Self-assembly of Congo Red—A theoretical and experimental approach to identify its supramolecular organization in water and salt solutions

刚果红 化学 堆积 结晶学 超分子化学 分子 差示扫描量热法 氢键 质子核磁共振 化学物理 立体化学 有机化学 晶体结构 热力学 吸附 物理
作者
M. Skowronek,Barbara Stopa,Leszek Konieczny,J Rybarska,Barbara Piekarska,Edward Szneler,Grzegorz Bakalarski,Irena Roterman
出处
期刊:Biopolymers [Wiley]
卷期号:46 (5): 267-281 被引量:89
标识
DOI:10.1002/(sici)1097-0282(19981015)46:5<267::aid-bip1>3.0.co;2-n
摘要

The supramolecular organization of Congo Red molecules was studied to approach an understanding of the unusual complexation characteristics associated with the liquid crystalline nature of this dye. Differential scanning calorimetry (DSC) and nmr data indicate that Congo Red assembly arrangements differ in water and salt solutions. Compact, highly ordered material with a distinct melting transition is created, but not below 0.3% sodium chloride concentration. The twist in the assembly arrangement of Congo Red molecules, caused in water by repulsion, decreases when the charges are shielded, allowing for more overlapping of the naphthalene rings and their engagement in stacking interaction. The crystallization transition observed in DSC analysis of Congo Red fast-assembled by cooling in salt solutions indicates that the formation of compact crystalline mesophase material is a time-consuming process in which coplanarity and a highly ordered organization must be achieved. Two different superposition variants, called "direct" and "reversed" here, were considered fundamental to compact Congo Red organization. They correspond to optimal face-to-face ring stackings, and are formed by simple direct translation or alternative imposition of reversed (180° rotated) molecules, respectively. In NaCl solution (2.8%) there is a significant downfield chemical shift alteration of the nmr signal related to proton 8, which is in the naphthalene ring on the side opposite to the charged sulfonic group. It was associated selectively with the transition of Congo Red to compact form. This effect confirms the close approach of the sulfonic groups and proton 8, and indicates that formation of the reversed arrangement is favored in the Congo Red supramolecular organization. Molecular dynamics simulation based on AMBER 4.1 force field and analysis of electrostatic field densities around the molecule were used for comparative modeling. Molecular dynamics (150 ps) were simulated for two eight-molecule micelle models constructed to reflect direct and reversed arrangements of Congo Red molecules. Although both versions generally preserved their initial assembly structure in the simulations, the reversed version proved more stable. The proximity of the sulfonic group and proton 8, confirmed by computer analysis, explains the correlation between the formation of Congo Red micellar organization and the distinct shift alteration related to this proton, as found by nmr. © 1998 John Wiley & Sons, Inc. Biopoly 46: 267–281, 1998

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