When a cell divides, it performs a feat of microscopic choreography—duplicating its DNA and depositing it into two new cells.

One of the most fundamental processes in all of biology is the spontaneous organization of cells into clusters that divide and eventually turn into shapes – be they organs, wings, or limbs. Scientists ...

National Institutes of Health (NIH) researchers have developed a digital replica of crucial eye cells, providing a new tool for studying how the cells organize themselves when they are healthy and ...

Spatial proteomics enables scientists to investigate protein organization at the subcellular, cellular, and tissue levels, including in pathological contexts. Using technologies that help researchers ...

Cellular organization, physiology & dynamics is a research area focused on understanding how cells are spatially structured, how their molecular components are functionally integrated, and how these ...

As we age, our cells don’t just wear down—they reorganize. Researchers found that cells actively remodel a key structure called the endoplasmic reticulum, reducing protein-producing regions while ...

Schematic of horizontal elongation in an optimized cell cluster. (a) Left: The final configuration of a simulation with randomly initialized parameters; right: The final simulation state after ...

Machine learning is helping neuroscientists organize vast quantities of cells’ genetic data in the latest neurobiological cartography effort.

(A) Schematic of the experimental design and analysis. Paracancerous and cancer tissues obtained from surgically resected DLBCLs were split and processed for scRNA-seq and spatial transcriptomics. (B) ...