Bionic enzymes got a needed boost in speed thanks to new research at Berkeley Lab. By pairing a noble metal with a natural enzyme, scientists created a hybrid capable of churning out molecules at a rate comparable to biological counterparts.
A research team led by Berkeley Lab material scientists has created a transistor with a working 1-nanometer gate, breaking a size barrier that had been set by the laws of physics. The achievement could be a key to extending the life of Moore’s Law.
Berkeley Lab researchers have compiled a comprehensive genome-wide map of more than 80,000 enhancers considered relevant to human heart development and function. They went on to test two of the enhancers in mice, showing that when the enhancers were missing, the heart worked abnormally.
When the local water management agency closes your favorite beach due to unhealthy water quality, how reliable are the tests they base their decisions on? As it turns out, those tests, as well as the standards behind them, have not been updated in decades. Now scientists from Lawrence Berkeley National Laboratory have developed a highly accurate, DNA-based method to detect and distinguish sources of microbial contamination in water.
A proposed upgrade to the Advanced Light Source—which would provide new views of materials and chemistry at the nanoscale with X-ray beams up to 1,000 times brighter than possible now—has cleared the first step in a Department of Energy approval process. The upgrade would enable new explorations of chemical reactions, battery performance, and biological processes.
LUX-ZEPLIN, an ultrasensitive dark matter detector, has cleared a major approval milestone and is on track to begin its mile-deep hunt for theoretical particles known as WIMPs in 2020.