In the past decade, the potential of harnessing the ability of nuclear magnetic resonance (NMR) spectroscopy to monitor intermolecular interactions as a tool for drug discovery has been increasingly ...

Autonomous or self-driving labs could help speed up research by handing over tasks – such as sample preparation, synthesis ...

Researchers at Linköping University show how two important cancer-related proteins can be prevented from collaborating with each other. The discovery shows the way toward future medications to combat, ...

Aromatic molecules are known for their stable electronic structures. These molecules typically adopt planar geometries with ...

The formation of protein amyloid fibrils in the brain is a hallmark of various neurodegenerative diseases, including Alzheimer diseases and Parkinson diseases. Amyloid f ...

The rise in bearish positioning suggests that traders are increasingly cautious about near-term prospects. Such positioning ...

UNC postdoctoral Ajit Prakash explores how G proteins function as intracellular pH sensors and how this affects cell ...

Graph theory and computational modeling reveal that neural network architecture biases the male Caenorhabditis elegans brain toward prioritized sexual behaviors.

Mechanical computing platforms could operate where it isn't possible to use silicon chips.

Ahead of The Festival of Genomics, Biodata & AI in Boston, we’re sitting down with some of our expert speakers […] ...

Drug testing of non-biological samples revealed a new nitazene opioid, N-pyrrolidino fluetonitazene, in a nasal spray.

Nuclear magnetic resonance (NMR) spectroscopy is a technique that detects the chemical environment of atomic nuclei by the absorption of radio-frequency electromagnetic radiation when in the presence ...