These images captured using high-speed atomic force microscopy, represent the snapshots of the protein substrate getting translocated through the SecYEG-SecA complex. The left image indicates the ...

Respiratory supercomplex formation relieves molecular strain of mitochondrial membranes and reshapes global protein motions, linking membrane reorganization to respiratory function.

Membrane proteins are key targets for therapeutic intervention using antibody biologics. Over 60% of FDA-approved drugs act on these proteins. Studying them is challenging because the proteins must be ...

Membrane proteins are the gateway to cells and are involved in many critical functions. Each membrane protein is unique, and their complexity makes it difficult to fit into a standardized expression ...

Located at the cellular interface, membrane proteins play critical regulatory roles in the signaling between a cell and its interacting environment, making them popular and ideal drug targets.

Cellular membrane proteins play important roles in cellular transport, signaling, and cell-to-cell communication. Malfunction in membrane proteins can lead to serious diseases, such as cancer. However ...

Nuclera, the biotechnology company accelerating protein expression and optimization through its benchtop eProtein Discovery™ system, today announced the addition of a new membrane protein workflow to ...

Researchers from the National University of Singapore (NUS) have successfully applied cryo-electron microscopy (cryo-EM) to unveil the molecular structures of critical protein machines that transport ...

Membrane proteins are crucial for numerous biological processes and serve as important drug targets. For decades, scientists have relied on detergents to extract membrane proteins from cell membranes ...