Signaling is fundamental to how cells sense and respond to their environment—but in immune cells, those signals must be ...

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 ...

A light micrograph of a mouse embryo. RIKEN researchers have created synthetic molecular pathways that illuminate embryonic development. © ...

Antimicrobial resistance (AMR) poses a major global health challenge by compromising the effectiveness of current therapies for infectious diseases. While ...

New functional biology platform enables high-plex analysis of cell-cell interactions directly in patient-derived FFPE samples Techstart Early Access Program offers selected partners the opportunity to ...

New stem cell-based embryo model reveals previously unknown communication between early tissues that become the spine and muscles in the central part of the body. From the moment an embryo starts to ...

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 ...

Researchers found that intestinal tuft cells signal to crypt enterochromaffin cells by releasing acetylcholine, triggering serotonin release and activating a gut-to-brain vagal pathway during type 2 ...

Why do parasites cause loss of appetite? Scientists have identified a gut-to-brain signaling pathway involving tuft cells and ...

In regenerative medicine for autism, outcomes are shaped not only by the biological material used but also by the clinical ...