EurekAlert!

How AI could speed the development of RNA vaccines and other RNA therapies

CAMBRIDGE, MA -- Using artificial intelligence, MIT researchers have come up with a new way to design nanoparticles that can more efficiently deliver RNA vaccines and other types of RNA therapies.
Phys.org

CRISPR-Cas13 allows selective modification of desired RNA in living cells

RNA gene scissors (CRISPR-Cas13) are gaining significant attention as a next-generation gene therapy with fewer side effects. They can suppress infection by eliminating viral RNA, such as in ...
Science Daily

RNA origami: Artificial cytoskeletons to build synthetic cells

With the long-term goal of creating living cells from non-living components, scientists in the field of synthetic biology work with RNA origami. This tool uses the multifunctionality of the natural ...

Deep-learning algorithms enhance mutation detection in cancer and RNA sequencing

Researchers from the Faculty of Engineering at The University of Hong Kong (HKU) have developed two innovative deep-learning algorithms, ClairS-TO and Clair3-RNA, that significantly advance genetic ...
WRBL

BioEcho Unveils EchoLUTION™ Cell Culture RNA Kit, Delivering Superior Quality and Speed for Research

BioEcho launches new EchoLUTION™ Cell Culture RNA kit, offering superior quality and speed for academic and biopharma research in under 10 minutes. COLOGNE, GERMANY ...
Digital Journal

How AI could speed the development of RNA vaccines

MIT engineers have successfully used a machine-learning model to design nanoparticles that can deliver RNA to cells more efficiently. Using artificial intelligence, MIT researchers have come up with a ...