Cells aren’t as passive as scientists once thought—they actively create internal currents to move proteins quickly and ...

A moving cell looks simple from a distance. One edge pushes forward, the rest follows, and the whole thing creeps along as if ...

Scientists at Oregon Health & Science University have uncovered a previously unknown system of internal "trade winds" that ...

Scientists at Oregon Health & Science University have uncovered a previously unknown system of internal “trade winds” that ...

Scientists at Oregon Health & Science University have uncovered a previously unknown system of internal "trade winds" that help cells rapidly move essential proteins to the front of the cell, ...

Breakthrough research reveals that cells use directed fluid flows to push key proteins forward, offering new insights into cancer, immunity, wound ...

As part of the FED-tWIN Face-to-Face project, a multidisciplinary team bringing together the European Centre of Archaeometry (University of Liège, ULiège), the Royal Museums of Fine Arts of Belgium ...

A multidisciplinary team bringing together the European Centre of Archaeometry (University of Liège, ULiège), the Royal Museums of Fine Arts of Belgium (RMFAB), CNRS-Sorbonne University and Ca’ ...

Explore how time-resolved fluorescence enables sensitive monitoring of dye–protein binding in microliter volumes.

Combining pump-probe spectroscopy with fluorescence lifetime imaging microscopy enables non-invasive ultrafast imaging of ...

Integrating Digital Holographic Microscopy with fluorescence techniques enhances live-cell imaging, preserving cellular ...