DNA strand displacement circuits are inching closer to becoming cellular machines. Scientists are finding ways to make these programmable nanodevices stable and functional inside living cells. If ...

Adenine and guanine, the two most common purines in DNA and RNA, share this core structure, which is crucial for forming the base pairs in nucleic acids. (Image: Wikimedia Commons, Public Domain) ...

The “warm” data in the middle, such as your old photos, can take a few seconds to retrieve. Most data is cold, and a lot of it could probably be erased without consequence. Yet some of it might one ...

The Viral Vector & Plasmid DNA Manufacturing Market Size accounted for USD 5.4 Billion in 2023 and is estimated to achieve a ...

Researchers harness the power of the world’s most advanced supercomputers to simulate the inner workings of cellular ...

A comprehensive review titled "From the Test Tube to the Cell: A Homecoming for DNA Computing Circuits?" published Mar. 4 in ...

These acted like anchors. They then added specially designed DNA pieces that folded into eight-sided shapes called ...

“The real dream is, of course, to see all those different components at the same time, working at the junction where you have single-stranded and double-stranded DNA meet,” Wuite said. Xu and his ...

A comprehensive review titled "From the Test Tube to the Cell: A Homecoming for DNA Computing Circuits?" published Mar. 4 in Intelligent Computing, a Science Partner Journal, highlights progress in ...

Artificial human DNA, or synthetic DNA (synDNA), is created by assembling the chemical components of genes in a controlled ...

Normal metabolic activity produces reactive oxygen species (ROS) that, if not eliminated, can damage cellular components. As a result, ROS from overactive mitochondria are frequently cited as a source ...