By Shawn D. Mansfield, John N. Saddler
Applications of Enzymes to Lignocellulosics covers learn targeting realizing the basic microbiology, biochemistry, genetics and enzymology of microorganisms and their extracellular enzymes, whereas at the same time manipulating those biocatalysts to change lignocellulosic processing in an environmentally benign demeanour.
Furthermore, it demonstrates fresh findings in a few parts on the topic of forestry, pulp and paper, and wood-derived items, together with: xylanase-aided biobleaching, direct bleaching with oxidative enzymes, enzyme-induced adjustments to inherent fibre morphology, more desirable paper recycling, enzymatic de-inking, mill whitewater remediation, and conversion of lignocellulosic to value-added items, corresponding to fuel-grade ethanol.
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Meanwhile, the price of oil had decreased to a third, and further development of the concept was therefore deemed economically unviable. ; ACS Symposium Series; American Chemical Society: Washington, DC, 2003. 32 ch002 hemicellulases. Major part of the cellulase studies have concentrated on secreted fungal enzymes, which are also currently used in many industrial applications (/). Especially the cellulase system from the filamentous fungus Trichoderma reesei has been intensively studied at a molecular level.
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Applications of Enzymes to Lignocellulosics by Shawn D. Mansfield, John N. Saddler