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 ...

In the evolutionary history of life, the ability of a cell to separate its inner world from the external environment was an ...

Edward Lyman, associate professor in the departments of physics and astronomy, as well as chemistry and biochemistry, was recently published in the journal Nature Chemical Biology. The article, “When ...

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 ...

To permanently access this App Note for free, fill out the short form below. UVA-excited dyes on qTOWER iris qPCR platforms enable sensitive thermal shift assays for challenging hydrophobic and ...

UV-ready real-time PCR systems, together with alternative fluorescent dyes, facilitate sensitive and reliable thermal-shift ...

Scientists have engineered bacteria to produce designer proteins by smuggling artificial amino acids, enabling precise drug delivery and multifunctional applications.

Researchers have created nanoparticles that can remove disease-driving proteins while also delivering a chemotherapeutic or ...

A newly identified role for the neuronal MPS shows it controls nutrient uptake by acting as a gatekeeper. Its disruption ...

A lipid hidden within cells called phosphatidylserine reveals how the body initiates the removal of threats and cellular debris.