Prof. Edward Boyden speaks with Boston Globe reporter Murray Carpenter about how scientists need more powerful computers to help gain a better understanding of brain function. “The cool part of neuroengineering is that we have all these unmet needs,” Boyden says. “I think there is an enormous amount of hope generated by bringing new tools into neuroscience.”
In this video, Prof. Edward Boyden speaks with The Huffington Post about how sleep and meditation impact people on a neurological level. Boyden says that traditions such as mediation can “help us be more attuned to what our mind really wants.”
BBC News reporter Michelle Roberts writes that MIT researchers have fine-tuned the CRISPR-Cas9 genome editing system to make it safer and more accurate. This development is "vital if it [CRISPR] is to be used in humans to cure inherited diseases or inborn errors,” explains Roberts.
CNBC reporter Robert Ferris writes that MIT researchers are developing a fabric that acts as a “second skin” and has vents that open when a person begins sweating. Ferris explains that, “the vents open and close by means of tiny bacteria borrowed from an unlikely place — Japanese cooking.”
STAT reporter Andrew Joseph writes about optogenetics and Prof. Edward Boyden’s work developing this technique for turning neurons on and off. “There are just huge frontiers out there for which optogenetics will be one of our most powerful tools,” said Robert Desimone, director of the McGovern Institute.
Boston Globe reporter Felicia Gans writes that a number of MIT researchers have been honored “by the Breakthrough Prize organization, which honors scientists worldwide for their pioneering research.”
Prof. Edward Boyden has been honored as one of the recipients of the Breakthrough Prize, reports Sarah McBride for Reuters. Boyden is being recognized for his work “developing and implementing optogenetics,” writes McBride, which could open “a new path to treatments for Parkinson’s, depression, Alzheimer’s and blindness.”
Tina Casey reports for Popular Science that several MIT researchers have been honored with Breakthrough Prizes. Casey writes that Prof. Edward Boyden was honored for his work creating optogenetics, Prof. Joseph Formaggio and his team were honored for their research on neutrinos, and Profs. Larry Guth and Liang Fu won New Horizons Prizes.
In an article for The New Yorker, Michael Specter writes about Prof. Feng Zhang and his work with CRISPR. Specter writes that Zhang was first inspired to pursue a career in science when he attended Saturday morning molecular biology classes as a middle school student. Zhang recalls that the class, “really opened my imagination.”
STAT reporter Sharon Begley profiles Prof. Feng Zhang. Begley writes that Zhang’s “discoveries could finally bring cures for some of the greatest causes of human suffering, from autism and schizophrenia to cancer and blindness.”
In this BBC News segment, Prof. Robert Langer, winner of the Queen Elizabeth Prize for Engineering, discusses his work exploring how to get the human body to respond to vital drugs. Langer explains that his approach to medicine is to “come up with engineering solutions to different medical problems.”
MIT researchers have engineered viruses that take advantage of quantum physics, mimicking the process of photosynthesis, to enhance energy transfer, reports Alexandra Ossola for Popular Science. The work could result in “solar panels that transmit energy with unprecedented efficiency,” writes Ossola.
Alexandra Ossola writes for Popular Science that MIT researchers have found a molecule that could make the CRISPR gene-editing technique more precise. The new molecule “makes the editing process easier to control and could create new possibilities for how scientists can edit DNA in the future.”
Boston Globe reporter Sharon Begley writes that Prof. Feng Zhang has uncovered enzymes that could be used to edit genes more precisely than the proteins currently used by CRISPR. Begley explains that the discovery means that CRISPR could become an “even more powerful tool to reveal the genetic defects underlying diseases and to perhaps repair them.”
In an article for Wired, Sarah Zhang writes that MIT researchers have identified a new gene-editing system that could prove more effective than current techniques. The new system involves, “a different protein that also edits human DNA, and, in some cases, it may work even better than Cas9,” the protein used for DNA editing.