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Using DNA strands to design new polymer materials

±«ÓãÖ±²¥ researchers have chemically imprinted polymer particles with DNA strands – a technique that could lead to new materials for applications ranging from biomedicine to the promising field of “soft robotics.â€

In a study published in Nature Chemistry, the researchers describe a method to create asymmetrical polymer particles that bind together in a spatially defined manner, the way that atoms come together to make molecules.

Classified as: Hanadi Sleiman, chemistry, scaffolds, DNA, University of Vermont, soft robotics, drug delivery, Texas A&M, bioengineering, dna-imprinted polymer
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Published on: 19 Dec 2017

Same gene can encode proteins with divergent functions

By Cynthia Lee, ±«ÓãÖ±²¥ Newsroom

It’s not unusual for siblings to seem more dissimilar than similar: one becoming a florist, for example, another becoming a flutist, and another becoming a physicist.

Classified as: ±«ÓãÖ±²¥, DNA, disease, genes, diversity, bioengineering, health and lifestyle, proteins, brood, isoforms, human cells, splicing, Dana-Farber Cancer Institute, University of California, San Diego School of Medicine, Yu Xia
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Published on: 11 Feb 2016
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