New research describes how nerve cells and muscle cells communicate through electrical signals during development -- a phenomenon known as bioelectricity. The communication, which takes place via ...

As an embryo grows, there is a continuous stream of communication between cells to form tissues and organs. Cells need to read numerous cues from their environment, and these may be chemical or ...

Recently, Paul George, an assistant professor of neurology and neurological sciences at Stanford University, and his team applied insights from the field of developmental bioelectricity to regenerate ...

Bioelectrical gradients guide embryonic development by creating an electrical scaffold for tissue and organ growth. Researchers harness the power of bioelectricity to devise strategies for ...

A question left unanswered in a biologist’s lab notebook for 40 years has finally been explained, thanks to a little fish that couldn’t wriggle its tail. New research from the University of Oregon ...