A team at Griffith University's Institute for Glycomics has made a scientific discovery that will change the way scientists explore vaccine development and drug discovery for infectious diseases.
A team of researchers at UC San Francisco has devised a new approach for early stage drug discovery that uses techniques from the world of computer vision in combination with a powerful new tool: a lineage of genetically ...
Engineers at the University of Sheffield have discovered that tiny spherical bead-like devices can be guided by physical structures while swimming inside fluids. This opens up a wealth of future possibilities, such as using ...
Researchers at the University of Georgia have developed a model for evaluating a potential new strategy in the fight against drug-resistant diseases.
Researchers at the University of Waterloo have discovered a new way to create designer proteins that have the potential to transform biotechnology and personalized medicines.
Researchers at Brigham Young University have devised a system to speed up the process of making life-saving vaccines for new viruses.
Using steam to control complex chemistry heralds the next generation of heat sensitive smart gels for medicine.
Purdue researchers have devised a way to capture the finer details of complex cell processes by using tiny synthetic particles known as dendrimers, a technology that could lead to more targeted treatment for cancer.
Researchers at North Carolina State University have used computational modelling to shed light on precisely how charged gold nanoparticles influence the structure of DNA and RNA – which may lead to new techniques for manipulating ...
Washington State University researchers for the first time have discovered how electrical stimulation works for the treatment of bacterial infections, paving the way for a viable alternative to medicinal antibiotics.