Thomas Burton of The Wall Street Journal writes that MIT researchers were among those awarded the first research grants under President Obama’s new BRAIN Initiative. Burton writes that one of the MIT grants will go toward “determining which exact brain circuits are involved in generating short-term memories that influence decisions.”
Boston Globe reporter Deborah Kotz writes that MIT researchers have been awarded new grants from the National Institutes of Health to further brain research. “Biophysicist Alan Jasanoff received a grant to develop imaging agents for functional MRI imaging that would target the flow of calcium into and out of brain cells,” writes Kotz of one of the MIT grants.
MIT neuroscientists were among the recipients of new grants for brain research from the National Institutes of Health, reports Jon Hamilton for NPR. Hamilton explains that as part of one grant, “Researchers from the Massachusetts Institute of Technology will try to adapt functional MRI so that it can show the activity of individual brain cells.”
Loren Grush of Popular Science writes about a new type of antibiotic developed by MIT researchers that could help kill drug-resistant bacteria. “[T]he team developed their own gene-editing system, capable of turning off certain bacterial genes that spur antibiotic resistance,” Grush explains.
A team led by Professor Timothy Lu has developed a new class of antibiotic that can selectively kill bacteria based on their genes, reports Michael Eyre for BBC News. "This is an enabling toolkit for the basic scientists to now start probing these systems a little bit better,” says Lu.
Researchers at MIT have developed a waterproof glue based on the proteins that allow shellfish to cling to rocks, reports Brooks Hays for UPI. "We're trying to figure out if by adding other mussel foot proteins, we can increase the adhesive strength even more and improve the material's robustness," said Professor Timothy Lu.
Francie Diep writes for Popular Science about a new waterproof adhesive developed by Professor Timothy Lu’s team. “The glue, which works underwater, incorporates proteins that mussels normally use to adhere to rocks, jetties, and larger sea critters,” writes Diep.
CBS News reports that MIT engineers have identified several combinations of genes that make bacteria more vulnerable to antibiotics. This research could help in the fight against “superbugs,” drug-resistant bacteria that kill at least 23,000 people per year in the U.S.
Amanda Schaffer of The Atlantic writes about OpenBiome, a non-profit stool bank founded by MIT students Mark Smith and James Burgess. “When OpenBiome was established, my quality of life went through the roof,” says Amy Barto, a gastroenterologist at the Lahey Clinic.
Nicole Skinner writes for Nature about how MIT researchers have developed a new technique to test for malaria. The new method only requires a tiny droplet of blood to check for malaria and can provide a diagnosis within minutes.
In a piece for Forbes, Josh Wolfe interviews Prof. Edward Boyden about his work with optogenetics and his new research at MIT. “I’m very excited about these new kinds of microscopes that we’re building that allow you to map all the neural activity in a complete organism,” says Boyden of his current work.
MIT scientists have shown recycled lead can be used in solar cells, reports Popular Science’s Emily Gertz. “The group's work demonstrates that the perovskite created from the lead in just one old car battery could provide materials for 30 households-worth of solar energy cells,” writes Gertz.
Martin LaMonica writes for IEEE Spectrum about how MIT researchers have developed a system that uses car batteries to produce solar cells. “The beauty is that this new process is pretty interchangeable with the current production method,” says Prof. Angela Belcher.
Washington Post reporter Rachel Feltman writes that MIT engineers have developed a system that recycles batteries into solar cells. “We think it could be a competitor that’s easy to process, has rapidly increasing efficiency, and can be made in an environmentally friendly way,” says Prof. Angela Belcher.
David Pogue of the PBS show NOVA examines Professor Paula Hammond’s work developing a new type of vaccine that delivers a DNA patch via tiny microscopic needles. Using DNA as the vaccine is a “very unique but also very powerful” approach, Hammond explains.