Inside every cell, a finely tuned metabolic network determines when to build, recycle, or stop producing essential molecules.

A team of scientists at the University of Seville has identified an essential process that protects DNA integrity in reproductive cells, providing new clues about how organisms avoid genetic defects ...

Betrayal, ambition and the double helix: turning Rosalind Franklin’s story and the discovery of the structure of DNA into an ...

Researchers say well over 100,000 spiders from two different species coexist in this remarkable underground metropolis for ...

Nucleome is backed by a world-class syndicate of investors: M Ventures, the venture capital arm of Merck KGaA; Johnson and Johnson Innovation - JJDC, Inc. ("JJDC"); Pfizer Ventures; British Business ...

The Kanazawa team led by Katsuya Sakai, discovered that CHD1 uses a flexible region to form tiny liquid-like droplets, called condensates, that act as hubs for controlling the activity of crucial ...

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

Arabidopsis thaliana was always an unlikely candidate for the limelight. But 25 years ago, the diminutive thale cress ...

Priority Research Communication by Professor Yogesh Dwivedi and colleagues at the University of Alabama at Birmingham reports original, peer-reviewed findings demonstrating that long noncoding RNAs ...

Acute myeloid leukemia driven by tandem duplications within the UBTF gene (UBTF-TD AML) is a high-risk pediatric cancer in ...

Understanding how cells turn genes on and off is one of biology's most enduring mysteries. Now, a new technology developed by chemist Brian Liau and his collaborators at Harvard offers an ...

Within each cell, there is a constant struggle between life-sustaining molecules and molecules that could hasten its demise.