Cells can be thought of as cities, with factories, a transport system, and lots of building activity. An international team ...

Intracellular transport is a vital process that allows cells to move proteins and other molecules to specific locations. This ...

When cells experience enough chronic stress, they can stop dividing permanently. In this state of cellular limbo, known as ...

Germany-based Eberspächer has developed a system to reduce visible steam emissions from mobile fuel cell applications, aiming ...

Stockholm University and SciLifeLab research uncovers how glucose transporters achieve specificity, bridging a long-standing ...

Precise intracellular transport is essential for neuronal function, yet the exact mechanism of selective cargo delivery by ...

A single-atom nanozyme mimicking cytochrome c oxidase restores mitochondrial energy production in stem cells, shifting their ...

Cells aren’t as passive as scientists once thought—they actively create internal currents to move proteins quickly and ...

Indian scientists have fabricated perovskite mini-modules with reduced graphene oxide interface engineering, achieving 16.6% efficiency and over 1,300 hours of stable operation. The graphene oxide ...

Intracellular transport is a vital process that allows cells to move proteins and other molecules to specific locations.

A polymeric cobalt phthalocyanine interface directs anion decomposition and accelerates lithium-ion transport, enabling ...

How do neurons transport proteins? A new study reveals that Kinesin-2 motor subtypes regulate cargo specificity.