Living systems such as cells rely on membrane pores and channels to transport molecules, exchange signals, and organize biochemical reactions. These functions emerge from dynamic interactions between ...

Researchers used DNA nanotechnology to build a synthetic membrane that mimics cell pores, enabling coordinated transport and ...

A nanobody that stabilizes mutant CFTR from inside the cell, especially when combined with existing drugs, restores ...

Researchers say findings may have relevance to understanding cell biological pathways that contribute to nerve repair after ...

A new review details how covalent organic frameworks form continuous proton channels in fuel cell membranes, boosting ...

Study reveals how Golgi proteins GOLPH3 and MYO18A route RTKs to the cell surface, setting oncogenic signaling strength and ...

So-called rock-eating microorganisms obtain their energy to convert carbon dioxide (CO2) from inorganic sources and make up the vast majority of biomass producers. Using electron microscopy and ...

Membrane proteins present significant technical challenges in drug discovery, yet their role in biology make them highly ...

Researchers developed a custom flow cell and imaging system that enables real-time mapping of the chemical reactions driving ...

How can the production and regulation of proteins in healthy and diseased cells be influenced by specifically targeting mRNA molecules? This question ...