A Jacobs School researcher is focused on learning more about how tight junctions form naturally — and how their breakdown can lead to disease.

Cells at the bottom of a liquid medium begin levitating, then hovering at a particular height. With no physical contact, an ...

Lipid nanoparticles (LNPs) are the delivery vehicles of modern medicine, carrying cancer drugs, gene therapies and vaccines ...

Abstract: In today’s competitive and fast-evolving business environment, it is critical for organizations to rethink how to make talent-related decisions in a quantitative manner. Indeed, the recent ...

Researchers at Rice University have engineered living cells to use a 21st amino acid that illuminates protein changes in real ...

Advanced tools and techniques are giving researchers a detailed look at the body’s defence system. From spotting single cells in action to improving or replacing animal models, the methods described ...

When biomedical researchers need to test their latest ideas, they often turn to engineered human tissue that mimics the responses in our own bodies. It's become an important intermediary step before ...

Stem cells are uniquely capable of self-renewal and differentiation into diverse cell types, making them fundamental for ...

Researchers uncover how cells develop and specialize, advancing prospects for regenerative dental treatments. Researchers at ...

Abstract: In the face of “double carbon”, “green energy” and other calls of the times, Solid Oxide Fuel Cell (SOFC) as a kind of environmentally friendly and efficient hydrogen power generation device ...

Innovative research transforms bone marrow transplantation, enhancing outcomes with mismatched and haploidentical donors, expanding access to life-saving treatments.

In this episode of the STEM Tea podcast, host AJ Hinton is joined by Brielle Ferguson (below, left), Assistant Professor in Genetics and Neurology at Harvard (MA, USA), and Angeline J. Dukes (below, ...