MIT researchers have discovered a new family of viruses in the ocean that appears to play a key role in ocean ecosystems and could help provide insights on how viruses evolve, reports Marin Finucane for The Boston Globe. Finucane explains that the findings could also lead to, "a better understanding of human biology.”
In an article for the Financial Times about the best economics books of 2017, Martin Wolf highlights new works by Prof. Andrew Lo and Prof. Peter Temin. Wolf writes that in Temin’s “important and provocative book, [he] argues that the US is becoming a nation of rich and poor, with ever fewer households in the middle.”
In an article published by U.S. News & World Report, Robert Preidt writes that MIT researchers have identified a mechanism that helps the flu viruses evolve rapidly. “Blocking flu viruses from using the host cells' chaperones could help prevent the viruses from developing resistance to existing drugs and vaccines,” says Preidt.
MIT researchers have potentially discovered a way to prevent the flu virus from evolving to resist vaccines and treatment, reports Alyssa Meyers for The Boston Globe. The researchers are also, “testing HIV and other rapidly mutating viruses to see if inhibiting chaperones could prevent those viruses from mutating and becoming treatment-resistant.”
UPI reporter Brooks Hays writes that MIT researchers have developed a set of mathematical equations to help identify patterns that can lead to extreme events. “If researchers can anticipate the warning signs of extreme events, mitigation efforts could be instigated sooner, potentially preventing loss of life and property,” Hays explains.
Susan Erdman, a principal research scientist at MIT and assistant director of MIT’s Division of Comparative Medicine, writes for STAT about her research examining whether the microbiome helped drive human evolution. “Thanks to our growing understanding of the human microbiome, it could represent a thrilling example of evolutionary symbiosis that has mutually benefitted humans and their microbial passengers.”
Scientists at MIT and Brown University have discovered the origin of the Orientale basin, the oldest crater on the Moon, according to EFE. The impact of an asteroid 3.8 billion years ago formed a crater that has since “collapsed under the rock fractures and its temperatures forming three concentric rings visible today.”
A new study by MIT researchers suggests that sea sponges may have been the first animal on Earth, CBS Boston reports. “Based on new genetic tests, researchers can say with confidence that molecules produced by sea sponges have been found in 640 million-year-old rocks.”
In a piece for the BBC about birdsong, Angela Saini highlights Prof. Shigeru Miyagawa’s research that shows human language could have evolved from birdsong. Miyagawa's theory suggests that "human language relies on two distinct systems, both of which had previously evolved in simpler animals."
Brett Smith reports for redOrbit on a new study by Prof. Shigeru Miyagawa on the development of human language. Miyagawa explains his finds that the brain “at some point 75,000 to 100,000 years ago, hit a critical point, and all the resources that nature had provided came together in a Big Bang and language emerged pretty much as we know it today.”
Through a comprehensive comparison of genetic activity, MIT researchers have found that humans and birds share many of the same singing genes. "There's potential for songbirds to be used to study neurodegeneration – especially conditions like Huntington's," says Dr. Andreas Pfenning of MIT.
Malcom Ritter of the Associated Press reports on how scientists have developed a new family tree for most of the bird species alive today, providing new insight into evolutionary history. Research conducted by Dr. Andreas Pfenning “found that birds with this "vocal learning" ability share some similarities with humans in the activity of certain genes in the brain.”
New research by Professor Ann Graybiel may indicate that the FOXP2 gene in humans plays a major role in how we learn speech, writes Chris Higgins for Wired. Mice given the gene were able to learn their way through a maze more quickly than those without it.
Jacqueline Howard of The Huffington Post writes about research by Professor Ann Graybiel that looked at the effect of the human Foxp2 gene in mice. The work could lead to a greater understanding of how the human brain learns speech.
Sharon Begley of Reuters writes about Professor Ann Graybiel’s research on the effect of the human FOXP2 gene on mice. “By isolating the effects of one gene, the work sheds light on its function and hints at the evolutionary changes that led to the unique capabilities of the human brain,” writes Begley.