Programming chain-growth copolymerization of DNA hairpin tiles for in-vitro hierarchical supramolecular organization
Formation of biological filaments via intracellular supramolecular polymerization of proteins occurs under programmable and spatiotemporal control to maintain integrity. Here the authors devise a bioinspired isothermal chain-growth approach to programmably copolymerize DNA hairpin tiles into 1D nano...
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2019-03-01
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Online Access: | https://doi.org/10.1038/s41467-019-09004-4 |
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doaj-80b03b6f4f714d408acd5a296470c6932021-05-11T12:36:00ZengNature Publishing GroupNature Communications2041-17232019-03-0110111110.1038/s41467-019-09004-4Programming chain-growth copolymerization of DNA hairpin tiles for in-vitro hierarchical supramolecular organizationHonglu Zhang0Yu Wang1Huan Zhang2Xiaoguo Liu3Antony Lee4Qiuling Huang5Fei Wang6Jie Chao7Huajie Liu8Jiang Li9Jiye Shi10Xiaolei Zuo11Lihua Wang12Lianhui Wang13Xiaoyu Cao14Carlos Bustamante15Zhongqun Tian16Chunhai Fan17Division of Physical Biology and Bioimaging Center, Shanghai Synchrotron Radiation Facility, Shanghai Institute of Applied Physics, Chinese Academy of SciencesState Key Laboratory of Physical Chemistry of Solid Surfaces and College of Chemistry and Chemical Engineering, Xiamen UniversityDivision of Physical Biology and Bioimaging Center, Shanghai Synchrotron Radiation Facility, Shanghai Institute of Applied Physics, Chinese Academy of SciencesSchool of Chemistry and Chemical Engineering, and Institute of Molecular Medicine, Renji Hospital, School of Medicine, Shanghai Jiao Tong UniversityDepartment of Chemistry, Institute for Quantitative Biosciences (QB3), Department of Physics, Department of Molecular and Cell Biology, Kavli Energy Nanosciences Institute at Berkeley, Howard Hughes Medical Institute, University of CaliforniaDivision of Physical Biology and Bioimaging Center, Shanghai Synchrotron Radiation Facility, Shanghai Institute of Applied Physics, Chinese Academy of SciencesSchool of Chemistry and Chemical Engineering, and Institute of Molecular Medicine, Renji Hospital, School of Medicine, Shanghai Jiao Tong UniversityKey Laboratory for Organic Electronics & Information Displays and Institute of Advanced Materials (IAM), Jiangsu National Synergistic Innovation Center for Advanced Materials (SICAM), Nanjing University of Posts and Telecommunications (NUPT)Division of Physical Biology and Bioimaging Center, Shanghai Synchrotron Radiation Facility, Shanghai Institute of Applied Physics, Chinese Academy of SciencesDivision of Physical Biology and Bioimaging Center, Shanghai Synchrotron Radiation Facility, Shanghai Institute of Applied Physics, Chinese Academy of SciencesDivision of Physical Biology and Bioimaging Center, Shanghai Synchrotron Radiation Facility, Shanghai Institute of Applied Physics, Chinese Academy of SciencesSchool of Chemistry and Chemical Engineering, and Institute of Molecular Medicine, Renji Hospital, School of Medicine, Shanghai Jiao Tong UniversityDivision of Physical Biology and Bioimaging Center, Shanghai Synchrotron Radiation Facility, Shanghai Institute of Applied Physics, Chinese Academy of SciencesKey Laboratory for Organic Electronics & Information Displays and Institute of Advanced Materials (IAM), Jiangsu National Synergistic Innovation Center for Advanced Materials (SICAM), Nanjing University of Posts and Telecommunications (NUPT)State Key Laboratory of Physical Chemistry of Solid Surfaces and College of Chemistry and Chemical Engineering, Xiamen UniversityDepartment of Chemistry, Institute for Quantitative Biosciences (QB3), Department of Physics, Department of Molecular and Cell Biology, Kavli Energy Nanosciences Institute at Berkeley, Howard Hughes Medical Institute, University of CaliforniaState Key Laboratory of Physical Chemistry of Solid Surfaces and College of Chemistry and Chemical Engineering, Xiamen UniversityDivision of Physical Biology and Bioimaging Center, Shanghai Synchrotron Radiation Facility, Shanghai Institute of Applied Physics, Chinese Academy of SciencesFormation of biological filaments via intracellular supramolecular polymerization of proteins occurs under programmable and spatiotemporal control to maintain integrity. Here the authors devise a bioinspired isothermal chain-growth approach to programmably copolymerize DNA hairpin tiles into 1D nanofilaments.https://doi.org/10.1038/s41467-019-09004-4 |
collection |
DOAJ |
language |
English |
format |
Article |
sources |
DOAJ |
author |
Honglu Zhang Yu Wang Huan Zhang Xiaoguo Liu Antony Lee Qiuling Huang Fei Wang Jie Chao Huajie Liu Jiang Li Jiye Shi Xiaolei Zuo Lihua Wang Lianhui Wang Xiaoyu Cao Carlos Bustamante Zhongqun Tian Chunhai Fan |
spellingShingle |
Honglu Zhang Yu Wang Huan Zhang Xiaoguo Liu Antony Lee Qiuling Huang Fei Wang Jie Chao Huajie Liu Jiang Li Jiye Shi Xiaolei Zuo Lihua Wang Lianhui Wang Xiaoyu Cao Carlos Bustamante Zhongqun Tian Chunhai Fan Programming chain-growth copolymerization of DNA hairpin tiles for in-vitro hierarchical supramolecular organization Nature Communications |
author_facet |
Honglu Zhang Yu Wang Huan Zhang Xiaoguo Liu Antony Lee Qiuling Huang Fei Wang Jie Chao Huajie Liu Jiang Li Jiye Shi Xiaolei Zuo Lihua Wang Lianhui Wang Xiaoyu Cao Carlos Bustamante Zhongqun Tian Chunhai Fan |
author_sort |
Honglu Zhang |
title |
Programming chain-growth copolymerization of DNA hairpin tiles for in-vitro hierarchical supramolecular organization |
title_short |
Programming chain-growth copolymerization of DNA hairpin tiles for in-vitro hierarchical supramolecular organization |
title_full |
Programming chain-growth copolymerization of DNA hairpin tiles for in-vitro hierarchical supramolecular organization |
title_fullStr |
Programming chain-growth copolymerization of DNA hairpin tiles for in-vitro hierarchical supramolecular organization |
title_full_unstemmed |
Programming chain-growth copolymerization of DNA hairpin tiles for in-vitro hierarchical supramolecular organization |
title_sort |
programming chain-growth copolymerization of dna hairpin tiles for in-vitro hierarchical supramolecular organization |
publisher |
Nature Publishing Group |
series |
Nature Communications |
issn |
2041-1723 |
publishDate |
2019-03-01 |
description |
Formation of biological filaments via intracellular supramolecular polymerization of proteins occurs under programmable and spatiotemporal control to maintain integrity. Here the authors devise a bioinspired isothermal chain-growth approach to programmably copolymerize DNA hairpin tiles into 1D nanofilaments. |
url |
https://doi.org/10.1038/s41467-019-09004-4 |
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