Table of Contents

1 Features of biotechnology and its scientific basis.- 1.1 Introduction.- 1.2 Interrelationships between microorganisms and enzymes.- 1.3 Success in biotechnology.- 2 Application of the principles of industrial microbiology to biotechnology.- 2.1 Introduction.- 2.2 Primary metabolism.- 2.2.1 Introduction.- 2.2.2 The batch culture.- 2.3 Secondary metabolism.- 2.3.1 Products.- 2.3.2 Definitions of a secondary metabolite.- 2.3.3 Regulatory factors.- 2.4 Primary metabolites in industrial biotechnology.- 2.4.1 Potable alcohol.- 2.4.2 Amino acids.- 2.4.3 Other organic acids.- 2.4.4 Polysaccharides.- 2.4.5 Other primary metabolites.- 2.4.6 Single cell protein (SCP).- 2.4.7 Future plans in the UK.- 2.5 Secondary metabolites in biotechnology.- 2.5.1 Penicillin.- 2.5.2 Other secondary metabolites.- 3 Application of the principles of microbial genetics to biotechnology.- 3.1 Control mechanisms in microorganisms.- 3.2 Manipulations in vivo.- 3.2.1 Mutation.- 3.2.2 Recombination.- 3.2.3 Application of manipulations in vivo to increase enzyme production.- 3.2.4 Overproduction of primary metabolites.- 3.2.5 Overproduction of secondary metabolites.- 3.2.6 Production of novel metabolites.- 3.3 Manipulations in vitro.- 3.3.1 Basic techniques of in-vitro genetic manipulation.- 3.3.2 Uses of DNA cloning.- 3.3.3 Genes and biotechnology: applications of gene cloning.- 3.3.4 Safety implications.- 3.3.5 Future prospects.- 4 Application of the principles of fermentation engineering to biotechnology.- 4.1 The fermenter.- 4.1.1 The environment.- 4.1.2 Principal types of fermenter.- 4.1.3 Mode of operation.- 4.1.4 Ancillary processes.- 4.2 General design principles.- 4.2.1 Basic design rules.- 4.2.2 Materials and components.- 4.2.3 Control and instrumentation.- 4.2.4 Stirred-tank fermenters.- 4.2.5 Gas-lift and sparged-tank fermenters.- 4.3 Heat transfer.- 4.3.1 Heat sterilization.- 4.3.2 Sterilization without heat.- 4.4 Mixing.- 4.4.1 Introduction.- 4.4.2 Outline of rheology.- 4.5 Oxygen supply in fermenters.- 4.6 Scale-up in biotechnology.- 4.6.1 The problems of large-scale operation.- 4.6.2 Selection of scale-up criteria.- 4.6.3 Interaction of criteria.- 4.7 Fermentation processes in biotechnology.- 4.7.1 Brewing.- 4.7.2 Penicillin manufacture.- 4.7.3 Biological waste-water treatment.- 4.7.4 Single-cell protein (SCP) production.- 4.7.5 Outlook for biotechnology.- 4.8 Summary.- 5 Application of the principles of enzymology to biotechnology.- 5.1 Features of enzymes in relation to biotechnology.- 5.1.1 Introduction.- 5.1.2 Advantages of using enzymes for manufacture of products.- 5.1.3 Choice and control of enzymes in applications.- 5.2 Applications of enzymes in biotechnology.- 5.2.1 Large-scale industrial applications.- 6 The biotechnology of enzyme isolation and purification.- 6.1 Introduction.- 6.2 Enzyme sources.- 6.3 Release of enzymes from cells.- 6.3.1 Sources.- 6.3.2 Extraction by physical methods.- 6.3.3 Extraction by chemical methods.- 6.4 Primary clarification of the soluble enzyme.- 6.4.1 Centrifugation.- 6.4.2 Flocculation and coagulation.- 6.4.3 Filtration.- 6.5 Concentration.- 6.5.1 Removal of nucleic acids.- 6.5.2 Precipitation.- 6.5.3 Ultrafiltration and reverse osmosis.- 6.5.4 Freeze-drying.- 6.5.5 Evaporation.- 6.5.6 Freezing.- 6.6 Enzyme purification—chromatography.- 6.6.1 Gel chromatography.- 6.6.2 Ion exchange chromatography.- 6.6.3 Affinity purification.- 6.6.4 Chromatography columns.- 6.6.5 High-performance liquid chromatography of enzymes.- 7 The application of immobilized enzymes, immobilized cells and biochemical reactors in biotechnology—principles of enzyme engineering.- 7.1 Introduction.- 7.2 The application of biological catalysts.- 7.3 Types of enzymic catalyst and commercial applications.- 7.3.1 Immobilized biocatalysts.- 7.3.2 Assessment of supports and methods.- 7.3.3 Effectiveness factors for immobilized enzymes.- 7.3.4 The kinetics of enzymes in industrial use.- 7.3.5 Factors which modify the intrinsic activity of enzymes.- 7.3.6 The stability of immobilized biocatalyst—diffusion artifacts.- 7.4 Enzyme reactors.- 7.4.1 Types of biochemical reactor.- 7.4.2 Assessment of the performance of biochemical reactors.- 7.4.3 Practical enzyme reactor kinetics.- 7.4.4 The effect of non-ideal flow on biochemical reactor performance.- 7.4.5 The stability of biochemical reactors.- 7.4.6 Physical problems associated with the use of immobilized biocatalysts in biochemical reactors.- 7.4.7 Purification and recovery of the products of biochemical reactors (downstream processing).- 7.5 Conclusions.