Quantitative Measurement of Spatial Effects of DNA Origami on Molecular Binding Reactions Detected using Atomic Force Microscopy

Zhang Ping; Wang Fei; Liu Wenjing; Mao Xiuhai; Hao Changchun; Zhang Yi; Fan Chunhai; Hu Jun; Wang Lihua; Li Bin

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Quantitative Measurement of Spatial Effects of DNA Origami on Molecular Binding Reactions Detected using Atomic Force Microscopy

机译：DNA折纸对使用原子力显微镜检测到分子结合反应的空间效应的定量测量

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DNA origami is a ubiquitous nanostructure that can be used as a universal scaffold for constructing molecular motors, nanosensors, nanodrugs, and optical devices. Understanding the inherent heterogeneity of DNA origami structures is crucial for optimizing the design of high-efficiency nanosized-devices. Here, we investigated the spatial effects of the DNA origami on binding reactions using atomic force microscopy. Protein complexes formed more efficiently at the vertex and rim than on the surface of the DNA origami; surprisingly, the maximum difference in biotin-streptavidin binding efficiency was over 80%, and the change in the binding rate was approximately 40-fold, suggesting the presence of distinct microenvironments at different locations of the DNA origami. Our findings are not only useful for the potential applications of the DNA origami, but also for clarifying differences in nanomaterials caused by nonuniform distribution or defects.

机译：DNA Origami是一种普遍存在的纳米结构，可用作构建分子马达，纳米调传料，纳米树木和光学装置的通用支架。理解DNA折纸结构的固有异质性对于优化高效纳米装置的设计至关重要。在这里，我们研究了DNA折纸对使用原子力显微镜的结合反应的空间效应。蛋白质复合物在顶点和边缘比在DNA折纸的表面上更有效地形成; 令人惊讶的是，生物素 - 链霉抗生物素蛋白结合效率的最大差异超过80％，结合率的变化约为40倍，表明在DNA折纸的不同位置存在明显的微环境。我们的发现不仅适用于DNA折纸的潜在应用，而且还用于澄清由非均匀分布或缺陷引起的纳米材料的差异。

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《ACS applied materials & interfaces》 |2019年第24期|共9页
作者
Zhang Ping; Wang Fei; Liu Wenjing; Mao Xiuhai; Hao Changchun; Zhang Yi; Fan Chunhai; Hu Jun; Wang Lihua; Li Bin;
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作者单位

Chinese Acad Sci Shanghai Inst Appl Phys Div Phys Biol Shanghai 201800 Peoples R China;

Shanghai Jiao Tong Univ Sch Chem &

Chem Engn Shanghai 200240 Peoples R China;

Chinese Acad Sci Shanghai Inst Appl Phys Div Phys Biol Shanghai 201800 Peoples R China;

Shanghai Jiao Tong Univ Sch Chem &

Chem Engn Shanghai 200240 Peoples R China;

Shaanxi Normal Univ Coll Phys &

Informat Technol Lab Biophys &

Biomed Xian 710062 Shaanxi Peoples R China;

Chinese Acad Sci Shanghai Inst Appl Phys Div Phys Biol Shanghai 201800 Peoples R China;

Chinese Acad Sci Shanghai Inst Appl Phys Div Phys Biol Shanghai 201800 Peoples R China;

Chinese Acad Sci Shanghai Inst Appl Phys Div Phys Biol Shanghai 201800 Peoples R China;

Chinese Acad Sci Shanghai Inst Appl Phys Div Phys Biol Shanghai 201800 Peoples R China;

Chinese Acad Sci Shanghai Inst Appl Phys Div Phys Biol Shanghai 201800 Peoples R China;

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正文语种 eng
中图分类化学工业;
关键词
DNA origami; spatial effect; atomic force microscopy; binding reaction; binding efficiency; binding rate;

机译：DNA Origami;空间效果;原子力显微镜;结合反应;结合效率;结合率;

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专利

1. Quantitative Measurement of Spatial Effects of DNA Origami on Molecular Binding Reactions Detected using Atomic Force Microscopy [J] . Zhang Ping, Wang Fei, Liu Wenjing, ACS applied materials & interfaces . 2019,第24期

机译：DNA折纸对使用原子力显微镜检测到分子结合反应的空间效应的定量测量
2. Molecular Processes Studied at a Single-Molecule Level Using DNA Origami Nanostructures and Atomic Force Microscopy [J] . Bald Ilko, Keller Adrian Molecules . 2014,第9期

机译：使用DNA折纸纳米结构和原子力显微镜研究单分子水平的分子过程
3. Molecular Processes Studied at a Single-Molecule Level Using DNA Origami Nanostructures and Atomic Force Microscopy [J] . Adrian Keller, Ilko Bald Molecules . 2014,第9期

机译：使用DNA折纸纳米结构和原子力显微镜研究单分子水平的分子过程
4. Mapping site-specific endonuclease binding to DNA by direct imaging with atomic force microscopy (AFM) [C] . Author(s): David P. Allison Oak Ridge National Lab. Oak Ridge TN USA, Thomas G. Thundat Oak Ridge National Lab. Oak Ridge TN USA, P.Modrich Duke Univ. Medical Ctr. Durham NC USA, Ultrasensitive Instrumentation for DNA Sequencing and Biochemical Diagnostics . 1995

机译：通过原子力显微镜（AFM）的直接成像来定位与DNA结合的位点特异性核酸内切酶
5. Forced translocation of DNA hairpins through a tight molecular nanopore studied by atomic force microscopy in force-spectroscopy mode. [D] . Ashcroft, Brian Alan. 2007

机译：DNA发夹通过紧密分子纳米孔的强制移位，通过原子力显微镜在力谱模式下研究。
6. Modeling of DNA binding to the condensin hinge domain using molecular dynamics simulations guided by atomic force microscopy [O] . Hiroki Koide, Noriyuki Kodera, Shveta Bisht, 2021

机译：用原子力显微镜引导的分子动力学模拟模拟DNA与凝结铰链结构域的模拟
7. Quantitative Assessment of Tip Effects in Single‐Molecule High‐Speed Atomic Force Microscopy Using DNA Origami Substrates [O] . Charlotte Kielar, Siqi Zhu, Guido Grundmeier, 2020

机译：使用DNA折纸基材的单分子高速原子力显微镜中尖端效应的定量评估
8. Imaging and Quantitative Data Acquisition of Biological Cell Walls with Atomic Force Microscopy and Scanning Acoustic Microscopy. [R] . Tittmann, B. R., Xi, X. 2014

机译：利用原子力显微镜和扫描声学显微镜对生物细胞壁进行成像和定量数据采集。

Quantitative Measurement of Spatial Effects of DNA Origami on Molecular Binding Reactions Detected using Atomic Force Microscopy

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