Article 4WF2G This 3D-printed Stanford bunny also holds the data for its own reproduction

This 3D-printed Stanford bunny also holds the data for its own reproduction

by
Jennifer Ouellette
from Ars Technica - All content on (#4WF2G)

Courtesy ETH Zurich.

It's now possible to store the digital instructions for 3D printing an everyday object into the object itself (much like DNA stores the code for life), according to a new paper in Nature Biotechnology. Scientists demonstrated this new "DNA of things" by fabricating a 3D-printed version of the Stanford bunny-a common test model in 3D computer graphics-that stored the printing instructions to reproduce the bunny.

DNA has four chemical building blocks-adenine (A), thymine (T), guanine (G), and cytosine (C)-which constitute a type of code. Information can be stored in DNA by converting the data from binary code to a base 4 code and assigning it one of the four letters. As Ars' John Timmer explained last year:

Once a bit of data is translated, it's chopped up into smaller pieces (usually 100 to 150 bases long) and inserted in between ends that make it easier to copy and sequence. These ends also contain some information where the data resides in the overall storage scheme-i.e., these are bytes 197 to 300. To restore the data, all the DNA has to be sequenced, the locational information read, and the DNA sequence decoded. In fact, the DNA needs to be sequenced several times over, since there are errors and a degree of randomness involved in how often any fragment will end up being sequenced.

DNA has significantly higher data density than conventional storage systems. A single gram can represent nearly 1 billion terabytes (1 zettabyte) of data. And it's a robust medium: the stored data can be preserved for long periods of time-decades, or even centuries. But using DNA for data storage also presents some imposing challenges. For instance, storing and retrieving data from DNA usually takes a significant amount of time, given all the sequencing required. And our ability to synthesize DNA still has a long way to go before it becomes a practical data storage medium.

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