Machine learning discovers new sequences to boost drug delivery
MIT researchers employ machine learning to find powerful peptides that could improve a gene therapy drug for Duchenne muscular dystrophy.
MIT researchers employ machine learning to find powerful peptides that could improve a gene therapy drug for Duchenne muscular dystrophy.
New algorithm could enable fast, nimble drones for time-critical operations such as search and rescue.
Blocking a key enzyme could kill parasites that have evolved resistance to existing drugs.
Probabilistic programming language allows for fast, error-free answers to hard AI problems, including fairness.
A new adhesive that mimics the sticky substance barnacles use to cling to rocks may offer a better way to treat traumatic injuries.
The tabletop diagnostic yields results in an hour and can be programmed to detect variants of the SARS-CoV-2 virus.
Researchers find three immunotherapy drugs given together can eliminate pancreatic tumors in mice.
Technique for editing bacterial genomes can record interactions between cells, may offer a way to edit genes in the human microbiome.
Two research projects on the design of state-of-the-art hardware could one day power next-generation 5G and 6G mobile networks.
MIT-led research team fashions graphene foam into device that can extract uranium and other heavy metals from tap water.
Roundworms change the flow of material in and out of their mouths in response to bright light, revealing a new way for neurons to control muscle cells.
System could reclaim pure water from power plant cooling towers; at-scale prototypes tested on MIT facilities have proven effective.
People rarely vote after being incarcerated. Associate Professor Ariel White wonders what can be done about it.
New research using patent data could help inform decision-makers by predicting which technologies are improving the fastest.
Experiment with working poor in India finds no impact from more night sleep, though naps help; rest quality may be key.