Until now, conventional 3D cell cultures have often been either too rigid or too unstable to realistically reproduce the complex interactions between brain cells. Researchers at Kiel University (CAU) ...

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 ...

Single-cell omics is a transformative area within life sciences, enabling researchers to untangle cellular heterogeneity, uncover developmental lineages, ...

A team led by HHMI Hanna Gray Fellow Shan Meltzer has created a detailed, cell-by-cell map of the spinal cord that offers a new framework for understanding chronic pain and provides a powerful new ...

Researchers at Johns Hopkins Medicine say they have used a "zap-and-freeze" technology to watch hard-to-see brain cell communications in living brain tissue from mice and humans. Findings from the new ...

Moleculent’s platform makes it possible to detect cell-cell interactions and study their communication directly in their native tissue environment. By mapping interactions across many receptor-ligand ...

Cell-cell communication, as the "conductor" of physiological activities, transmits information through signaling molecules, coordinating development, immunity, and homeostasis. During embryonic ...