In a breakthrough with promising real-world applications, a team of Rutgers biophysicists, bioengineers, and plant biologists ...

New three-dimensional (3D) models of objects in space have been released by NASA's Chandra X-ray Observatory. These 3D models ...

During morphogenesis—the process by which living organisms take shape—cells collectively position themselves in specific ways ...

The image sequences provide new insights into how this cell structure forms, which could lead to innovations in plant-derived products such as renewable biofuels. Cell walls are made mostly of ...

Extracts made from parts of the cashew plant that are usually thrown away when the nuts are processed commercially were found to significantly limit the development of fat cells and the ...

Every time I see anything about cell biology, I get super impressed all over again. Each cell is a machine of insane complexity, orders of magnitude more intricate than anything humans have ever made.

Scientists apply principles of math and physics to unravel the mystery of how the endoplasmic reticulum, an organelle vital ...

3D cell models have gained attention for their ability to better mimic tumor characteristics, bridging the gap between traditional 2D cultures and in vivo models. Advances in 3D culture systems have ...

Human cell models may never be as good as ... works with organoids to study cardiovascular disease. Organoids are 3D multi-cellular aggregates that self-assemble into spatially organized structures.

Skeletal muscle organoids help scientists bypass bottlenecks in satellite cell production for muscle regeneration research.