Breakthrough: Artificial DNA Could Power Future Computers
Chemists claim to have created the world's first DNA molecule made almost entirely of artificial parts.
The finding could lead to improvements in gene therapy, futuristic nano-sized computers, and other high-tech advances, the Japanese researchers say.
DNA, popularly illustrated as a double helix, holds the blueprints of life and controls what every living organism becomes and how it functions.
Scientists have tried for years to develop artificial versions of DNA in order to take advantage of its amazing information storage capabilities. Already, DNA has been harnessed to create simple electronic circuits.
DNA uses just four basic building blocks, known as bases, to code proteins used in cell functioning and development. Other researchers have crafted DNA molecules with a few artificial parts.
But Masahiko Inouye and colleagues at the University of Toyama used stitched together four entirely new, artificial bases inside the sugar-based framework of a DNA molecule, creating unusually stable, double-stranded structures resembling natural DNA, they say.
Like natural DNA, the new ripoffs were right-handed and some easily formed triple-stranded structures. "The unique chemistry of these structures and their high stability offer unprecedented possibilities for developing new biotech materials and applications," the researchers said in a statement.
Sign up for the Live Science daily newsletter now
Get the world’s most fascinating discoveries delivered straight to your inbox.
The breakthrough will be detailed in the July 23 issue of the Journal of the American Chemical Society.
"The artificial DNA might be applied to a future extracellular genetic system with information storage and amplifiable abilities," the researchers write.
- Video: World's First Computer Is Finally Built
- Innovation: Ideas and Technologies of the Future
- New 'Biological' Robots Build Themselves
Robert is an independent health and science journalist and writer based in Phoenix, Arizona. He is a former editor-in-chief of Live Science with over 20 years of experience as a reporter and editor. He has worked on websites such as Space.com and Tom's Guide, and is a contributor on Medium, covering how we age and how to optimize the mind and body through time. He has a journalism degree from Humboldt State University in California.