Biotechnology in the pulp and paper industry [electronic resource] : 8th ICBPPI / edited by L. Viikari, R. Lantto.

By: (8th : International Conference on Biotechnology in the Pulp and Paper Industry (8th : 2001 : Helsinki, Finland)Contributor(s): Viikari, Liisa, 1949- | Lantto, R. (Raija)Material type: TextTextSeries: Progress in biotechnology: 21.Publisher: Amsterdam ; New York : Elsevier, 2002Edition: 1st edDescription: 1 online resource (ix, 334 p.) : illISBN: 9780444510785; 0444510788; 9780080528175 (electronic bk.); 0080528171 (electronic bk.)Subject(s): Wood-pulp -- Biotechnology -- Congresses | Biotechnology -- Congresses | Wood -- Congresses | Paper -- Congresses | TECHNOLOGY & ENGINEERING -- Technical & Manufacturing Industries & Trades | Wood-pulp -- BiotechnologyGenre/Form: Electronic books.Additional physical formats: Print version:: Biotechnology in the pulp and paper industry.DDC classification: 676 LOC classification: TS1176.6.B56 | I57 2002ebOnline resources: ScienceDirect
Contents:
Cover -- Contents -- Preface -- Chapter 1. Trends in pulp and paper biotechnology -- Chapter 2. Biotechnology in the pulp and paper industry. A challenge for change. -- Part I: Structure and Fibre Modification -- Chapter 3. Alterations of lignin biosynthesis have tissue-specific impact on cell wall formation -- Chapter 4. Cellulases: Agents for fiber modification or bioconversion? The effect of substrate accessibility on cellulose enzymatic hydrolyzability -- Chapter 5. Lignocellulose oxidation by low molecular weight metal-binding compounds isolated from wood degrading fungi: A comparison of brown rot and white rot systems and the potential application of chelator-mediated Fenton reactions -- Chapter 6. Dislocations and balloon swelling in spruce kraft pulp fibres -- Effect of cellulases, xylanase and laccase/HBT -- Part II: Biopulping -- Chapter 7. Recent developments in biopulping technology at Madison, WI -- Chapter 8. Attempts to correlate biopulping benefits with changes in the chemical structure of wood components and enzymes produced during the wood biotreatment with Ceriporiopsis subvermispora -- Chapter 9. Fungi as potential assisting agents in softwood pulping -- Part III: Fundamentals of Oxidative Enzymes -- Chapter 10. N-Hydroxy mediated laccase biocatalysis: recent progress on its mechanism and future prospect of its application -- Chapter 11. Metal-activated laccase promoters -- Chapter 12. Protease mediated processing of a Cu-induced laccase in Pleurotus ostreatus: a natural approach to improve protein stability -- Chapter 13. Reactivity of high and low molar mass lignin in the laccase catalysed oxidation -- Chapter 14. The effect of oxidation with single electron oxidants compared to laccase treatment of TMP wood fibres -- Chapter 15. Studies on inactivation and stabilization of manganese peroxidase from Trametes versicolor -- Part IV: Applications of Oxidative Enzymes -- Chapter 16. Delving into the fundamental LMS delignification of high-kappa kraft pulps -- Chapter 17. Elucidating of effects of laccase on the physical properties of high-kappa kraft pulps -- Chapter 18. New developments in enzyme-assisted delignification and bleaching -- Chapter 19. In vivo and in vitro biobleaching of unbleached hardwood kraft pulp by a marine fungus, Phlebia sp. MG-60 -- Chapter 20. Potential of laccases in softwood-hardwood high-yield pulping and bleaching -- Chapter 21. Pilot plant bleaching trials with laccase and mediator -- Chapter 22. Flax pulp bleaching and residual lignin modification by laccase-mediator systems -- Chapter 23. Biomimetic pulp bleaching with copper complexes and hydroperoxides -- Chapter 24. Enzymatic degradation of oxalic acid for prevention of scaling -- Part V: Xylanases and Enzyme-Assisted Bleaching -- Chapter 25. Expression of thermophilic xylanases in fungal hosts -- Chapter 26. Evaluation of bleach-enhancing effect of xylanases on bagasse pulp -- Chapter 27. Boosting of LMS bleaching with hemicellulases -- Chapter 28. Mill usage and mechanistic studies of xylanase to enhance bleaching -- Part VI: Pulp and Paper Manufacture -- Chapter 29. Enzymatic control of dissolved and colloidal substances during mechanical pulping -- Ch.
Summary: This book covers both basic and applied sciences in a rather specified area of pulp and paper manufacture. The basic science of lignocellulose enzymology and plant genetics is covered also in many other contexts, whereas the application of biotechnology in process and product development is thoroughly reviewed. All the latest advances as well as new ideas of the research field are covered. This book will serve as an updated and compact information package of biotechnical aspects and the most recent advances of the pulp and paper industry sector.
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This book covers both basic and applied sciences in a rather specified area of pulp and paper manufacture. The basic science of lignocellulose enzymology and plant genetics is covered also in many other contexts, whereas the application of biotechnology in process and product development is thoroughly reviewed. All the latest advances as well as new ideas of the research field are covered. This book will serve as an updated and compact information package of biotechnical aspects and the most recent advances of the pulp and paper industry sector.

