Synthetic DNA Makes Better Hydrogels for Drug Delivery

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DNA chains that attach to one another along part of their length can self-assemble into branching structures including crosses Ts and Ys. In the presence of enzymes that connect the open ends to one another these shapes combine into larger structures ...
DNA chains that attach to one another along part of their length can self-assemble into branching structures including crosses, T's and Y's. In the presence of enzymes that connect the open ends to one another, these shapes combine into larger structures with many small openings, creating a sponge-like material called a hydrogel. Credit: Molecular Bioengineering Lab/Cornell University

Using synthetic DNA formed into crosses, Y's and T's, Cornell researchers have created biocompatible, biodegradable, inexpensive hydrogels that can be easily formed into any desired shape for biomedical applications.


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