The discovery of a primitive form of a photosynthetic enzyme will help scientists understand how carbon-fixing organisms oxygenated the atmosphere and how modern plants evolved
Biochemist Jennifer Doudna, a professor at UC Berkeley and faculty scientist at Berkeley Lab, is co-winner of the 2020 Nobel Prize in Chemistry for her co-discovery of CRISPR-Cas9, a groundbreaking genetic engineering technology.
Berkeley Lab statistician Paul Williams seeks to explain how genetics and external factors interact to shape alcohol consumption, lung function, and weight gain – aspects of health that are on many of our minds during the the coronavirus pandemic and wildfires.
Innovations include a better lithium battery, secure quantum communications, and a tool for buildings to save energy.
A team of scientists led by Berkeley Lab has gained important new insight into electrons’ role in the harvesting of light in artificial photosynthesis systems. The scientists say that their findings can help researchers develop more efficient material combinations for the design of high-performance solar fuels devices.
The subatomic world just got a lot quieter for the LUX-ZEPLIN (LZ) dark matter experiment. The LZ collaboration has completed 1,200 tests that describe the levels of radioactive decay of the LZ detector components and help to ensure a low level of background “noise” from unwanted particle signals.
If you’ve eaten vegan burgers that taste like meat or used synthetic collagen in your beauty routine – both products that are “grown” in the lab – then you’ve benefited from synthetic biology. It’s a field rife with potential, as it allows scientists to design biological systems to specification, such as engineering a microbe to produce a cancer-fighting agent. Yet conventional methods of bioengineering are slow and laborious, with trial and error being the main approach.