Analyzing the potential of AlphaFold in drug discovery
Study finds computer models that predict molecular interactions need improvement before they can help identify drug mechanisms of action.
Study finds computer models that predict molecular interactions need improvement before they can help identify drug mechanisms of action.
International firms sharing production networks lobby together to secure favorable trade conditions.
A new model that maps developmental pathways to tumor cells may unlock the identity of cancers of unknown primary.
At MIT, social networks with “weak ties,” which help foster new ideas, declined during the Covid-19 pandemic, researchers report.
MIT researchers find that changing the pH of a system solves a decades-old problem.
Day and night, and across seasons, the instrument generates breathable oxygen from the Red Planet’s thin atmosphere.
MIT neuroscientists have identified an oscillatory circuit that controls the rhythmic movement of mouse whiskers.
On its own, a new machine-learning model discovers linguistic rules that often match up with those created by human experts.
Separating densely packed molecules before imaging allows them to become visible for the first time.
John David Minnich seeks to understand how trade policies fueled China’s rise and continue to determine geopolitical winners and losers.
Developed by the Singapore-MIT Alliance for Research and Technology, the assay can provide new details about the type of SARS-CoV-2 circulating in a community.
MIT scientists have discovered a population of neurons that light up whenever we see images of food.
Research reveals cells that span brain hemispheres to coordinate activity in visual processing centers, shows Alzheimer’s degrades their structure and function.
MIT engineers are controlling pore openings for maximum molecule capture.
Lincoln Laboratory Supercomputing Center dataset aims to accelerate AI research into managing and optimizing high-performance computing systems.