New experiments reveal how astrocytes tune neuronal activity to modulate our mental and emotional states. The results suggest ...

Abstract: The Internet of Nanothings (IoNT) enables in-body communication, but transmitting signals to external devices remains a key challenge. Neural communication provides a promising interface, ...

Schematic of an active cell membrane. In a typical active biological process, active proteins (shown in a variety of colors) in a cell membrane (shown in blue) interact with various biological ...

Researchers created artificial synaptic vesicles remotely controlled by near-infrared light. Local nanoscale heating modulates membrane permeability, enabling precise neurotransmitter release. These ...

Neurons are the specialized cells that allow our bodies to transmit impulses, like factories that process inputs. They send signals that help us catch a ball, recognize a favorite song or pull our ...

Human brain organoid studies demonstrated significant improvement in neuronal growth, morphology, and function These findings highlight the potential of the porosome – a central node in cellular ...

Based on the transmembrane-electrostatically localized protons/cations charges (TELCs) theory, neural transmembrane potential including both resting and action potential is now well elucidated as the ...

A breakthrough discovery reveals how the SLC45A4 gene fine-tunes polyamine transport in sensory neurons, reshaping our understanding of pain and opening new paths for targeted therapies. Study: ...

Abstract: With the advancement of the Internet of Nanothings (IoNT), information networks within organisms are becoming increasingly sophisticated, making the transmission of data from IoNT to the ...