A protein that helps generate the force needed for single cells to move works differently in cells moving in groups, a new study shows. A protein that helps generate the force needed for single cells ...

Scientists have discovered how chemokines and G protein-coupled receptors selectively bind each other to control how cells move. Scientists from St. Jude Children's Research Hospital and the Medical ...

Under the microscope, MSK scientists studied how cells in a mouse embryo (green) move out and break away from their original tissue by contracting their surfaces (red). Studying this process, known as ...

Studying cell migration is vital because it plays a crucial role in many biological processes, including immune response, wound healing, and cancer metastasis. Understanding how cells move and behave ...

Human immune cells are capable of coordinating their own movement more independently than previously thought. InFLAMES researcher Jonna Alanko has discovered that immune cells do not just passively ...

As you read this sentence, trillions of cells are moving around in your body. From the red blood cells being pumped by your heart, to the immune cells racing across your lymphatic system, everything ...

In mechanobiology, cells' forces have been considered fundamental to their enhanced function, including fast migration. But a group of researchers in the McKelvey School of Engineering at Washington ...

Senior co-corresponding author M. Madan Babu, PhD, FRS, St. Jude Senior Vice President of Data Science and Center of Excellence for Data-Driven Discovery director, Department of Structural Biology and ...