This schematic shows the intracellular organization that drives nucleus movement and mesenchymal migration. The image on the right is a close-up view of the cell edge and depicts the coupling between ...

To move forward or migrate, the different cells in our body must exert forces or interact with their surrounding environment. Interestingly, however, a fault in these interactions can also be the ...

A new research paper was published in Volume 17 of Oncotarget on June 3, 2026, titled "The anticancer effects of PCAIs in ...

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, ...

Biophysicist Susy Kohout explores how cells respond to electrical cues, shedding light on the connection between cell ...

A new study integrated mathematical modeling with advanced imaging to discover that the physical shape of the fruit fly egg chamber, combined with chemical signals, significantly influences how cells ...

Jian Zhang, an assistant professor of biomedical engineering, will study how mechanical forces and cellular energy constraints guide cell motion in engineered tissue models.

A new study suggests that overstimulating key cancer-growth pathways, rather than shutting them down, could offer a novel way to target pancreatic tumors driven by KRAS mutations.

Migrating newborn neurons suffer routine double-strand DNA breaks from physical stress during brain development.