具有取代三唑的核碱基修饰胞苷的水凝胶化能力。

David W Dodd, Nathan D Jones, Robert He Hudson
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引用次数: 3

摘要

核苷衍生的水凝胶已被寻求其潜在的生物医学应用,如在组织工程和药物输送中发现。通过适当地添加一定程度的疏水性,某些类似物能够在水中形成胶束、双层和凝胶。该领域的研究尚未为新型核苷凝胶的合理设计奠定坚实的基础规则,因此进一步的研究是必要的。一系列芳基取代的5-三唑基胞苷的合成和检测得到了一种类似物,它能使水凝胶化。发现5-(1-(2,2′-双噻吩-3-基)- 1h -1,2,3-三唑-4-基)-2′-脱氧胞苷在低至0.3 wt%的水中形成凝胶。核糖苷类似物在水溶液中不能形成凝胶;但是能够在鸟苷的存在下形成水凝胶。扫描电镜图像显示了凝胶的不同结构;从筛板状到纤维状到板状不等。本研究的凝胶化合物可能有潜力作为控释药物递送系统的组成部分。
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Hydrogelation abilities of nucleobase-modified cytidines possessing substituted triazoles.

Nucleoside-derived hydrogelators have been sought for their potential biomedical applications, such as are found in tissue engineering and drug delivery. By judiciously adding a degree of hydrophobicity certain analogues are able to form micelles, bi-layers and gels in water. Research in this area has yet to lay down solid ground rules for the rational design of novel nucleoside gelators making further studies necessary. The synthesis and examination of a series of aryl-substituted 5-triazolylcytidines yielded an analogue that gelates water. 5-(1-(2,2'-bithiophen-3-yl)-1H-1,2,3-triazol-4-yl)-2'-deoxycytidine was found to form gels in water down to 0.3 wt%. The ribocytidine analogue failed to form gel in aqueous solution; but was able to form a hydrogel in the presence of guanosine. Images obtained by SEM show the different architectures of the gel; varying from cribriform to fibrous to lamellar. The present gelating compound studied may have potential as a component of a controlled-release drug delivery system.

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