DNA Framework‐Mediated Geometric Renormalization of Gold Nanoparticles on a Two‐Dimensional Fluidic Membrane Interface

The precise arrangement of single entity is a crucial objective of nanoscience and holds great promise in various fields such as biology and material science. In this work, we develop a “DNA framework‐mediated geometric renormalization” (DFMGR) strategy to reassemble gold nanoparticles into specific...

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Veröffentlicht in:	ChemPlusChem (Weinheim, Germany) Germany), 2021-10, Vol.86 (10), p.1472-1475
Hauptverfasser:	Guo, Ruiyan, Li, Min, Zuo, Xiaolei
Format:	Artikel
Sprache:	eng
Schlagworte:	algebraic topology Chemistry Cholesterol Deoxyribonucleic acid Dimers DNA DNA frameworks geometric renormalization Gold gold nanoparticles Lipids Membranes Nanoparticles Nanotechnology Scanning electron microscopy supported lipid bilayers Triangles Trimers
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creator	Guo, Ruiyan Li, Min Zuo, Xiaolei
description	The precise arrangement of single entity is a crucial objective of nanoscience and holds great promise in various fields such as biology and material science. In this work, we develop a “DNA framework‐mediated geometric renormalization” (DFMGR) strategy to reassemble gold nanoparticles into specific geometric shapes on a 2‐dimensional (2D) fluidic membrane interface. Cholesterol‐modified AuNPs are randomly anchored on the supported lipid bilayer (SLB) via the cholesterol‐lipid interaction. We demonstrate that AuNPs are laterally mobile on SLB and could be further rearranged into a specific geometric shape by DNA framework containing algebraically topological DNA arms. Using scanning electron microscope (SEM) imaging approach, simple geometric shapes, such as points assembled by monomers, line segments assembled by dimers, triangles assembled by trimers are visually presented. Interestingly, we found that the statistic angle (58.77°) and side length (12.21 nm) of triangles obtained from SEM images were both agreed well with the theoretical angle of 60° and side length of 12.58 nm. And the relative error of the angle calculated was as low as 0.33 %. These results indicated that the DFMGR strategy showed precise regulation ability for the AuNPs renormalization. We believe that DNA framework‐mediated geometric renormalization strategy would be a powerful means for regulating ligand‐receptor interactions in biosystems and for nanoparticle assembling in material science. The strategy of “DNA Framework‐Mediated Geometric Renormalization” (DFMGR) was proposed and elaborated in this work, which described the process in which cholesterol‐modified gold nanoparticles were assembled into specific geometric shapes by the action of tetrahedral DNA frameworks on the two‐dimensional (2D) flow interface. Characterized by scanning electron microscopy, the formed geometric figures, such as points, line segments and triangles, can be visualized intuitively.
doi_str_mv	10.1002/cplu.202100344
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And the relative error of the angle calculated was as low as 0.33 %. These results indicated that the DFMGR strategy showed precise regulation ability for the AuNPs renormalization. We believe that DNA framework‐mediated geometric renormalization strategy would be a powerful means for regulating ligand‐receptor interactions in biosystems and for nanoparticle assembling in material science. The strategy of “DNA Framework‐Mediated Geometric Renormalization” (DFMGR) was proposed and elaborated in this work, which described the process in which cholesterol‐modified gold nanoparticles were assembled into specific geometric shapes by the action of tetrahedral DNA frameworks on the two‐dimensional (2D) flow interface. 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In this work, we develop a “DNA framework‐mediated geometric renormalization” (DFMGR) strategy to reassemble gold nanoparticles into specific geometric shapes on a 2‐dimensional (2D) fluidic membrane interface. Cholesterol‐modified AuNPs are randomly anchored on the supported lipid bilayer (SLB) via the cholesterol‐lipid interaction. We demonstrate that AuNPs are laterally mobile on SLB and could be further rearranged into a specific geometric shape by DNA framework containing algebraically topological DNA arms. Using scanning electron microscope (SEM) imaging approach, simple geometric shapes, such as points assembled by monomers, line segments assembled by dimers, triangles assembled by trimers are visually presented. Interestingly, we found that the statistic angle (58.77°) and side length (12.21 nm) of triangles obtained from SEM images were both agreed well with the theoretical angle of 60° and side length of 12.58 nm. And the relative error of the angle calculated was as low as 0.33 %. These results indicated that the DFMGR strategy showed precise regulation ability for the AuNPs renormalization. We believe that DNA framework‐mediated geometric renormalization strategy would be a powerful means for regulating ligand‐receptor interactions in biosystems and for nanoparticle assembling in material science. The strategy of “DNA Framework‐Mediated Geometric Renormalization” (DFMGR) was proposed and elaborated in this work, which described the process in which cholesterol‐modified gold nanoparticles were assembled into specific geometric shapes by the action of tetrahedral DNA frameworks on the two‐dimensional (2D) flow interface. 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subjects	algebraic topology Chemistry Cholesterol Deoxyribonucleic acid Dimers DNA DNA frameworks geometric renormalization Gold gold nanoparticles Lipids Membranes Nanoparticles Nanotechnology Scanning electron microscopy supported lipid bilayers Triangles Trimers
title	DNA Framework‐Mediated Geometric Renormalization of Gold Nanoparticles on a Two‐Dimensional Fluidic Membrane Interface
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