A global genetics study of over 2.5 million people shows Type 2 diabetes is driven by tissue-specific biological processes ...

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 ...

Researchers have developed two innovative tools to help us delve deeper into cell communication, offering spatial insight ...

More than 100 million people in the United States suffer from metabolic dysfunction-associated steatotic liver disease (MASLD ...

Spatial maps of various tissues and organs in aging mice have revealed new insights into the aging process. Aging is a process common to many animals; however, the complexity of aging means that there ...

Every day, your body replaces billions of cells-and yet, your tissues stay perfectly organized. How is that possible? A team of researchers at ChristianaCare's Helen F. Graham Cancer Center & Research ...

The complex 3D shapes of brains, lungs, eyes, hands, and other vital bodily structures emerge from the way in which flat 2D sheets of cells fold during embryonic development. Now, researchers at ...

Assembloids: A Versatile Platform for Human Tissue Modeling. This schematic illustrates the classification of assembloids based on four key assembly strategies—multi-region, multi-lineage, ...

Researchers have developed a method to direct stem cells to form specific structures. By triggering the expression of specific genes in mouse embryonic stem cells, synthetic organizer cells were ...

Spatial proteomics is the study of the spatial distribution of the proteins within cells and tissues. The subcellular localization of proteins is intrinsic to cellular function, making spatial ...

A large global genetics study shows that many key drivers of Type 2 diabetes operate outside the bloodstream. Scientists are ...