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Phone: () Robert Landick. Science Director. Email: landick@bltadwin.ru Phone: () At Great Lakes Bioenergy, we draw on the expertise of engineers, plant scientists, biochemists, microbiologists, and ecologists to develop sustainable biofuels and bioproducts. In pursuit of this goal, GLBRC researchers and staff Estimated Reading Time: 1 min. The Great Lakes Bioenergy Research Center (GLBRC) is a cross-disciplinary research center led by the University of Wisconsin–Madison. With Michigan State University and other collaborators, GLBRC draws on the expertise of over scientists, engineers, students, and staff to develop sustainable biofuels and bltadwin.ruted Reading Time: 2 mins. When it comes to interdisciplinary collaboration, the titles of GLBRC publications speak for themselves. Each new year of operation has seen more publications from multiple labs that span our research themes, accelerating the Center's production of the basic research that generates technology to convert cellulosic biomass to advanced biofuels and bltadwin.rug: download.

The high cost of enzymes is a major bottleneck preventing the development of an economically viable lignocellulosic ethanol industry. Commercial enzyme cocktails for the conversion of plant biomass to fermentable sugars are complex mixtures containing more than 80 proteins of suboptimal activities and relative proportions. As a step toward the development of a more efficient enzyme cocktail. UW-Madison GLBRC researchers have developed compositions and methods that expand the ability to make, express and identify target polypeptides, including enzymes capable of enhancing the deconstruction of biomass into fermentable sugars. This approach uses a cell-free system to express enzymes and other polypeptides in a combinatorial manner. MADISON -- When scientists reported in that they had successfully engineered a poplar plant "designed for deconstruction," the finding made international news. The highly degradable poplar, the first of its kind, could substantially reduce the energy use and cost of converting biomass to a number of products, including biofuels, pulp, and paper.

Waste not, want not: New process turns manure into fatty acids. University of Wisconsin–Madison researchers have demonstrated a new process for transforming a plentiful Wisconsin waste into fatty acids, energy-rich molecules that can be used to make fuels and a wide range of important chemicals. If you live in the Dairy State, where milk and. GLBRC research scientist Steve Karlen with an orchid in the Botany Greenhouse on the University of Wisconsin–Madison campus. For a new study published in Science Advances, Karlen sampled over 60 plants from all over the phylogenetic tree, finding that many plants naturally or natively create "zip-lignin.". GLBRC Research Tools. On our research tools page, you can find a selection of web-based research tools and applications, developed collaboratively between GLBRC scientists and our Information Services (IS) group. If you are looking for a different tool or have any questions, contact IS Coordinator Dirk Norman (bltadwin.ru@bltadwin.ru).