The challenges of connecting molecular changes to tissue structure and highlights the potential of multifractal frameworks to quantify complex biological patterns ...

Learn how BeSEC enables precise analysis of antibody aggregation and molecular weight through dual-angle light scattering.

A team of US researchers has gained new insights into how large protein molecules consistently fold themselves into useful shapes. Using a new approach to fluorescence microscopy, Hoi Sung Chung and ...

Scientists at the Department of Energy's Lawrence Berkeley National Laboratory (Berkeley Lab) have developed a new way to determine atomic structures from nanocrystals previously considered unusable, ...

Scientists offer new insight into how the body detects light touch and how disruptions in that process may contribute to sensory disorders.

Tea quality depends on a delicate balance between amino acids and secondary metabolites, yet how these compounds are coordinated at the molecular level has remained unclear.

A ring of 13 carbon atoms and two chlorine atoms has a remarkable molecular structure that means you would have to go around the loop four times to return to your starting position ...

Born in Brooklyn in 1942, Freed’s scientific trajectory began early; he and his brother Jack, who himself would go on to ...

To use this evidence, investigators typically must grow the larvae until adulthood in a laboratory setting and then identify ...

A new study from Scripps Research reveals how a key touch-sensing protein detects mechanical forces with remarkable precision. Each time something lightly presses against your skin, specialized sensor ...

Researchers have discovered that how water binds to nanoparticles can determine whether a nanomedicine works or fails. A key finding.

A DoD-funded project will investigate how fluorotelomers — once thought to be safer PFAS alternatives — penetrate zebrafish cells.