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Sliding scrolls

Sliding scrolls Drain Source research highlights FRICTION DNA NANOSTRUCTURES protein-preconditioning limitations. Now, by using high-throughput screening of polymer Sliding scrolls Stable chainmail microarrays (with over 900 unique polymers), Science 348, 1118–1122 (2015) Angew. Chem. Int. Ed. http://doi.org/f272jw (2015) Morgan Alexander and colleagues have found DNA nanotechnology, which relies on the a synthetic copolymer substrate that supports programmability of complementary base the attachment, pluripotency and expansion pairing, has shown that it is possible to of human pluripotent stem cells as well as their fabricate a wide range of increasingly complex direct differentiation into cardiomyocytes, DNA-based nanostructures for a growing hepatocyte-like cells, and neural progenitors, range of potential applications. However, the in commercial media and without the need for inherent sensitivity of DNA to environmental protein preconditioning (which is expensive). conditions (such as extremes of pH, high Also, the researchers identified two key temperature or low ion content, as well as the integrins involved in the attachment of the presence of deoxyribonucleases) imposes some stem cells to the polymer substrate. PP practical limitations, particularly in biological SEMICONDUCTOR NANOWIRES applications. In an attempt to address some of the restrictions, Antonio Manetto and Sn-seeded Esaki diode colleagues have engineered an extended Nano Lett. http://doi.org/43t (2015) DNA-catenane http://www.deepdyve.com/assets/images/DeepDyve-Logo-lg.png Nature Materials Springer Journals

Sliding scrolls

Nature Materials , Volume 14 (7) – Jun 23, 2015

Sliding scrolls

Abstract

Drain Source research highlights FRICTION DNA NANOSTRUCTURES protein-preconditioning limitations. Now, by using high-throughput screening of polymer Sliding scrolls Stable chainmail microarrays (with over 900 unique polymers), Science 348, 1118–1122 (2015) Angew. Chem. Int. Ed. http://doi.org/f272jw (2015) Morgan Alexander and colleagues have found DNA nanotechnology, which relies on the a synthetic copolymer substrate that supports programmability of complementary base the attachment,...
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References (1)

Publisher
Springer Journals
Copyright
Copyright © 2015 by Nature Publishing Group, a division of Macmillan Publishers Limited. All Rights Reserved.
Subject
Materials Science; Materials Science, general; Optical and Electronic Materials; Biomaterials; Nanotechnology; Condensed Matter Physics
ISSN
1476-1122
eISSN
1476-4660
DOI
10.1038/nmat4344
Publisher site
See Article on Publisher Site

Abstract

Drain Source research highlights FRICTION DNA NANOSTRUCTURES protein-preconditioning limitations. Now, by using high-throughput screening of polymer Sliding scrolls Stable chainmail microarrays (with over 900 unique polymers), Science 348, 1118–1122 (2015) Angew. Chem. Int. Ed. http://doi.org/f272jw (2015) Morgan Alexander and colleagues have found DNA nanotechnology, which relies on the a synthetic copolymer substrate that supports programmability of complementary base the attachment, pluripotency and expansion pairing, has shown that it is possible to of human pluripotent stem cells as well as their fabricate a wide range of increasingly complex direct differentiation into cardiomyocytes, DNA-based nanostructures for a growing hepatocyte-like cells, and neural progenitors, range of potential applications. However, the in commercial media and without the need for inherent sensitivity of DNA to environmental protein preconditioning (which is expensive). conditions (such as extremes of pH, high Also, the researchers identified two key temperature or low ion content, as well as the integrins involved in the attachment of the presence of deoxyribonucleases) imposes some stem cells to the polymer substrate. PP practical limitations, particularly in biological SEMICONDUCTOR NANOWIRES applications. In an attempt to address some of the restrictions, Antonio Manetto and Sn-seeded Esaki diode colleagues have engineered an extended Nano Lett. http://doi.org/43t (2015) DNA-catenane

Journal

Nature MaterialsSpringer Journals

Published: Jun 23, 2015

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