05520nam 2200697Ia 450 991082210130332120200520144314.01-280-72921-X97866107292100-08-046671-0(CKB)1000000000357873(EBL)281975(OCoLC)307651978(SSID)ssj0000071506(PQKBManifestationID)11107097(PQKBTitleCode)TC0000071506(PQKBWorkID)10090225(PQKB)11732462(Au-PeEL)EBL281975(CaPaEBR)ebr10155892(CaONFJC)MIL72921(OCoLC)935262585(MiAaPQ)EBC281975(PPN)182566293(EXLCZ)99100000000035787320061005d2006 uy 0engurcn|||||||||txtccrBioprocesses for value-added products from renewable resources new technologies and applications /edited by Shang-Tian Yang1st ed.Amsterdam ;Boston, MA Elsevier20061 online resource (685 p.)Description based upon print version of record.0-444-52114-3 Includes bibliographical references and index.Front Cover; Preface; 2. Applications of genomic and proteomic analyses; 3. Bioprocess analysis and optimization guided by genomic and proteomic analyses: The example of microbial production of 1,3-propanediol; 4. Concluding remarks and outlook; References; 2. Directed evolution tools for diversity generation; 3. Applications of directed evolution tools; 4. Alternatives to directed evolution; 5. Conclusion; Acknowledgements; References; 2. Applications and some examples; 3. Metabolic engineering strategies and limitations; 4. Metabolic engineering methodologies and tools5. Challenges and new approaches for metabolic engineering 6. Summary; References; 2. Amylase and cellulase classification and mechanisms; 3. Conclusions; Acknowledgment; References; 2. Various types of bioreactors; 3. Effects of process parameters on biological performances; 4. Industrial applications of bioreactors; 5. Trends in bioreactor engineering; Acknowledgments; References; 3. Microfiltration and ultrafiltration processes; 4. Membrane fouling; 5. Applications in biotechnology industries; 5.3. Other applications; 6. Outlook; References; 2. Bacteria; 3. Yeast4. Fermentation products from bacteria and yeasts 5. Fermentation processes; 6. Conclusion and outlook; References; 2. Fungal cells as biofactories; 3. Hyphal growth and protein secretion; 4. Fungal growth in submerged culture; 5. Effects of cultivation conditions; 6. Effects of morphology on production and secretion; 7. Immobilized fungal cells; 8. Future of filamentous fungal cells as biofactories; References; 2. Production of macromolecules; 3. Production of small molecules; Acknowledgements; References; 2. Modes of micro-algal cultivation; 3. Thraustochytrids4. High-value products from thraustochytrids 5. Other applications of thraustochytrids; 6. Utilization of renewable resources; 7. Safety issues; 8. Conclusions; 7 References; 2. Enzymatic treatment of biomass components; 3. Further processing of simple renewable molecules for value-added products; 4. New trends in enzymatic bioprocessing; 5. Summary; References; 3. Chiral molecules from hydrolase; 4. Chiral molecules from enzymes requiring cofactors; 5. Improving enantioselectivity by reaction engineering; 6. Improving chiral synthesis by directed evolution and metabolic engineering7. Conclusions References; 2. Immobilization techniques; 3. Effects of cell immobilization; 4. Immobilized cell bioreactors; 5. Applications of immobilized cell technology; 6. Conclusion; References; 3. New process development; 4. Water-in-oil cultivation technology; 5. PH-sensitive surfactants for water-in-oil cultivation; 6. Conclusions; References; 2. Carboxylic acid fermentation; 3. Integrated fermentation-separation processes; 4. Summary and outlook; References; 3. Fungal metabolites; 4. Pathway manipulation; 5. Conclusions; References; 3. Advantages and unsolved problems; 4. SSF reactors5. ConclusionsBioprocessing for Value-Added Products from Renewable Resources provides a timely review of new and unconventional techniques to manufacture high-value products based on simple biological material. The current source for most chemicals and materials is petroleum. Anticipation of its limited future availability, along with record high prices has spurred interest in alternatives that will be both sustainable and cost-effective. In a very structured way this book begins by describing the modern technologies that form the basis for creating a bio-based industry. Next it lists the variousBiochemical engineeringBiotechnological process controlRenewable natural resourcesBiochemical engineering.Biotechnological process control.Renewable natural resources.660.6/358.31bclYang Shang-Tian1594604MiAaPQMiAaPQMiAaPQBOOK9910822101303321Bioprocesses for value-added products from renewable resources3980449UNINA