AAU universities conduct a majority of the federally funded university research that contributes to our economic competitiveness, health and well-being, and national security. AAU universities are growing our economy through invention and innovation while preparing the next generation of scientists and engineers for global leadership. By moving research into the marketplace AAU universities are helping to create jobs, and provide society with new medicines and technologies.
A study by researchers at Duke University School of Medicine found that supplying healthy mitochrondra to damaged nerve cells can signifantly help millions managing pain from diabetic neuropathy and chemotherapy.
Researchers from the USF College of Marine Science are studying soft tissue samples from barnacles, oysters, and fish to better understand the state of contamination and its origins in Tampa Bay, Florida's largest estuary.
The advancement lays the groundwork for creating a library of sugar-recognizing proteins that may help detect and treat diverse illnesses.
The olfactory senses of ants help them hunt, detect outsiders, and know their role within a colony. In a new study, researchers have discovered how ants can switch one gene on out of hundreds to ensure their survival.
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In every agricultural region on Earth, huge amounts of the structural parts of crops -- things like cornstalks, sugar canes, beanstalks, and wheat stems -- are discarded because we haven't figured out a way to convert them into fuel. Plant scientist Daniel Cosgrove, who has devoted decades to studying the cell walls that make plant matter resistant to chemical conversion, thinks it doesn't have to be that way.
University of Oregon researchers "very bad day" in the lab leads to the development of a wireless sensor that can measure the amount of nitrogen in the soil saving growers millions.
In this Web edition of UT Game Changers on The Longhorn Network, Todd Humphreys addresses the current use and future potential of GPS technology.
Neural prosthetic devices implanted in the brain's movement center, the motor cortex, can allow patients with amputations or paralysis to control the movement of a robotic limb—one that can be either connected to or separate from the patient's own limb. However, current neuroprosthetics produce motion that is delayed and jerky—not the smooth and seemingly automatic gestures associated with natural movement. Now, by implanting neuroprosthetics in a part of the brain that controls not the movement directly but rather our intent to move, Caltech researchers have developed a way to produce more natural and fluid motions.
One illustrious career in computer sciences at the University of Wisconsin–Madison can be traced to an anxious mother, a cocktail party conversation, and a “dead boring” job — plus a fascination with low-level machine code, a subject that many computer scientists disdain.