Allosterically regulated DNA-based switches: From design to bioanalytical applications

Rossetti Marianna; Porchetta Alessandro

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Allosterically regulated DNA-based switches: From design to bioanalytical applications

机译：基于模拟的基于DNA的交换机：从设计到生物分析应用

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DNA-based switches are structure-switching biomolecules widely employed in different bioanalytical applications. Of particular interest are DNA-based switches whose activity is regulated through the use of allostery. Allostery is a naturally occurring mechanism in which ligand binding induces the modulation and fine control of a connected biomolecule function as a consequence of changes in concentration of the effector. Through this general mechanism, many different allosteric DNA-based switches able to respond in a highly controlled way at the presence of a specific molecular effector have been engineered. Here, we discuss how to design allosterically regulated DNA-based switches and their applications in the field of molecular sensing, diagnostic and drug release. (C) 2018 Published by Elsevier B.V.

机译：基于DNA的开关是在不同生物分析应用中广泛使用的结构切换生物分子。特别感兴趣的是基于DNA的交换机，其活动通过仿生而受到调节。构象是一种天然存在的机理，其中配体结合引起所连接的生物分子函数的调节和精细控制作为效应浓度的变化。通过这种通用机制，已经设计了许多能够在特定分子效应器的存在下以高度受控方式响应的基于不同的构胞DNA的开关。在这里，我们讨论如何在分子传感，诊断和药物释放领域设计分析调节的基于DNA的交换机及其应用。（c）2018由elsevier b.v发布。

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来源
《Analytica chimica acta》 |2018年第2018期|共12页
作者
Rossetti Marianna; Porchetta Alessandro;
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作者单位

Univ Roma Tor Vergata Chem Dept Via Ric Sci I-00133 Rome Italy;

Univ Roma Tor Vergata Chem Dept Via Ric Sci I-00133 Rome Italy;

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原文格式 PDF
正文语种 eng
中图分类分析化学;
关键词
DNA nanotechnology; DNA-Based switches; Allostery;

机译：DNA纳米技术;基于DNA的交换机;仿生;

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专利

1. Allosterically regulated DNA-based switches: From design to bioanalytical applications [J] . Rossetti Marianna, Porchetta Alessandro Analytica chimica acta . 2018,第期

机译：基于模拟的基于DNA的交换机：从设计到生物分析应用
2. Allosterically Tunable, DNA-Based Switches Triggered by Heavy Metals [J] . Alessandro Porchetta, Alexis Vallee-Belisle, Kevin W. Plaxco, Journal of the American Chemical Society . 2013,第36期

机译：重金属触发变构可调的基于DNA的开关
3. DNA-based bioanalytical microsystems for handheld device applications [J] . Thomas Ming-Hung Lee, I-Ming Hsing Analytica chimica acta . 2006,第1期

机译：用于手持设备应用的基于DNA的生物分析微系统
4. Application of a generalized MWC model for the mathematical simulation of metabolic pathways regulated by allosteric enzymes [C] . Najdi, T.S., Yang, . 2005

机译：广义MWC模型在变构酶调控的代谢途径数学模拟中的应用
5. The Design of Allosterically Regulated Protein Catalysts. [D] . Caselle, Elizabeth Anne. 2016

机译：变构调控蛋白催化剂的设计。
6. DNA-based bioanalytical microsystems for handheld device applications [O] . Thomas Ming-Hung Lee, I-Ming Hsing -1

机译：用于手持设备的基于DNA的生物分析微系统
7. Allosterically Tunable, DNA-Based Switches Triggered by Heavy Metals [O] . Porchetta A, Vallée-Bélisle A, Plaxco K, 2013

机译：重金属触发变构可调的基于DNA的开关
8. Design and application of gas-gap heat switches [R] . Chan, C. K., Ross, R. G., Jr. 1990

机译：气隙热开关的设计与应用

Allosterically regulated DNA-based switches: From design to bioanalytical applications

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