TOKYO -- In a world first, a pipelike "miniature intestine" has been created using human iPS (induced pluripotent stem) cells ...

Briola and co-authors determined the structure of the human CTF18 clamp loader bound to PCNA to high resolution, analyzed the structure, and tested a new mechanism involving a human-specific Ctf18 ...

Researchers from the Organoid group (previously Clevers group) at the Hubrecht Institute have developed a new organoid that ...

Australian-led research is unlocking new ways for immunotherapy to better target cancer. Cancer immunotherapy has ...

Anyone who's healed from a cut or a scrape has witnessed the incredible regenerative power of stem cells. These cells can create identical copies of ...

Millions of people around the world are affected by retinal degenerative diseases. In most cases, loss of vision is caused by ...

Researchers have developed a new organoid that mimics the human fetal pancreas, offering a clearer view of its early development. The researchers were able to recreate a complete structure that ...

Researchers have developed a new organoid that mimics the human fetal pancreas, offering a clearer view of its early development.

In the case of Deinococcus radiodurans, this principle plays out in dramatic fashion. The bacterium shrugs off massive doses of radiation because its proteins are shielded by manganese-based ...

The inner lining of the small intestine nearly doubles in size during pregnancy and breastfeeding, according to new research in mice and human tissue.