By Shawn D. Mansfield, John N. Saddler
Applications of Enzymes to Lignocellulosics covers examine targeting figuring out the elemental microbiology, biochemistry, genetics and enzymology of microorganisms and their extracellular enzymes, whereas simultaneously manipulating those biocatalysts to change lignocellulosic processing in an environmentally benign demeanour.
Furthermore, it demonstrates contemporary findings in a few parts regarding 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, enhanced 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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Additional info for Applications of Enzymes to Lignocellulosics
1998, 22, 192-198. 34. ; Siika-aho, M. J. Biotechnol. 2000, 78, 149-161. 35. ; Tenkanen, M. Biochem. 2000, 31, 61-68. 36. ; Rouvinen, J. EMBO J. 1994, 13, 2493. 37. ; Rouvinen, J. Biochemistry 1995, 34, 847. 38. ; Penttilä, M. Acta Cryst. 2000, 56, 3-13. 39. ; Rouvinen, J. J. 2000, 132, 180190. 40. ; Kluepfel, D. J. Biotechnol. 1997, 57, 151-166. 41. ; Viikari, L. Appl. Microbiol. Biotechnol. 1992, 37, 470-473. 42. ; Viikari, L. ch002 Appl. Microbiol. Biotechnol. 1993, 38, 592-595. 43. ; Viikari, L.
The objectives of this action plan are to reduce the European Union's growing dependency on external supply of oil, and to contribute to the achievement of the EU's greenhouse gas emission reductions as decided in Kyoto. Obviously, the improvement of enzymatic hydrolysis of lignocellulosics will become an increasingly important research goal. Lignocellulose enzymes will thus play key roles in the development of environmentally friendly products and processes also in the future, and will contribute to the prevention of the climate change.
1995, 78, 89-95. 164. M. Appita J. 1997, 50, 57-60. 165. Y. Appita J. 1993, 46, 289-292. 166. ; Joyce, T. Nordic Pulp Paper Res. J. 1993, 8, 284-286. 167. ; Joyce, T. Prog. Paper Recycl. 1992, 1, 2130. 168. ; Muradali, N. Pap. ja Puu. 1988, 70, 66-72. 169. Karnis, A. Pap. ja Puu. 1995, 77, 491-497. 170. P. Pap. ja Puu. 1975, 57, 519-526. 171. L. Appita J. 1995, 48, 367377. 172. Paavilainen, L. Pap. ja Puu. 1990, 72, 516-526. 173. J. Prog. Paper Recycl. 1995, 4, 36-47. 174. W. Tappi J. 1994, 77, 169177.