Experiments at Berkeley Lab’s Advanced Light Source detailed the structure of a grouping of amino acids that are part of an important signaling protein.
Moss evolved after algae but before vascular land plants, such as ferns and trees, making them an interesting target for scientists studying photosynthesis, the process by which plants convert sunlight to fuel. Now researchers at the Department of Energy’s Lawrence Berkeley National Laboratory have made a discovery that could shed light on how plants evolved to move from the ocean to land.
By shining highly focused infrared light on living cells, scientists at Berkeley Lab hope to unmask individual cell identities, and to diagnose whether the cells are diseased or healthy.
A research team has demonstrated how light-emitting nanoparticles, developed at Berkeley Lab, can be used to see deep in living tissue. Researchers hope they can be made to attach to specific components of cells to serve in an advanced imaging system that can pinpoint even single cancer cells.
Researchers have found a way to convert nanoparticle-coated microscopic beads into lasers smaller than red blood cells. These microlasers, which convert infrared light into light at higher frequencies, are among the smallest continuously emitting lasers of their kind ever reported.
An international team led by scientists at Berkeley Lab and UC Berkeley discovered how to exploit defects in nanoscale and microscale diamonds and potentially enhance the sensitivity of magnetic resonance imaging and nuclear magnetic resonance systems while eliminating the need for their costly and bulky superconducting magnets.
Researchers at Lawrence Berkeley National Laboratory and UC Berkeley have combined cutting-edge cryo-electron microscopy (cryo-EM) with computational molecular modeling to produce a near atomic-resolution model of the interaction between microtubules – crucial components of eukaryotic cell ultrastructure – and microtubule-associated proteins called tau.
Four scientists affiliated with the U.S. Department of Energy’s Lawrence Berkeley National Laboratory (Berkeley Lab) are among the group of 84 new members elected to the National Academy of Sciences (NAS); three are also professors at UC Berkeley.
Several fields of research have sprung up around the chemical drivers, called catalysts, at work in many industrial processes – including those that boost the production of fuels, fertilizers, and foods – and there is a growing interest in coordinating these research activities to create new, hybrid catalysts with enhanced performance, say researchers at Berkeley Lab and UC Berkeley.
A team of researchers from the Department of Energy’s Berkeley Lab and Joint Genome Institute took one of the most popular clustering algorithms in modern biology and modified it to run quickly, efficiently and at scale on distributed-memory supercomputers.