Scientists Store A Music Video On Strands Of DNA

OK Go/YouTube

As powerful as technology and computing power has become, it's important to remember that nature is often way ahead of us. This new piece of research builds on previous studies that have looked into harnessing the storage abilities of DNA to hold digital data. 

Microsoft, Twist Bioscience, and the University of Washington have set the record for the most amount of information put onto strands of DNA, including encoding and decoding the music video “This Too Shall Pass” by OK Go. Along with this, they have also stored the Universal Declaration of Human Rights in more than 100 languages, the top 100 books of Project Guttenberg and Crop Trust’s seed database on DNA strands. That’s a total of 200 megabytes of data.

Storing data on DNA is currently a costly and slow process. However, the techniques they’re developing could be the solution to the ever-increasing demand for data storage. With all biological life as a testament, DNA can pack huge amounts of information in a relatively small space. Twist Bioscience say that a single gram of DNA can store nearly one trillion gigabytes of digital data. Kept under the right conditions, it can also last for thousands of years without deterioration.

In a statement from Microsoft, the team said they used the OK Go video, which you can watch below, because "they’re very innovative and are bringing different things from different areas into their field and we feel we are doing something very similar.” It's an amazing choice of video, featuring a lengthy chain-reaction "Rube Goldberg machine," although they definitely missed out on a Billie Jean (Gene?) pun.

Luis Ceze, the UW’s Torode Family Career Development Professor of computer science and engineering, explained in a statement: “The world is producing data at an incredible rate, and storage technologies need to keep up. DNA is a remarkable storage molecule – it is millions of times denser than other storage media, it is incredibly durable (think millennia) and it never becomes obsolete. We humans, as DNA-based life forms, will always be interested in reading and writing DNA."

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