How a Small, Organic Molecule Reigns in the Immune System

Featured Image Source: Primary Source Info Title: S-glycosylation-based cysteine profiling reveals regulation of glycolysis by itaconate Authors: Wei Qin, Ke Qin, Yanling Zhang, Wentong Jia, Ying Chen, Bo Cheng, Linghang Peng, Nan Chen, Yuan Liu, Wen Zhou, Yan-Ling Wang, Xing Chen, Chu Wang Year: 2019…

Seeking inspiration from nature to treat opioid addiction

Paper: Biosynthesis of an Anti-Addiction Agent from the Iboga Plant. Scott C. Farrow, Mohamed O. Kamileen, Lorenzo Caputi, Kate Bussey, Julia E. A. Mundy, Rory C. McAtee, Corey R. J. Stephenson, Sarah E. O’ConnorJournal: Journal of the American Chemical societyYear: 2019Doi: Featured Image adapted…

Peering inside the cell

Everyday your cells are working overtime to keep you functioning. Learn how these researchers developed a new technique to peer through the crowded cell and study one individual protein.

Detergents are for more than washing dishes

Studying membrane-bound proteins requires stabilizing their structure outside of the membrane – otherwise they fall apart. But our analytical techniques have not risen to the challenge. Sadaf et al. pushes us forward by developing novel detergents for stabilizing membrane proteins.

What’s blacker than black?

There’s a new record holder for the world’s blackest material. Learn about how randomly oriented carbon nanotubes can be used to create a coating darker than anything else ever made!

The Smell of Success

Although skunks are nocturnal animals that prefer their own company, they won’t hesitate to spray potential predators, people or pets with fluid from their anal glands. For many years, these anal secretions have fascinated natural products chemists but repelled most of the rest of us. Learn about a new way to “de-skunk” from researchers at the University of Oklahoma.

Are Nanoparticles Getting Into Your Cells?

Scientists want to use nanoparticles to deliver drugs straight to where they’re needed in your body – but can the nanoparticles enter the right cells? A new model describes how to design nanoparticles that get to where they’re needed.

Draw your own circuits with liquid metal

Electrical circuits can be drawn, erased, and redrawn with ease on this new material that uses liquid metal particles suspended in a polymer network. Check out how it’s made and its potential uses in flexible electronics!