A research team has developed a groundbreaking deep learning-based method for analyzing the cytoskeleton -- the structural framework inside cells -- more accurately and efficiently than ever before.

A research team, led by Professor Jimin Lee and Professor Eisung Yoon in the Department of Nuclear Engineering at UNIST, has unveiled a deep learning–based approach that significantly ...

Fusing dyes to antibodies or inserting genes coding for fluorescent proteins into the DNA of living cells can help scientists pick out the location of organelles, cytoskeletal elements, and other ...

To learn more about the deepest reaches of our own galaxy and the mysteries of star formation, Japanese researchers have ...

Unlike run-of-the-mill general-purpose technologies, AI is truly pathbreaking: it holds the power to transform the foundational structures of society, from how we work and learn to how we govern and ...

Biologically active RNAs, including transport, ribosomal and small nuclear RNA (tRNA ... Here, the authors introduce RNAmigos2, a structure-based deep learning model that speeds up screening ...

Peptides designed by artificial intelligence restrict both drug-resistant bacteria and rapidly evolving viruses.

Entrance to ONKALO, Finland’s deep geological repository for spent nuclear fuel. (Photo: Posiva Oy) As the world looks to alternatives to fossil fuels to combat climate change, several countries are ...