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Scraping and Stapling of End-Grafted DNA Chains by a Bioadhesive Spreading Vesicle to Reveal Chain Internal Friction and Topological Complexity

Scraping and Stapling of End-Grafted DNA Chains by a Bioadhesive Spreading Vesicle to Reveal Chain Internal Friction and Topological Complexity

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NAM, Gimoon, Marie Laure HISETTE, Yuting Liang SUN, Thomas GISLER, Albert JOHNER, Fabrice THALMANN, André Pierre SCHRÖDER, Carlos Manuel MARQUES, Nam-Kyung LEE, 2010. Scraping and Stapling of End-Grafted DNA Chains by a Bioadhesive Spreading Vesicle to Reveal Chain Internal Friction and Topological Complexity. In: Physical Review Letters. 105(8). ISSN 0031-9007. Available under: doi: 10.1103/PhysRevLett.105.088101

@article{Nam2010Scrap-12457, title={Scraping and Stapling of End-Grafted DNA Chains by a Bioadhesive Spreading Vesicle to Reveal Chain Internal Friction and Topological Complexity}, year={2010}, doi={10.1103/PhysRevLett.105.088101}, number={8}, volume={105}, issn={0031-9007}, journal={Physical Review Letters}, author={Nam, Gimoon and Hisette, Marie Laure and Sun, Yuting Liang and Gisler, Thomas and Johner, Albert and Thalmann, Fabrice and Schröder, André Pierre and Marques, Carlos Manuel and Lee, Nam-Kyung} }

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