A team of scientists at Berkeley Lab has developed an unsupervised multi-scale machine learning technique that can automatically and specifically capture biomedical events or concepts directly from raw data.
Berkeley Lab researchers have developed a 12-gene score tied to the odds of relapse-free breast cancer survival. The scoring system is based on an analysis of large genomic datasets and patient data, and it could eventually be developed for clinical use.
The National Academy of Engineering named three Berkeley Lab researchers to this year’s class of 84 new members and 22 foreign associates. Robert Budnitz, Gerbrand Ceder and Katherine Yelick were elected in recognition of their distinguished and continuing achievements in original research.
Visiting scientists gave input during a workshop last week on the range of new X-ray science made possible by a planned upgrade of the Advanced Light Source.
Researchers at the Joint BioEnergy Institute and the Great Lakes Bioenergy Research Center used crystallography and biophysical methods to better understand how the NOV1 enzyme breaks down a a stilbene substrate into two smaller compounds. Understanding this unusual chemical reaction brings insight on how to generate desirable biofuels and bioproducts from biomass deconstruction.
Berkeley Lab scientists are developing new ways to see the unseen. Here are seven imaging advances (recently reported in our News Center) that are helping to push science forward, from developing better batteries to peering inside cells to exploring the nature of the universe. 1. Seeing DNA nanostructures in 3-D DNA segments can serve as a
Berkeley Lab-developed tech enabling energy-saving roofs, long-lived batteries, better data from X-ray experiments, safer drinking water, and reduced carbon dioxide in the atmosphere have received 2016 R&D 100 awards.
Scientists and software engineers at the U.S. Department of Energy (DOE)’s Joint BioEnergy Institute (JBEI) have developed a new -omics visualization tool, Arrowland, which combines different realms of functional genomics data in a single intuitive interface. The aim of this system is to provide scientists an easier way to navigate the ever-growing amounts of biological
The Energy Department (DOE) recently announced $10 million, subject to appropriations, to support the launch of the HydroGEN Advanced Water Splitting Materials Consortium (HydroGEN). This consortium will utilize the expertise and capabilities of the national laboratories to accelerate the development of commercially viable pathways for hydrogen production from renewable energy sources. The new consortium is