A new Berkeley Lab-developed electron-beam imaging technique, tested on samples of nanoscale gold and carbon, greatly improves images of light elements. The technique can reveal structural details for materials that would be overlooked by some traditional methods.
Berkeley Lab researchers have developed the first clinically-relevant mouse model of human breast cancer to successfully express functional estrogen receptor positive adenocarcinomas.
This model should be a powerful tool for testing therapies for aggressive ER+ breast cancers and for studying luminal cancers — the most prevalent and deadliest forms of breast cancer.
It’s no secret that extremophiles, or microbes that live in places like polar glaciers and toxic waste pools, may hold treasures worth billions. Now basic biology research has led to the formation of CinderBio, a startup co-founded by Berkeley Lab scientists Steve Yannone and Jill Fuss that produces heat- and acid-stable enzymes.
Berkeley Lab and UC Berkeley researchers produced an atomic view of microtubules that enabled them to identify the crucial role played by a family of end-binding proteins in regulating microtubule dynamic instability, the physical property that enables microtubules to play a crucial role in cell division.
Berkeley Lab researchers report the first detailed characterization of the hydration structure of carbon dioxide gas as it dissolves in water to form carbonic acid. Though carbonic acid exists for only a fraction of a second, it imparts a lasting impact on Earth’s atmosphere and geology, and on the human body