“Jailbreaking” your smartphone is one thing—but what if you could jailbreak nature itself?
3D printed blood vessels allow easy monitoring and experimentation
Paper: ECM-based microchannel for culturing in vitro vascular tissues with simultaneous perfusion and stretch Journal: Lab on a Chip Authors: Azusa Shimizu, Wei Huang Goh, Shun Itai, Michinao Hashimoto, Shigenori Miurad and Hiroaki Onoe Year: 2020 Featured Image: Jesus Leonardo Rondon Tapia–Creative Commons License Inflammation or…
A new link between the gut microbiome and ourselves
Sphingolipids – a new gut microbiota molecule that impacts host health
Harnessing an enzyme’s full potential by locking it in a protein cage
Researchers use a naturally crystalline protein to act as a cage to hold another enzyme. This assembly can then be used to turn waste cooking oil into biodiesel.
Catching it Early: New Ways of Detecting Coronavirus
Coronavirus has affected every one of us directly or indirectly. Early detection can lower the spread of the disease. Let’s learn about a new technique for rapid detection of SARS-CoV-2, the virus responsible for COVID-19.
A Closer Look At The Walls of The Toughest Microbes
Mycobacteria are tough, pathogenic microbes that shield themselves with a hardy envelope known as the mycomembrane. Little is still known about the proteins that build or interact with this envelope, but these researchers are up to the challenge.
Better Antibiotics: Active in the Body, Degraded in the Environment
Antibiotics are lifesaving, but current practices don’t keep them from accumulating in the environment where they can damage nature and human health. A new antibiotic design aims to solve this problem.
Expanding the Chemical Toolkit to Study Immune Cells
Their highly specialized roles of immune cells also mean they have molecular machineries that are a bit different from those in other cells, Find out here how researchers are using chemistry to advance our knowledge of one of such components, the immunoproteasome.
Modifying Nature’s Biomachines: Putting Hats on Sperm Cells
Micromachines that can swim through the bloodstream could be a powerful tool to deliver essential medicine. But why design synthetic micromotors when one already exists in biology?
A color-changing band-aid for an ever-changing microworld
As infectious bacteria get more sophisticated in their survival strategies, it’s time our countermeasures did too.
Chemistry & COVID-19
The COVID-19 pandemic is consuming our news feed at the moment – while you’re self-isolating read about some of the great science research going on to combat our newest virus.
Putting chemists out of business- the immunotherapy revolution
The development of chemotherapy revolutionised the treatment of cancer in the 20th century, however, side effects have remained problematic. Immunotherapy, using the body’s natural immune system to fight cancer, may be a safer and more effective alternative.
Bacteria surviving antibiotics by being phenotypically different from their moms and sisters
Bacteria evading antibiotics by behaving differently than their mother and sister cells
Tackling Diabetes with Nanoparticles
Diabetes Mellitus affects 8.5% of the world adult population and tackling it requires systematic dosing. Researchers have developed a unique NP that can substantially decrease the dosage of insulin and increase patient compliance.
Downstream Effects of Adding Hydrochar Nutrients to Soil
Thermochemical degradation of plant matter can create a great plant fertilizer called hydrochar. But what effect does this hydrochar have on the soil ecosystem?
A brain found in glass pieces
Archaeologists in Herculaneum, in the south of Italy, discovered a black, glassy material that turned out to be… a human brain.
Seeing the Invisible
Ever wondered how scientists know what is going on inside a cell, or how you could design a chemical probe to tell you more? There’s a lot of things to consider, find out more here.
Stitching proteins together, piece by piece
New technology developed to build larger proteins
Rapidly Developing Disease-Specific Detection Methods
Antibodies in your body help fight disease by specifically targeting a viral or bacterial strain. This specificity makes antibodies useful for disease detection, but how do scientists reduce the chance of false positives and false negatives?
Controversial Mushrooms Can Be Useful After All
With a renewed interest in psilocybin — the psychedelic substance present in magic mushrooms — by the medical community, the Weng group at MIT sets up to study one of the enzymes that makes it.
How Long Do Nanoparticles Stay in the Body?
As nanotechnology is developed into drugs for human health, scientists need to study nanoparticle clearance rates from the body.
Seeking inspiration from nature to treat opioid addiction
Researchers have looked at the biosynthetic pathways in plants to help them synthesise the potential anti-addiction agents ibogaine and voacangine.
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.
More than just our genetic code: how chemical modifications affect gene expression
DNA is the instruction manual for how to produce an organism, one gene at a time. But our heart cells, liver cells, and brain cells are different, despite having the same DNA, thanks in part to the “epigenetic” modifications that control which genes are expressed.
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.