A computer model developed by researchers from Japan and Seattle's Allen Institute could lead to new methods for studying ...

Understanding how bone marrow produces blood–and how this whole process can fail–is critical to fighting blood cancers and ...

A new study provides a powerful way to study infections in environments that closely mimic human organs. The strategy, tested ...

Tumors trigger T-cell exhaustion through a TSP-1–CD47 signaling pathway. Blocking it can restore immune strength and improve cancer treatment.

Another finding the researchers report from their experiments is that microplastics triggered harmful gene activity in both ...

Researchers at the University created an AI model called EZSpecificity to test how certain enzymes and substrates bind to ...

Our gut microbiome is made up of trillions of bacteria and other microbes living in our intestines. These help our bodies ...

Researchers found that competition for nutrients plays a significant role in which bacteria thrive, diminish or disappear due to medication treatment, and used this knowledge to predict these effects.

Fred Hutch bioengineer Dr. Matthias Stephan is working to develop a special foam that could help make gene therapy for blood ...

Slicing up and analyzing real, living, three-dimensional brain tissue comes with some obvious complications – as in, it tends ...

The discovery of new cancer cells with a switched-on gene called ZBTB16 is a breakthrough in childhood blood cancer research.

Common medications can unsettle the gut microbiome. Predicting these changes may help scientists design treatments that reduce side effects.