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200 00$aIndustrial biotechnology $esustainable growth and economic success /$fedited by Wim Soetaert and Erick J. Vandamme
210   $aWeinheim $cWiley-VCH$d2010
215   $a1 online resource (523 p.)
300   $aDescription based upon print version of record.
311 08$a9783527314423 
311 08$a3527314423 
320   $aIncludes bibliographical references and index.
327   $aIndustrial Biotechnology: Sustainable Growth and Economic Success; Contents; Preface; List of Contributors; The Scope and Impact of Industrial Biotechnology; 1: History of Industrial Biotechnology; 1.1 Early History; 1.2 The Penicillin Story; 1.3 The Coming of the Cephalosporins; 1.4 The Waksman Era; 1.5 Strain Improvement; 1.6 Semi-Synthetic Antibiotics to Combat Resistant Microbes; 1.7 The Primary Metabolites; 1.7.1 Amino Acids; 1.7.2 Nucleotides; 1.7.3 Vitamins; 1.7.4 Organic Acids; 1.7.5 Alcohols; 1.7.6 Polymers
327   $a1.7.7 Specialty Sugars, Sugar Alcohols,L-Sugars, Oligosugars, Novel Extracellular Polysaccharides, Biopigments, Cosmetics Including Fragrants, and Microbial Enzymes for Chiral Synthesis and Other Applications1.8 The Shift from Antibiotics to Pharmacological Agents; 1.8.1 Enzyme Inhibitors; 1.8.2 Immunosuppressants; 1.8.3 Antitumor Agents; 1.8.4 Ergot Alkaloids; 1.8.5 Agricultural Compounds; 1.9 The Biopharmaceutical Revolution; 1.9.1 Human Insulin (Novolin, Humulin); 1.9.2 Erythropoietin (Epogen, Procrit); 1.9.3 Interferons; 1.9.4 Human Growth Hormone (Somatotropin, Somatropin
327   $aHumatrope, Nutropin, Protropin, Somatren, Serostim)1.9.5 Tissue Plasminogen Activator (Activase, Alteplase); 1.9.6 Interleukins; 1.9.7 Factor VIII; 1.9.8 Colony-Stimulating Factors; 1.9.9 Human DNase (Pulmozyme); 1.9.10 Glucocerebrosidas (Cerezyme); 1.9.11 Monoclonal Antibodies; 1.9.12 Additional Biopharmaceuticals; 1.10 Recombinant Hosts; 1.10.1 E. coli; 1.10.2 Yeasts; 1.10.3 Molds; 1.10.4 Insect Cells; 1.10.5 Mammalian Cells; 1.10.6 Transgenic Animals; 1.10.7 Transgenic Plants; 1.11 Enzymes; 1.12 Bioconversions; 1.13 Vaccines; 1.14 Systems Microbiology; References
327   $a2: Industrial Systems Biology2.1 Introduction; 2.2 Industrial Biotechnology; 2.3 Market Drivers for Industrial Biotechnology; 2.4 Industrial Systems Biology; 2.5 Metabolic Models; 2.5.1 Microbial Metabolism-A Historical Perspective; 2.5.2 Genome Sequencing and Functional Genomics; 2.6 Reconstructed Metabolic Network Models; 2.6.1 Introduction; 2.6.2 Genome-Scale Reconstructed Network Process; 2.7 Industrial Systems Biology Case Studies; 2.7.1 A Mature and Developed Industrial Biotechnology Product: Bioethanol
327   $a2.7.2 A Recently Launched and Rapidly Growing Industrial Biotechnology Product: 1,3-Propanediol2.7.3 An In-Development Industrial Biotechnology Product: Succinic Acid; 2.8 Conclusion and Future Perspectives; References; 3: Fermentation Technology; 3.1 Introduction; 3.2 Types of Fermentations; 3.3 Fermentation Process; 3.3.1 Inoculum Generation; 3.3.2 Growth and Product Formation; 3.4 Fermentation Medium Design; 3.5 Sterilization of Air and Fermentation Medium; 3.6 Environmental Factors; 3.7 Fermentation Kinetics; 3.7.1 Batch Fermentation; 3.7.2 Continuous Culture; 3.8 Fermentation Equipment
327   $a3.8.1 Submerged Fermentation
330   $aDescribing all topics of white biotechnology admitted to the 7th EU Frame Programme and new industrial production processes aiming towards the Kyoto objectives, this comprehensive overview covers the technology, applications, economic potential and implications for society.  Directed at readers with a general interest in a specific technology, this is equally suitable as an introductory handbook to a wide range of industries, including chemicals, biotechnology and pharmaceuticals, food and feed, paper and pulp, personal care, energy and agriculture.
606   $aBiotechnology
606   $aBiotechnology$xSocial aspects
615  0$aBiotechnology.
615  0$aBiotechnology$xSocial aspects.
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