Computational Study on the Nanotubes Formation between Olsalazine and -Cyclodextrin

RAN Pub Date : 2017-04-01 DOI:10.11159/ICNMS17.101
A. Bani-Yaseen
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Abstract

Extended Abstract Interests in cyclodextrin-derived nano-assembled supramolecular systems have recently grown notably [1,2]. Cyclodextrins are a family of oligosaccharides that possess very characteristic features of conical shape with hydrophobic and hydrophilic interiors and exteriors, respectively. As a host molecule, cyclodextrin (CD) can encapsulate various types of molecules inside its cavity as host-guest supramolecular interaction that is in turn stabilized by non-covalent interactions [3-5]. Under specific conditions, cyclodextrins can self-aggregate to form nanoarchitectures, such as nanotubes and nanorods. However, guest-induced nanotubular architecture can be assembled with gust molecules of suitable size, such as olsalazine drug. The objective of this work is to computationally investigate the formation and the corresponding molecular properties of olsalazine--CD nanotubes using the semi-empirical method (SQM) PM7. Different guest:host ratios of inclusion complexes that can lead to the formation of the olsalazine--CD nanotubes were examined, namely 1:2 and 2:2. Furthermore, the side of penetration of the guest molecule is another factor that is considered herein, where head and tail inclusions correspond to the penetration inside the cavity of -CD through the wide and narrow rims of -CD, respectively. On the other hand, the head-to-head, tail-to-tail, head-to-tail aggregations of -CD nanotubes are considered. The binding energy (Ebind) of the nano suprastructure was calculated using the following formula:
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奥萨拉嗪与-环糊精形成纳米管的计算研究
对环糊精衍生的纳米组装超分子体系的兴趣最近显著增长[1,2]。环糊精是一类低聚糖,具有非常独特的圆锥形特征,内部和外部分别具有疏水性和亲水性。环糊精(cyclodextrin, CD)作为宿主分子,可以将各种类型的分子封装在其空腔内,形成主客体超分子相互作用,并通过非共价相互作用稳定[3-5]。在特定条件下,环糊精可以自聚集形成纳米结构,如纳米管和纳米棒。然而,客人诱导的纳米管结构可以与适当大小的客人分子组装,例如奥萨拉嗪药物。本工作的目的是利用半经验方法(SQM) PM7计算研究奥萨拉嗪-- cd纳米管的形成和相应的分子性质。研究了不同客体:主体比例的包裹体可导致奥萨拉嗪-- cd纳米管的形成,即1:2和2:2。此外,客体分子穿透的侧面是本文考虑的另一个因素,其中头部和尾部包裹体分别对应于通过-CD的宽边缘和窄边缘在-CD的腔内的穿透。另一方面,考虑了-CD纳米管的头对头、尾对尾、头对尾聚集。纳米超结构的结合能(Ebind)由下式计算:
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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RAN
RAN
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