Hidden inside every organ, microscopic fibers form a scaffolding that quietly shapes how we move, think, and heal. For the ...

For decades, this question has bewildered biologists. Now, by studying Placozoa, scientists at Stanford University have ...

Adipose tissue is increasingly recognised not merely as an inert energy reservoir but as a dynamic endocrine organ intricately involved in whole‐body metabolic regulation. Both white and brown ...

Molecular profiles that “zoom in” (to reveal the contents of single cells) and “zoom out” (to reveal cell-cell relationships in tissue samples) promise to transform medicine Brain metastases ...

The mystery of early embryonic communication is starting to be unraveled thanks to a new stem cell-based model.

Current high-plex approaches for studying single-cell biology, such as flow cytometry and single-cell RNA sequencing, reveal the cell populations present in a sample but are unable to characterize the ...

Spatial biology is a series of techniques with which scientists collect detailed cellular information and examine the positional context of cells in a tissue. Individual cells differentially use their ...

Like a phoenix rising from the ashes, our skin tissue—and in fact many types of epithelial tissue that lines and covers the ...

Scientists at Duke-NUS Medical School have developed two powerful computational tools that could transform how researchers study the "conversations" between cells inside the body. The tools, called ...

“Expression tells us what cells do, but regulatory DNA tells us where they come from, how they develop, and which germ layer ...

AI and large-scale datasets will unlock new biology learning via spatial omics. Provided byOwkin 37 trillion. That is the number or cells that form a human being. How they all work together to sustain ...