CNET science writer Monisha Ravisetti spotlights MIT researchers who have successfully recorded the scale formation of butterfly wings during its transformation. “Understanding their schematics could ultimately benefit constructed materials like windows and thermal systems and even bring an ethereal quality to textiles,” writes Ravisetti.
Popular Science reporter Hannah Seo writes that MIT researchers have developed a way to watch and record how the microscopic scales on a butterfly’s wings grow and tile themselves as the butterfly develops inside its chrysalis. The researchers hope to “use butterfly scales as inspiration for the design of new materials,” writes Seo. “Butterfly scales have other fascinating properties such as water repellency and the ability to regulate temperature.”
ARS Technica senior writer Jennifer Ouellette spotlights MIT researchers who have successfully recorded the structural growth of butterfly wings inside its chrysalis for the first time. “A lot of these stages were understood and seen before, but now we can stitch them all together and watch continuously what’s happening, which gives us more information on the detail of how scales form,” says research assistant Anthony McDougal.
Researchers from MIT and the Smithsonian Conservation Biology Institute are developing a probiotic to cure amphibian chytrid fungus in frogs, reports Jennifer Zoon for Smithsonian Magazine.
Biobot Analytics, a startup founded by Mariana Matus ‘18 and Newsha Ghaeli ‘17, has raised $20 million in funding for its work with wastewater epidemiology, reports Carey Goldberg and Janet Wu for Bloomberg News. “This past year, wastewater epidemiology changed from being an obscure niche area of science to becoming a central pillar of the response to the Covid-19 pandemic,” says Matus. “And now, in the later stages of the pandemic, it’s becoming a central pillar of preparing for the next pandemic.”
Nature reporter Eric Bender spotlights MIT startup Kytopen, which has developed a microfluidic platform to create induced pluripotent stem (iPS) cells and other forms of cell therapy. We want to do minimally invasive surgery,” says Kytopen co-founder Prof. Cullen Buie.
New York Times reporter Steve Lohr spotlights the origin and history of MIT startup Gingko Bioworks, a synthetic biology company founded with a “shared belief that biology could be made more like computing with reusable code and standard tools instead of the bespoke experiments of traditional biology." Jason Kelly ’03, PhD ’08, one of the founders of MIT startup Ginkgo Bioworks and the company’s chief executive, explains that “the ultimate goal for Ginkgo is to make it as easy to program a cell as it is to program a computer.”
A new tabletop device developed by researchers from MIT and other institutions can identify Covid-19 variants in a person’s saliva, reports CBS Boston. “We tried to limit the number of user steps to make sure it was as easy as possible,” explains graduate student Devora Najjar.
WHDH spotlights how MIT and Harvard researchers are creating wearable biosensors that could be used to detect Covid-19 in a person’s breath. “At the end of the day, what we wanted to do was basically to blend both to potentially produce a product that was more easily incentivized patients to both wear a mask and to get tested,” explains Luis Soenksen of the Abdul Latif Jameel Clinic for Machine Learning in Health.
A new sensor developed by MIT and Harvard researchers can be embedded in a face mask and used to alert the wearer if they have Covid-19, reports CBS Boston. “Small disposable sensors can diagnose the wearer of the mask within 90 minutes," reports CBS Boston. "The technology has been used before to detect Ebola and Zika, but now researchers are embedding it into face masks and lab coats as a new method to safeguard health care workers.”
Researchers from MIT and Harvard have developed a new sensor technology that can be embedded in a face mask to detect whether the wearer has Covid-19, reports Pranshu Verma for The Boston Globe. “We worked hard, sometimes bringing nonbiological equipment home and assembling devices manually,” says Luis Soenksen of the Abdul Latif Jameel Clinic for Machine Learning in Health. “It was definitely different from the usual lab infrastructure we’re used to working under, but everything we did has helped us ensure that the sensors would work in real-world pandemic conditions.”
Researchers from MIT and Harvard have developed a face mask outfitted with sensors that can detect if the wearer has Covid-19, reports Adele Peters for Fast Company. “If testing and sensing at a biological molecular level could be done in a format that can follow people around instead of people having to go to the clinic, maybe you can encourage people to get more testing done,” says Luis Soenksen, a Venture Builder at MIT’s Abdul Latif Jameel Clinic for Machine Learning in Health.
Ginkgo Bioworks founders Jason Kelly PhD ’08, S.B. ’03 and Reshma Shetty PhD ’08 speak with Boston Globe reporter Scott Kirsner about the inspiration for and growth of the company, which is focused on manipulating genetic material to get living cells to perform new jobs. Shetty notes that the Ginkgo Bioworks team is “dedicated to making biology easier to engineer."
UPI reporter Brooks Hays writes that MIT researchers have developed a new technique for labeling and retrieving DNA files, “a breakthrough that could help shrink the carbon footprint of the rapidly expanding digital world.”
Prof. Linda Griffith joins Terry Gross of NPR’s Fresh Air to discuss how studying endometriosis could help unlock some of the mysteries of tissue regeneration. "The regeneration of the endometrium is weirdly not studied as much as it should be," she says. "But it's fascinating because you get about a centimeter of growth of tissue that has beautifully formed blood vessels, an immune system, all of the structures of the tissue — over a period of about two weeks."