Ion channels are narrow passageways that play a pivotal role in many biological processes. To model how ions move through these tight spaces, pores need to be fabricated at very small length scales.

A new understanding of how drugs are taken in by cells could impact the way drugs are administered to patients. In an Aug. 30 study published in Nature that details structural changes of the Transient ...

Cells send electrical impulses throughout the body, but electrophysiologists struggled to tune into these signals until the patch clamp technique was developed. Although biophysicist Bernard Katz from ...

A biomimetic synapse built from water droplets and biological ion channels achieves synaptic plasticity and performs machine learning tasks.

Researchers from Griffith University's National Center for Neuroimmunology and Emerging Diseases (NCNED) have made a discovery that could bring relief to those struggling with long COVID. In a ...

Axxam S.p.A., a premier provider of integrated early drug discovery services, and B'SYS GmbH, a specialist in ion channel biology, are pleased to announce a strategic collaboration focused on enabling ...

A faulty ion channel function is a consistent biological feature of Myalgic Encephalomyelitis/Chronic Fatigue Syndrome (ME/CFS), providing long-awaited validation for hundreds of thousands of ...

Researchers shrink solid-state nanopores to sub-nm size via voltage-driven precipitation/dissolution, creating tunable pores that mimic ion channels for studying confined ion transport.