Includes bibliographical references and index.

Cover -- Contents -- Preface -- Chapter 1. Trends in pulp and paper biotechnology -- Chapter 2. Biotechnology in the pulp and paper industry. A challenge for change. -- Part I: Structure and Fibre Modification -- Chapter 3. Alterations of lignin biosynthesis have tissue-specific impact on cell wall formation -- Chapter 4. Cellulases: Agents for fiber modification or bioconversion? The effect of substrate accessibility on cellulose enzymatic hydrolyzability -- Chapter 5. Lignocellulose oxidation by low molecular weight metal-binding compounds isolated from wood degrading fungi: A comparison of brown rot and white rot systems and the potential application of chelator-mediated Fenton reactions -- Chapter 6. Dislocations and balloon swelling in spruce kraft pulp fibres -- Effect of cellulases, xylanase and laccase/HBT -- Part II: Biopulping -- Chapter 7. Recent developments in biopulping technology at Madison, WI -- Chapter 8. Attempts to correlate biopulping benefits with changes in the chemical structure of wood components and enzymes produced during the wood biotreatment with Ceriporiopsis subvermispora -- Chapter 9. Fungi as potential assisting agents in softwood pulping -- Part III: Fundamentals of Oxidative Enzymes -- Chapter 10. N-Hydroxy mediated laccase biocatalysis: recent progress on its mechanism and future prospect of its application -- Chapter 11. Metal-activated laccase promoters -- Chapter 12. Protease mediated processing of a Cu-induced laccase in Pleurotus ostreatus: a natural approach to improve protein stability -- Chapter 13. Reactivity of high and low molar mass lignin in the laccase catalysed oxidation -- Chapter 14. The effect of oxidation with single electron oxidants compared to laccase treatment of TMP wood fibres -- Chapter 15. Studies on inactivation and stabilization of manganese peroxidase from Trametes versicolor -- Part IV: Applications of Oxidative Enzymes -- Chapter 16. Delving into the fundamental LMS delignification of high-kappa kraft pulps -- Chapter 17. Elucidating of effects of laccase on the physical properties of high-kappa kraft pulps -- Chapter 18. New developments in enzyme-assisted delignification and bleaching -- Chapter 19. In vivo and in vitro biobleaching of unbleached hardwood kraft pulp by a marine fungus, Phlebia sp. MG-60 -- Chapter 20. Potential of laccases in softwood-hardwood high-yield pulping and bleaching -- Chapter 21. Pilot plant bleaching trials with laccase and mediator -- Chapter 22. Flax pulp bleaching and residual lignin modification by laccase-mediator systems -- Chapter 23. Biomimetic pulp bleaching with copper complexes and hydroperoxides -- Chapter 24. Enzymatic degradation of oxalic acid for prevention of scaling -- Part V: Xylanases and Enzyme-Assisted Bleaching -- Chapter 25. Expression of thermophilic xylanases in fungal hosts -- Chapter 26. Evaluation of bleach-enhancing effect of xylanases on bagasse pulp -- Chapter 27. Boosting of LMS bleaching with hemicellulases -- Chapter 28. Mill usage and mechanistic studies of xylanase to enhance bleaching -- Part VI: Pulp and Paper Manufacture -- Chapter 29. Enzymatic control of dissolved and colloidal substances during mechanical pulping -- Ch.

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