopril ester) was investigated. It was found that Lisinopril ester could be crystallized from about 20 kinds of solvent, all of which had some similarities in molecular structure. The amount of the solvent inside the obtained crystals was approximately 1 to 100 mol% per Lisinopril ester and it was influenced by the molecular form or the bulkiness of the solvent molecule and the kind of substituents present therein. It was recognized that the presence of a suitable substituent in the solvent molecule is essential for crystallization and that there was a possibility that the substituent in the solvent molecule interacts with, at a minimum, the trifluoroacetylamino group in a Lisinopril ester molecule. It is suggested that the above crystallization of Lisinopril ester is a kind of adductive crystallization wherein the host is Lisinopril ester and the guest is the crystallizing solvent itself.

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赖诺普利酯的分子识别与结晶行为

研究了溶剂对N2-(S)-1-乙氧羰基-3-苯丙基)- n6 -三氟乙酰基-l -赖氨酸-l -脯氨酸(赖诺普利酯)结晶的影响。研究发现，赖诺普利酯可从20多种溶剂中结晶，这些溶剂在分子结构上都有一定的相似性。所得晶体内溶剂的含量约为每赖诺普利酯1 ~ 100 mol%，并受溶剂分子的分子形式或体积以及其中存在的取代基种类的影响。人们认识到，在溶剂分子中存在合适的取代基对于结晶是必不可少的，并且溶剂分子中的取代基至少有可能与赖诺普利酯分子中的三氟乙酰氨基相互作用。认为上述赖诺普利酯结晶是一种以赖诺普利酯为主体，以结晶溶剂本身为客体的内收结晶。

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Crystal Engineering

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