A new way to make bacteria more sensitive to antibiotics
SMART researchers find exposing bacteria to hydrogen sulfide can increase antimicrobial sensitivity in bacteria that do not produce H2S.
SMART researchers find exposing bacteria to hydrogen sulfide can increase antimicrobial sensitivity in bacteria that do not produce H2S.
Bacteria linked to Crohn’s disease are difficult to grow in the lab, but MIT engineers have found a way.
Fund has launched a special summer round to spearhead projects addressing mental health, well-being, and racial justice at MIT.
The experimental drug has shown promise in early-stage clinical trials conducted in Singapore.
The company is developing treatments that restore gut bacteria in people struggling with a range of diseases.
MIT students explore algal water purifiers, programmable soil bacteria, and other biological engineering approaches to food and water security.
C3.ai Digital Transformation Institute awards $5.4 million to top researchers to steer how society responds to the pandemic.
In lab tests, virus-like DNA structures coated with viral proteins provoke a strong immune response in human B cells.
New molecule for imaging calcium in neurons reduces crosstalk from neighboring neurons.
Computational modeling yields a protein fragment that could bind to coronavirus spike proteins and destroy them.
Research projects will harness the power of artificial intelligence to positively impact human health.
A new platform that precisely quantifies antigens presented on cell surfaces may help researchers and clinicians improve the effectiveness of cancer immunotherapies.
Graduating seniors and recent alumni will spend upcoming year abroad on Fulbright grants.
Multi-institutional MassCPR initiative announces more than $16.5 million to support 62 Boston-area projects.
Discovery explains why some bacteria have been able to defend against phage therapy, opens new ways to overcome existing challenges.