Scientists are hopeful it will improve understanding of how genes work, what goes wrong in disease, and how to fix it.

An artificial intelligence model predicts how brain immune cells react to RNA and DNA nanoparticles, helping scientists design safer and more effective nucleic acid therapies faster.

You should build responsible AI into every system from day one. These industry experts share proven ways to do it right.

What if the brain's response to stress could be read not in fleeting neurotransmitter bursts, but in the quieting of genes deep inside chromatin? Researchers at the University of Alabama at Birmingham ...

SDSC provides high-performance computing and data infrastructure that support researchers doing molecular modeling and ...

Every cell in the body has the same DNA, but different cell types—such as muscle or brain cells—use different parts of it.

Chemists at the National University of Singapore (NUS) have found a new use for deoxyribonucleic acid (DNA), not just as ...

Ribonucleic acid (RNA) is one of life's most versatile molecules, with roles going far beyond being a messenger of genetic ...

Michael Buck, PhD, professor of biochemistry in the Jacobs School, recently received NIH funding to explore how molecular readers of DNA access and activate seemingly hidden genes.

Standard laboratory tests can fail to detect many disease-causing DNA changes. Now, a novel 3D chromosome mapping method can ...