In certain contexts, the Notch receptor may participate in “reverse signaling,” influencing neighboring cells directly.

New simulator and computational tools generate realistic ‘virtual tissues’ and map cell-to-cell ‘conversations’ from spatial transcriptomics data, potentially accelerating AI-driven discoveries in ...

Scientists at Houston Methodist have developed an artificial intelligence platform that can decode how cells communicate ...

Researchers have developed a new nanoscopy technique that has uncovered previously hidden networks used by cells to ...

Like schools of fish and flocks of birds, our cells can also migrate collectively in coordination with their neighbors. This ...

A new nanoscopy technique developed at The Australian National University (Canberra, Australia) has uncovered hidden networks used for cell-to-cell communication, opening new ways to understand human ...

Researchers developed a label-free nanoscopy technique that captures living cells interacting in real time, revealing hidden ...

An interdisciplinary team of scientists has developed a technology to decode immune cell communication. By measuring interactions between cells, the method offers insights into how the human body ...

T cell activation—the process by which these key immune defenders recognize threats and mobilize against them—depends on exquisitely timed molecular signals. Now researchers have captured one of the ...

A 3D rendering showing the internal structure of an animal cell, with several round or wavy structures inside a border. It turns out that the redox state of a cell, such as the animal cell shown, is ...