Graduate student Samantha Hasler and her colleagues have gathered new information on Uranus using the Hubble Space Telescope and the New Horizons spacecraft, reports Jamie Carter for Forbes. "Studying how known benchmarks like Uranus appear in distant imaging can help us have more robust expectations when preparing” for future missions, explains Hasler.
Prof. Evelina Fedorenko speaks with Scientific American reporter Gary Stix about her research demonstrating that “language and thought are, in fact, distinct entities that the brain processes separately.” Speaking about how large language models could be used to help scientists better understand the neuroscience of how language works, Fedorenko explains that "there are many, many questions that we can now ask that had been totally out of reach: for example, questions about [language] development.”
Writing for Fast Company, Senior Lecturer Guadalupe Hayes-Mota SB '08, MS '16, MBA '16, explores new approaches to improve the drug development process and more effectively connect scientific discoveries and treatment. “Transforming scientific discoveries into better treatments is a complex challenge, but it is also an opportunity to rethink our approach to healthcare innovation,” writes Hayes-Mota. “Through cross-disciplinary collaboration, leveraging AI, focusing on patient-centered innovation, and rethinking R&D, we can create a future where scientific breakthroughs translate into meaningful, accessible treatments for all.”
Prof. David Kaiser and San Francisco Ballet principal dancer Sasha De Sola participate in a dialogue hosted by the Scientific Inquirer that bridges the “boundaries between movement, spacetime, and human expression.” In a wide-ranging discussion, Kaiser and De Sola explore "the intersection of ballet, physics, and human creativity, exploring time’s influence on innovation."
Researchers at MIT and elsewhere have found a connection between “the bursts and tidal disruptions events” of black holes, research that could help "astrophysicists understand the extreme environments around supermassive black holes, as well as the occupants of those environments,” reports Isaac Schultz for Gizmodo. “There had been feverish speculation that these phenomena were connected, and now we’ve discovered the proof that they are,” says Research Scientist Dheeraj Pasham. “It’s like getting a cosmic two-for-one in terms of solving mysteries.”
Researchers at MIT have developed GenSQL, a new generative AI system that can be used “to ease answering data science questions,” reports Allison Proffitt for Bio-It World. “Look how much better data science could be if it was easier to use,” says Research Scientist Mathieu Huot. “It’s not perfect yet, but we believe it’s quite an improvement over other options.”
Prof. Kerry Emanuel speaks with Associated Press reporter Terry Spencer about Tampa Bay’s vulnerability to incoming hurricanes. “It’s a huge population,” explains Emanuel. “It’s very exposed, very inexperienced and that’s a losing proposition. I always thought Tampa would be the city to worry about most.”
The 2024 Nobel Prize in Physiology or Medicine has been awarded to Victor Ambros '75, PhD '79 and Gary Ruvkun for the discovery of microRNA, “a tiny class of RNA molecules that play a crucial role in determining how organisms mature and function – and how they sometimes malfunction,” reports Teddy Rosenbluth and Derrick Bryson Taylor for The New York Times. Ambros and Ruvkun “had been postdoctoral fellows at the same time at Massachusetts Institute of Technology,” they explain . “As they studied C. elegans, they at first felt a smidgen of friendly competition as they each started their own labs in the Boston area, Dr. Ambros said.”
Victor Ambros '75, PhD '79 and Gary Ruvkun have won the 2024 Nobel Prize in Physiology or Medicine for the discovery of microRNAs, report Mark Johnson and Lizette Ortega for The Washington Post. “Ambros and Ruvkunhad worked together as postdoctoral researchers in the lab of Nobel laureate and MIT Professor Robert Horvitz. “What the microRNAs really end up revealing for us is a way that parts of our genome can communicate with other parts of the genome,” says Ambros. “The significance of this discovery of microRNAs is that it allowed us to be aware of a very complex and nuanced layer of regulation whereby genes in our cells talk to each other.”
Victor Ambros ‘75, PhD ‘79 and Gary Ruvkun have won the 2024 Nobel Prize in Physiology or Medicine for “their groundbreaking work on how genes behave,” reports Patrick Smith for NBC News. Ambros and Ruvkun, who worked as postdocs in the lab of Professor H. Robert Horvitz in the late 1980s, discovered how microRNA molecules play a key role in gene regulation. "The pair sought to explore how nerve cells and muscle cells, for example, have very different characteristics despite having the same genetic information," writes Smith.
A new study by MIT scientists proposes that researchers should be able to detect near-flying primordial black holes by measuring the orbit of Mars, reports Darren Orf for Popular Mechanics. The researchers found that “if a primordial black hole passed within a few hundred million miles of the Red Planet, then a few years later, the planet’s orbit would have shifted by the small (but technically detectable) distance of about a meter,” Orf explains.
Prof. Kerry Emanuel speaks with Washington Post reporters Sarah Kaplan, Shannon Osaka and Dan Stillman about the future of hurricane forecasting. “This is one thing that scares me, if these things can intensify more rapidly,” says Emanuel. “We’re going to have cases where forecasters go to bed with a tropical storm and wake up with a Category 5 when it’s too late to evacuate people.”
A new study by MIT researchers suggests that “Mars’ missing atmosphere may be locked up in the planet’s clay-rich surface,” reports Tom Howarth for Newsweek. “According to the researchers, ancient water trickling through Mars' rocks could have triggered a series of chemical reactions, converting CO2 into methane and trapping the carbon in clay minerals for billions of years,” explains Howarth.
MIT physicists have discovered that "black holes the size of an atom that contain the mass of an asteroid may fly through the inner solar system about once a decade” and could cause planets or large moons slightly off course, reports Clara Moskowitz for Scientific American “As it passes by, the planet starts to wobble,” says Sarah R. Geller '12, SM '17, PhD '23. “The wobble will grow over a few years but eventually it will damp out and go back to zero.”
Postdoctoral research Wenxuan Jia PhD '24 and colleagues at the Laser Interferometer Gravitational-Wave Observatory (LIGO) have developed a way to reduce the impact of quantum noise by squeezing the laser light used in the detectors, enabling scientists to double the number of gravitational waves they can find, reports Karmela Padavic-Callaghan for New Scientist. “We realized that quantum noise will be limiting us a long time ago,” says Jia. “It’s not just a fancy [quantum] thing to demonstrate, it’s something that really affects the actual detector.”