AUSTIN, TX — A new form of proteins discovered by researchers at The University of Texas at Austin could drastically improve treatments for cancer and other diseases, as well as overcome some of the largest challenges in therapeutics: delivering drugs to patients safely, easily and more effectively.
The protein formulation strategy, discovered by chemical engineering faculty members and students in the Cockrell School of Engineering, is unprecedented and offers a new and universal approach to drug delivery — one that could revolutionize treatment of cancer, arthritis and infectious disease. (more…)
ANN ARBOR, Mich.— Why is the universe magnetized? It’s a question scientists have been asking for decades. Now, an international team of researchers including a University of Michigan professor have demonstrated that it could have happened spontaneously, as the prevailing theory suggests.
The findings are published in the Jan. 26 edition of Nature. Oxford University scientists led the research. (more…)
COLUMBIA, Mo. – A University of Missouri researcher has identified a new species of prehistoric crocodile. The extinct creature, nicknamed “Shieldcroc” due to a thick-skinned shield on its head, is an ancestor of today’s crocodiles. Its discovery provides scientists with additional information about the evolution of crocodiles and how scientists can gain insight into ways to protect the species’ environment and help prevent extinction. The discovery was published this week in the journal PLoS-ONE (Public Library of Science).(more…)
EAST LANSING, Mich. — A team of researchers led by Michigan State University has discovered an overachieving plant enzyme that works both the day and night shifts.
The discovery, featured in the current issue of Proceedings of the National Academies of Science, shows that plants evolved a new function for this enzyme by changing merely one of its protein building blocks. (more…)
Findings further efforts to better predict geomagnetic storms in space
UCLA researchers have explained the puzzling disappearing act of energetic electrons in Earth’s outer radiation belt, using data collected from a fleet of orbiting spacecraft.(more…)
It’s a researcher’s dream: a simple, noninvasive test to detect life-threatening cancer, heart disease, or other maladies while they’re still treatable.
A team of University of Minnesota researchers is in hot pursuit of that goal, using one of the simplest means imaginable: testing spit. They’ve discovered that conditions such as breast and oral cancer leak certain proteins into saliva, and if detected, such proteins can be “biomarkers” for the disease.(more…)
*MU researcher encourages capitalization on interest in screen-based technology, cautions against overuse*
COLUMBIA, Mo. – Children with autism spectrum disorders (ASD) tend to be fascinated by screen-based technology. A new study by a University of Missouri researcher found that adolescents with autism spend the majority of their free time using non-social media, including television and video-games.
“Even though parents and clinicians have often observed that children with ASD tend to be preoccupied with screen-based media, ours is the first large-scale study to explore this issue,” said Micah Mazurek, assistant professor in the School of Health Professions and the Thompson Center for Autism and Neurodevelopmental Disorders. “We found that 64 percent of adolescents with ASD spent most of their free time watching TV and playing video and computer games. These rates were much higher than among those with other types of disabilities. On the other hand, adolescents with ASD were less likely to spend time using email and social media.” (more…)
In a study that holds major implications for breast cancer research as well as basic cell biology, scientists with the U.S. Department of Energy (DOE)’s Lawrence Berkeley National Laboratory (Berkeley Lab) have discovered a rotational motion that plays a critical role in the ability of breast cells to form the spherical structures in the mammary gland known as acini. This rotation, which the researchers call “CAMo,” for coherent angular motion, is necessary for the cells to form spheres. Without CAMo, the cells do not form spheres, which can lead to random motion, loss of structure and malignancy.
”What is most exciting to me about this stunning discovery is that it may finally give us a handle by which to discover the physical laws of cellular motion as they apply to biology,” says Mina Bissell, a leading authority on breast cancer and Distinguished Scientist with Berkeley Lab’s Life Sciences Division. (more…)
