Guanosine Hydrogen-Bonded Scaffolds: A New Way to Control the Bottom-Up Realisation of Well-Defined Nanoarchitectures

Stefano Lena; Stefano Masiero; Silvia Pieraccini; Gian Piero Spada

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Guanosine Hydrogen-Bonded Scaffolds: A New Way to Control the Bottom-Up Realisation of Well-Defined Nanoarchitectures

机译：鸟嘌呤氢键合支架：控制良好定义的纳米体系结构自下而上实现的新方法

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Over the last two decades, guanosine-related molecules have been of interest in different areas, ranging from structural biology to medicinal chemistry, supramolecular chemistry and nanotechnology. The guanine base is a multiple hydrogen-bonding unit, capable also of binding to cations, and fits very well with contemporary studies in supramolecular chemistry, self-assembly and non-covalent synthesis. This Concepts article, after reviewing on the diversification of self-organised assemblies from guanosine-based low-molecularweight molecules, will mainly focus on the use of guanine moiety as a potential scaffold for designing functional materials of tailored physical properties.

机译：在过去的二十年中，鸟嘌呤相关分子在不同领域受到关注，从结构生物学到药物化学，超分子化学和纳米技术。鸟嘌呤碱基是多个氢键结合单元，也能够与阳离子结合，非常适合超分子化学，自组装和非共价合成的当代研究。在回顾了基于鸟嘌呤的低分子量分子的自组织组装的多样性之后，这篇Concepts文章将主要关注鸟嘌呤部分作为潜在的支架来设计个性化的物理性能的功能材料。

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《Chemistry: A European journal》 |2009年第32期|共15页
作者
Stefano Lena; Stefano Masiero; Silvia Pieraccini; Gian Piero Spada;
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原文格式 PDF
正文语种 eng
中图分类应用化学;
关键词
chirality; functional materials; guanosine; self-assembly; supramolecular chemistry;

机译：手性;功能材料;鸟苷;自组装;超分子化学;

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1. Guanosine Hydrogen-Bonded Scaffolds: A New Way to Control the Bottom-Up Realisation of Well-Defined Nanoarchitectures [J] . Stefano Lena, Stefano Masiero, Silvia Pieraccini, Chemistry: A European journal . 2009,第32期

机译：鸟嘌呤氢键合支架：控制良好定义的纳米体系结构自下而上实现的新方法
2. Enzymatic Synthesis of ~(18)O(6)-Guanosine and Spectroscopic Characterization of Hoogsteen and Reverse Hoogsteen Hydrogen-bonded Guanosine Structures [J] . Arantxa Rodriguez-Casado, Pedro Carmona, Marina Molina The journal of physical chemistry, B. Condensed matter, materials, surfaces, interfaces & biophysical . 1998,第27期

机译：〜（18）O（6）-Guansine的酶法合成及Hoogsteen和反向Hoogsteen氢键鸟苷结构的光谱表征
3. Two-Dimensional Hydrogen-Bonded Nanoarchitecture Composed of Rectangular 3,4,9,10-Perylenetetracarboxylic Diimide and Boomerang-Shaped Molecules Resulting from the Dissociation of 1,3,5-Tris(4-aminophenyl)benzene [J] . Jeremy Hieulle, Fabien Silly ACS Omega . 2020,第8期

机译：由矩形3,4,9,10-二乙醛二酰亚胺组成的二维氢键合纳米建筑，其由1,3,5-三（4-氨基苯基）苯的解离引起的血管状分子
4. RHEOLOGICAL CHARACTERIZATION OF DYNAMIC RE-ENGINEERING OF THE PERICELLULAR REGION BY HUMAN MESENCHYMAL STEM CELL-SECRETED ENZYMES IN WELL-DEFINED HYDROGEL SCAFFOLDS [C] . Kelly M. Schultz, Maryam Daviran, John McGlynn Conference on colloidal, macromolecular biological gels . 2019

机译：人间充质干细胞分泌的酶在定义良好的水凝胶骨架中对细胞周围区域进行动态重新工程的流变学表征
5. Development of well-defined periodontal scaffolds consisting of poly(lactic-co-glycolic acid) and bacteria cellulose. [D] . Aurangabadkar, Tejashri. 2007

机译：明确定义的由聚乳酸-乙醇酸和细菌纤维素组成的牙周支架的开发。
6. Two-Dimensional Hydrogen-Bonded Nanoarchitecture Composedof Rectangular 34910-Perylenetetracarboxylic Diimide and Boomerang-ShapedMolecules Resulting from the Dissociation of 135-Tris(4-aminophenyl)benzene [O] . Jeremy Hieulle, Fabien Silly 2020

机译：二维氢键结合纳米结构矩形34910-Per四甲酸二亚胺和回旋镖形135-三（4-氨基苯基）苯的解离产生的分子
7. Bottom-up nanoarchitectures of semiconductor nano-building blocks obtained via a controllable in situ SEM-FIB thermal soldering method [O] . Xuan Zhang, Xiujun Zheng, Hong Zhang, 2017

机译：通过可控原位SEM-FIB热焊接方法获得的半导体纳米积木的自下而上的纳米建筑

Guanosine Hydrogen-Bonded Scaffolds: A New Way to Control the Bottom-Up Realisation of Well-Defined Nanoarchitectures

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