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Study finds copper key to more efficient biomass breakdown
Nonfood, plant-based biofuels have potential as a green alternative to fossil fuels, but the enzymes required for production are too inefficient and costly to produce. However, new research published in Chemical Science is shining a light on enzymes from fungi that could make biofuels economically viable.
Enzymes called lytic polysaccharide monooxygenases, or LPMOs, excel at breaking down organic matter, but exactly how they work has been unclear. Typical enzymes are made of carbon, nitrogen, hydrogen and oxygen, but LPMOs also contain copper.
Researchers using neutron scattering at Oak Ridge National Laboratory have already shown how LPMOs bind oxygen to copper to break down biomass. Going a step further, they've now discovered that the process is driven by an amino acid that donates protons to the oxygen molecule.
"This new information will allow us to redesign and test different versions of LPMOs with improved efficiency that will help make cellulosic ethanol more feasible," said ORNL corresponding author Flora Meilleur.
More information: Gabriela C. Schröder et al, Capture of activated dioxygen intermediates at the copper-active site of a lytic polysaccharide monooxygenase, Chemical Science (2022).
Journal information: Chemical Science
Provided by Oak Ridge National Laboratory
