Interaction configurations of H2O molecules absorbed in isolated plant cuticles by infrared spectrometry

Biospectroscopy Pub Date : 1998-12-07 DOI:10.1002/(SICI)1520-6343(1997)3:2<143::AID-BSPY7>3.0.CO;2-8

Yves Maréchal, André Chamel

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引用次数: 10

Abstract

In a previous article, spectrometric arguments were used to determine the two interaction configurations adopted by H₂O molecules present in isolated ivy leaf cuticles which are in equilibrium with atmospheric water molecules. In this article, on the same basis, the configurations of H₂O molecules at a higher concentration of water supplied as a droplet deposited on cuticle surfaces are determined. Addition of heavy water allows us to determine the single alcohol site which exchanges its H atom with a D atom in these conditions. The majority of added molecules which are inserted in the cuticle adopt configurations similar to those of volatile H₂O molecules which are in equilibrium with atmosphere. An appreciable number of molecules, however, display new configurations. These results show the interest of infrared spectrometry in following hydration processes in biological membranes. © 1997 John Wiley & Sons, Inc. Biospect 3: 143–153, 1997

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利用红外光谱分析分离植物角质层吸收的水分子相互作用构型

在之前的一篇文章中，光谱参数被用来确定存在于孤立常春藤叶角质层中的水分子所采用的两种相互作用构型，这些分子与大气中的水分子处于平衡状态。在本文中，在同样的基础上，确定了在更高浓度的水作为液滴沉积在角质层表面时，水分子的构型。重水的加入使我们能够确定在这些条件下将H原子与D原子交换的单个醇位。插入角质层的大多数添加分子的构型与与大气平衡的挥发性H2O分子相似。然而，相当数量的分子显示出新的构型。这些结果显示了红外光谱法在生物膜水化过程中的应用。©1997 John Wiley &儿子,Inc。中国生物医学工程学报(英文版)，1997

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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Biospectroscopy

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