A Scripps team has adapted advanced imaging and computation to measure cell membrane thickness inside intact animal and yeast ...

Scientists have long known that cellular membranes vary in thickness, but measuring those differences inside actual cells has ...

Precise methods for shredding or repairing and replacing specific cancer-causing proteins in a malignant cell, developed at ...

Membrane proteins play an essential role in countless biological processes and are pivotal targets in drug discovery. However, their inherent amphipathic nature necessitates the development of ...

Nanodiscs have emerged as a transformative platform for the study of membrane proteins, offering a native‐like lipid bilayer environment that preserves protein structure and function outside of the ...

Dairy processors are increasingly turning to advanced membrane technologies to boost product yield while maintaining ...

Researchers have developed an economical random fractional 13C labeling strategy using methanol for eukaryotic membrane proteins expressed in yeast. This method significantly improves spectral ...

Cellular membrane proteins play many important roles throughout the body, including transporting substances in and out of the cell, transmitting signals, speeding up reactions and helping neighboring ...

Cellular membrane proteins play many important roles throughout the body, including transporting substances in and out of the cell, transmitting signals, speeding up reactions and helping neighboring ...

Cancer cells have softer membranes than healthy cells. New nanoparticles exploit this physical difference to fuse selectively ...

To stay healthy, our cells rely on a self-cleaning mechanism that removes defective or unnecessary components. This process, ...

Precise methods for shredding or repairing and replacing specific cancer-causing proteins in a malignant cell, developed at the University of Massachusetts Amherst, could have applications beyond ...