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"DNA Origami" Could Allow For Controlled Drug Delivery

Posted by timothy on from the biotech-ransom-possibilities dept.

esinclair writes "As reported in Nature News, researchers have designed a method which allows DNA strands to be formed into cubes and other designs by oligonucleotides. The uses of this DNA origami are still being developed. One possibility for them is to be used as a drug-delivery system. The fact that scientists have also come up with a method to lock these structures and use 'keys' to unlock them would conceivably allow for a controlled delivery system."

1 of 29 comments (clear)

  1. DNA is economical by Vesvvi · · Score: 5, Informative

    As a biochemist working in the area of structure/physics, of course I find this very interesting, and there's no shortage of things that could be said about this technique.

    However, one of the most relevant issues in biotech and nanotech is the question of cost. The most elegant drug delivery system in the world will never be viable if you can't produce it in decent yields, at a reasonable cost.

    My work involves viral capsids, which we use as nano building blocks because they (sometimes) self-assemble, making very large, symmetric structures with relative ease. However, you still have to produce the protein, which usually involves engineering some other organism to produce it for you, since it can't be done synthetically. Assuming that step can be accomplished, you still must purify it, and hope that once all is said and done the protein has retained the appropriate structure. If it's been "deformed" along the way, it's usually a one-way street, and your precious product is now garbage.

    In contrast, DNA can be made more or less fully synthetically, and the misfolding problem is a non-issue: it can be melted down and re-folded nearly infinitely.
    Those features make DNA really interesting as a better candidate for commercially-viable nanotech. On the other hand, DNA is going to be uniformly negatively charged everywhere, as opposed to proteins which can take on nearly any characteristic you might want, due to the range of amino acid building blocks. In a biological sense such as the article mentions, that could be a concern if you want it to interact with (or avoid) other structures.