Cell–cell communication is essential for tissue development, function and regeneration. The revolution of single-cell genomics technologies offers an unprecedented opportunity to uncover how cells ...

Cell-to-cell communication is essential throughout all forms and stages of life, and many communication mechanisms are well studied. However, over the past few years, scientists have found increasing ...

Cell-cell communication is fundamental for coordinating cellular activities, maintaining tissue homeostasis, and supporting physiological functions. This complex process is primarily mediated by ...

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 ...

When two cells "talk" to each other, they often do so through tiny channels called electrical synapses. Unlike chemical synapses, these so-called gap junctions enable the direct exchange of ...

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 ...

Launching a company in today’s competitive (and litigious) spatial biology market may seem risky. But the new company, Moleculent, located in Stockholm, Sweden, has a different focus than the spatial ...

Like the people they make up, cells communicate by bumping into one another and exchanging handshakes. Unlike people, cells perform these handshakes using the diverse range of sugar molecules coating ...

Messenger RNA can travel between different types of stem cells through tunnel-like structures, as revealed by a new study. By studying interactions between mouse and human stem cells, they discovered ...