According to Li-Qun Gu, DNA is an extremely compact, stable package of information. Natural DNA strands encode the biological blueprints of all life on Earth but ...

In a study published in Nature Communications, Mayo Clinic researchers have identified specific DNA-level changes in the brains of people with Alzheimer's disease (AD). Using advanced biological ...

University of Missouri scientists build rewritable DNA hard drive using nanopore sensor for storing and editing digital data.

Researchers have made DNA storage rewritable, overcoming one of its biggest limitations. The breakthrough could turn DNA into a practical alternative to today’s energy-hungry data centers.

Around the world, scientists are exploring an unexpected solution to the growing data crisis: storing digital information in ...

Scientists are exploring synthetic DNA as a way to store massive amounts of data. Now, University of Missouri researchers, led by Li-Qun “Andrew” Gu, are taking it a step further by developing a ...

Biocomputing is transitioning to deployment, shifting from research to real-world use in healthcare and industrial biotechnology. Key opportunities include DNA and RNA computing for data storage and ...

In a new study, scientists at Microsoft Research have shown that they can write information into a lump of borosilicate glass. Their calculations suggest the data trapped inside would be stable for at ...

Project Silica promises to store data for millennia while facing impossible speeds and impractical costs for real use ...

Researchers use mini plasma explosions to encode the equivalent of two million books into a coaster-sized device. The method ...

Improvements to data writing and reading techniques, alongside a new way to store data, mean the technology is more ...

Borosilicate glass offers extreme stability; Microsoft’s accelerated aging experiments suggest the data would be stable for ...