In The News: Department of Chemistry and Biochemistry
In a new study published this week in mSystems, an open-access journal of the American Society for Microbiology, researchers report that mice fed a high-protein, high-fat diet were more likely to acquire a deadly C. difficile infection than mice eating a standard diet. Their findings also suggest that a diet high in carbohydrates protects against infection.
In a new study published this week in mSystems, an open-access journal of the American Society for Microbiology, researchers report that mice fed a high-protein, high-fat diet were more likely to acquire a deadly C. difficile infection than mice eating a standard diet. Their findings also suggest that a diet high in carbohydrates protects against infection.
Diets like the Keto, Paleo and Atkins focus on high-fat, high-protein meals that are often low in carbohydrates. This mix may appeal to Clostridioides difficile bacteria, too.
Diets like the Keto, Paleo and Atkins focus on high-fat, high-protein meals that are often low in carbohydrates. This mix may appeal to Clostridioides difficile bacteria, too.
One of the major objections to nuclear energy has been the problem of radioactive nuclear waste. Although we have the capability to reprocess about 95 percent of the spent nuclear fuel from a reactor, the amount of highly radioactive waste that remains is nevertheless substantial. And that waste needs to be stored for hundreds of thousands of years before the toxic isotopes decay to a safe level.
Astronauts now print their own parts in space to repair the International Space Station. Scientists at Harvard just discovered a way to print organ tissue — an important step toward possibly creating 3D-printed biological organs. These are just two examples of how 3D printing, or additive manufacturing, is revolutionizing science and technology.
Argonne scientists look to 3D printing to ease separation anxiety, which paves the way to recycle more nuclear material.
Astronauts now print their own parts in space to repair the International Space Station. Scientists at Harvard just discovered a way to print organ tissue ― an important step toward possibly creating 3D-printed biological organs. These are just two examples of how 3D printing, or additive manufacturing, is revolutionizing science and technology.
Tech red, an enigmatic technetium compound that has resisted characterisation for half a century, has been identified using chemical detective-work and computer modelling. The molecule’s unusual chemistry may explain why it has proven so difficult to unmask.1
San Diego native Jacqueline Phan passed on opportunities to study in California so she could contribute to biochemistry research here in Las Vegas.