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DNA Origami


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C., Ramakrishnan, S., Fricke, S. et al. (2018). Dynamics of DNA origami lattice formation at solid‐liquid interfaces. ACS Applied Materials & Interfaces 10: 44844–44853.

      61 61 Johnson‐Buck, A., Jiang, S., Yan, H. et al. (2014). DNA‐cholesterol barges as programmable membrane‐exploring agents. ACS Nano 8: 5641–5649.

      62 62 Kocabey, S., Kempter, S., List, J. et al. (2015). Membrane‐assisted growth of DNA origami nanostructure arrays. ACS Nano 9: 3530–3539.

      63 63 Czogalla, A., Kauert, D.J., Franquelim, H.G. et al. (2015). Amphipathic DNA origami nanoparticles to scaffold and deform lipid membrane vesicles. Angewandte Chemie International Edition in English 54: 6501–6505.

      64 64 Suzuki, Y., Endo, M., and Sugiyama, H. (2015). Lipid‐bilayer‐assisted two‐dimensional self‐assembly of DNA origami nanostructures. Nature Communications 6: 8052.

      65 65 Mingeot‐Leclercq, M.P., Deleu, M., Brasseur, R. et al. (2008). Atomic force microscopy of supported lipid bilayers. Nature Protocols 3: 1654–1659.

      66 66 Ramakrishnan, S., Subramaniam, S., Stewart, A.F. et al. (2016). Regular nanoscale protein patterns via directed adsorption through self‐assembled DNA origami masks. ACS Applied Materials & Interfaces 8: 31239–31247.

      67 67 Suzuki, Y., Sugiyama, H., and Endo, M. (2018). Complexing DNA origami frameworks through sequential self‐assembly based on directed docking. Angewandte Chemie International Edition in English 57: 7061–7065.

      68 68 Lin, T., Yan, J., Ong, L.L. et al. (2018). Hierarchical assembly of DNA nanostructures based on four‐way toehold‐mediated strand displacement. Nano Letters 18: 4791–4795.

      69 69 Yang, Y., Endo, M., Hidaka, K. et al. (2012). Photo‐controllable DNA origami nanostructures assembling into predesigned multiorientational patterns. Journal of the American Chemical Society 134: 20645–20653.

      70 70 Yang, S., Liu, W., Nixon, R. et al. (2018). Metal‐ion responsive reversible assembly of DNA origami dimers: G‐quadruplex induced intermolecular interaction. Nanoscale 10: 3626–3630.

      71 71 Yang, S., Liu, W., and Wang, R. (2019). Control of the stepwise assembly‐disassembly of DNA origami nanoclusters by pH stimuli‐responsive DNA triplexes. Nanoscale 11: 18026–18030.

      72 72 Suzuki, Y., Endo, M., Yang, Y. et al. (2014). Dynamic assembly/disassembly processes of photoresponsive DNA origami nanostructures directly visualized on a lipid membrane surface. Journal of the American Chemical Society 136: 1714–1717.

      73 73 Kroener, F., Heerwig, A., Kaiser, W. et al. (2017). Electrical actuation of a DNA origami nanolever on an electrode. Journal of the American Chemical Society 139: 16510–16513.

      74 74 Kopperger, E., List, J., Madhira, S. et al. (2018). A self‐assembled nanoscale robotic arm controlled by electric fields. Science 359: 296–301.

      75 75 Lauback, S., Mattioli, K.R., Marras, A.E. et al. (2018). Real‐time magnetic actuation of DNA nanodevices via modular integration with stiff micro‐levers. Nature Communications 9: 1446.

      76 76 Suzuki, Y., Sakai, N., Yoshida, A. et al. (2013). High‐speed atomic force microscopy combined with inverted optical microscopy for studying cellular events. Scientific Reports 3: 2131.

      77 77 Yoshida, A., Sakai, N., Uekusa, Y. et al. (2018). Morphological changes of plasma membrane and protein assembly during clathrin‐mediated endocytosis. PLoS Biology 16: e2004786.

      78 78 Fukuda, S., Uchihashi, T., Iino, R. et al. (2013). High‐speed atomic force microscope combined with single‐molecule fluorescence microscope. The Review of Scientific Instruments 84: 073706.

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