New experimental results have revealed the critical influence of the electronic and geometric effects in the carbon dioxide reduction reaction.
In the search for enzymes that can break lignocellulose down into biofuel sugars under the extreme conditions of a refinery, chemist Douglas Clark prospects for extremophilic microbes and engineers cellulases of his own.
Bionic liquids – solvents made from lignin and hemicellulose, two by-products of biofuel production – show great promise for liberating fermentable sugars from lignocellulose and improving the economics of biofuels refineries.
JBEI researchers have developed a powerful new tool that can help advance the genetic engineering of “fuel” crops for clean, green and renewable bioenergy – an assay that enables scientists to identify and characterize the function of nucleotide sugar transporters, critical components in the biosynthesis of plant cell walls.
Eight Bay Area high school students are participating in this summer’s iCLEM program, earning money and gaining “college knowledge” while conducting bioenergy research in the state-of-the-art scientific laboratories of the Joint BioEnergy Institute (JBEI).
Using the world’s most powerful x-ray laser, an international collaboration led by Berkeley Lab researchers took femtosecond “snapshots” of water oxidation in photosystem II, the only known biological system able to harness sunlight for splitting the water molecule. The results should help advance the development of artificial photosynthesis for clean, green and renewable energy.
The JBEI GT Collection, the first glycosyltransferase clone collection specifically targeted for the study of plant cell wall biosynthesis, is expected to drive basic scientific understanding of GTs and better enable the manipulation of plant cell walls for the production of biofuels and other chemical products.
The Berkeley Open Biofoundry – BOB – is a Berkeley Lab proposal to DARPA aimed at providing the science and technology that will enable the engineering of biological systems to produce valuable chemical products on a commercial scale.
Researchers at the Joint BioEnergy Institute (JBEI) have identified a rain forest microbe that feasts on the lignin in plant leaf litter, making it a potential ally for the cost-effective production of advanced biofuels.
Joint BioEnergy Institute (JBEI) researchers save water and reduce pollution with the first one-pot, wash-free, process for the ionic liquid pretreatment and saccharification of switchgrass, one of the leading biofuel feedstock candidates.