Researchers are continuing to explore how the CXCL13-to-BAFF ratio can be used to advance precision medicine for people with multiple sclerosis.

Gastric cancer cells can activate KRAS-driven signals, enabling autonomous tumor growth by producing their own WNT proteins. New research reveals how gastric cancer cells exploit WNT signaling for ...

UCSF researchers have discovered a way to identify deadly lung infections with improved accuracy by pairing AI with a unique ...

Researchers at the UNC School of Medicine and the UNC Eshelman School of Pharmacy have made a breakthrough that could ...

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

Large wild mammals—from elephants to antelopes—are already struggling to cope with global warming. Now new research shows ...

Molecular discoveries may help improve treatments for labor and pain. When labor starts, the uterus must produce steady, ...

Mice are indispensable in biomedical research due to their genetic and anatomical similarities to humans, short lifespans, ...

African striped mice are used to desert conditions but are showing dehydration as climate change heats up their environment.

Fixing the balance of a single brain circuit erased anxiety and social deficits in mice, revealing a powerful new target for ...

The pelvis is often called the keystone of upright movement. It helps explain how human ancestors left life on all fours ...

A long-term study has identified a potential biomarker that could help detect which patients are progressing toward more severe forms of multiple sclerosis.