Researchers at Nagoya University developed a phosphonic acid polymer with hydrophobic spacers for fuel cell electrolytes, ...

A new fuel cell electrolyte design using phosphonic acid polymers with hydrocarbon spacers allows efficient operation under ...

Cytoskeleton rearrangements promote formation of a giant structure called a GUVac that stops cells from dying when they become detached from the extracellular matrix.

E. coli with engineered cell membranes have enhanced catalysis capabilities which reduce energy use and make production more sustainable.

In this manuscript, Yao et al. present solid evidence to show that MnMYL3 may serve as a receptor for NNV via macropinocytosis. This manuscript is valuable for understanding the molecular mechanisms ...

"But having both a bilayer-forming lipid, which provides the basic structure for the cell membrane, and a non-bilayer-forming lipid, such as cholesterol, which adds stability, seems to be a ...

Almost 35% of drugs approved by the Food and Drug Administration work by targeting G protein-coupled receptors (GPCRs), ...

A research group led by Atsushi Noro at Nagoya University in Japan has announced a novel design concept for fuel cell ...

Researchers are shining a light on cancer cells' energy centers—literally—to damage these power sources and trigger ...

To overcome these challenges, a research group led by Atsushi Noro at Nagoya University in Japan has announced a novel design ...