Synthetic ‘origami’ DNA delivers drugs within body

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This tiny origami has a lasting appeal. Strands of artificial genetic material have been folded into 3D shapes of our own choosing for the first time. These parcels could be used to carry medicinal cargoes inside the body.

Naturally occurring nucleic acids like DNA and RNA perform many biological functions, from information storage to catalysing reactions. About a decade ago, biochemists came up with a new use for such molecules: DNA origami. Long strands of DNA can be designed so that they fold into 2D or 3D shapes that could deliver drugs to where they are needed in the body, among other things.

But there’s a problem. DNA and RNA aren’t very stable in the body, due to our own protective enzymes, and DNA origami structures run the risk of falling apart before they can complete their job.

Now Alex Taylor and Philipp Holliger at the MRC Laboratory of Molecular Biology in Cambridge, UK, and their colleagues, have a solution: xenonucleic acids.

Known as XNAs, these contain the same genetic bases – adenine, thymine, guanine, cytosine and uracil – on which DNA and RNA rely for coding hereditary information. What’s different is the sugars used to string it together: XNA has a backbone made of artificial molecules.

Read full, original post: Artificial DNA folds into parcels that can survive inside us

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