Researchers from the NeuroEngineering Laboratory at the University of Liège have revealed a fascinating brain mechanism: The ...

To better understand the highly varied characteristics that enable malaria parasites to adhere to red blood cells and elude ...

In an article published in the scientific journal PNAS Nexus, researchers from the Neuromorphic Engineering Laboratory at the ...

Rice University's soTILT3D platform revolutionizes nanoscale imaging, enhancing 3D visualization of cellular structures with ...

This development comes at a crucial time, as global demand for protein increases and traditional sources of plant-based and ...

A team of researchers led by Anna-Karin Gustavsson at Rice University has developed an innovative imaging platform that ...

Scientists have unveiled a new tool for studying the highly variable traits that allow malaria parasites to stick to red ...

Neuroscience has long known that each brain is unique, not only in its connections but also in the molecular composition of ...

Simulation models can predict phenomena that cannot yet be investigated experimentally. This helps, for example, in preventing disease. (Image ...

which in turn influences many crucial membrane-associated functions, such as the passive permeability of hydrophobic molecules, active solute transport and protein–protein interactions.

In terms of speed, soTILT3D delivers a tenfold increase when combined with high emitter density and deep learning analysis, ...

They learned that the process is controlled by a particular signaling pathway in the cell. That pathway involves a chain ...