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Modern Industrial Microbiology and Biotechnology [Hardback]

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  • Formāts: Hardback, 548 pages
  • Izdošanas datums: 01-Jan-2007
  • Izdevniecība: Science Publishers,U.S.
  • ISBN-10: 1578084342
  • ISBN-13: 9781578084340
Citas grāmatas par šo tēmu:
Modern Industrial Microbiology and BiotechnologyPalielināt
  • Formāts: Hardback, 548 pages
  • Izdošanas datums: 01-Jan-2007
  • Izdevniecība: Science Publishers,U.S.
  • ISBN-10: 1578084342
  • ISBN-13: 9781578084340
Citas grāmatas par šo tēmu:
Permanent link: https://www.kriso.lv/db/9781578084340.html
This book is directed towards undergraduates and beginning graduate students in microbiology, food science and chemical engineering. Those studying pharmacy, biochemistry and general biology will find it of interest. The section on waste disposal will be of interest to civil engineering and public health students and practitioners. For the benefit of those students who may be unfamiliar with the basic biological assumptions underlying industrial microbiology, such as students of chemical and civil engineering, elements of biology and microbiology are introduced. The new elements which have necessitated the shift in paradigm in industrial microbiology such as bioinformatics, genomics, proteomics, site-directed mutation, metabolic engineering, the human genome project and others are also introduced and their relevance to industrial microbiology and biotechnology indicated. As many references as space will permit are included. The various applications of industrial microbiology are covered broadly, and the chapters are grouped to reflect these applications. The emphasis throughout, however, is on the physiological, biochemical principles, and where possible, the genomic principles behind these applications.
Preface vii
Section A Introduction
Introduction: Scope of Biotechnology and Industrial Microbiology
3(14)
Nature of Biotechnology and Industrial Microbiology
3(1)
Characteristics of Industrial Microbiology
4(1)
Industrial vs medical microbiology
4(1)
Multi-disciplinary or Team-work nature of industrial microbiology
4(1)
Obsolescence in industrial microbiology
5(1)
Free communication of procedures in industrial microbiology
5(1)
Patents and Intellectual Property Rights in Industrial Microbiology and Biotechnology
5(4)
The Use of the Word `Fermentation' in Industrial Microbiology
9(1)
Organizational Set-up in an Industrial Microbiology Establishment
10(7)
Suggested Readings
13(4)
Section B Biological Basis of Productivity in Industrial Microbiology and Biotechnology
Some Microorganisms Commonly Used in Industrial Microbiology and Biotechnology
17(17)
Basic Nature of Cells of Living Things
17(1)
Classification of Living Things: Three Domains of Living Things
18(1)
Taxonomic Grouping of Micro-organisms Important in Industrial Microbiology and Biotechnology
19(12)
Bacteria
21(8)
Eucarya: Fungi
29(2)
Characteristics Important in Microbes Used in Industrial Microbiology and Biotechnolgy
31(3)
Suggested Readings
33(1)
Aspects of Molecular Biology and Bioinformatics of Relevance in Industrial Microbiology and Biotechnology
34(20)
Protein Synthesis
34(5)
The Polymerase Chain Reaction
39(3)
Some applications of PCR in industrial microbiology and biotechnology
41(1)
Microarrays
42(2)
Applications of microarray technology
43(1)
Sequencing of DNA
44(2)
Sequencing of short DNA fragments
44(2)
Sequencing of genomes or large DNA fragments
46(1)
The Open Reading Frame and the Identification of Genes
46(2)
Metagenomics
48(2)
Nature of Bioinformatics
50(4)
Some contributions of bioinformatics to biotechnology
51(1)
Suggested Readings
52(2)
Industrial Media and the Nutrition of Industrial Organisms
54(23)
The Basic Nutrient Requirements of Industrial Media
54(2)
Criteria for the Choice of Raw Materials Used in Industrial Media
56(2)
Some Raw Materials Used in Compounding Industrial Media
58(4)
Growth Factors
62(1)
Water
62(1)
Some Potential Sources of Components of Industrial Media
63(3)
Carbohydrate sources
63(2)
Protein sources
65(1)
The Use of Plant Waste Materials in Industrial Microbiology Media: Saccharification of Polysaccharides
66(11)
Starch
67(6)
Cellulose, hemi-celluloses and lignin in plant materials
73(3)
Suggested Readings
76(1)
Metabolic Pathways for the Biosynthesis of Industrial Microbiology Products
77(22)
The Nature of Metabolic Pathways
77(1)
Industrial Microbiological Products as Primary and Secondary Metabolites
78(3)
Products of primary metabolism
78(1)
Products of secondary metabolism
79(2)
Trophophase-idiophase Relationships in the Production of Secondary Products
81(1)
Role of Secondary Metabolites in the Physiology of Organisms Producing Them
82(1)
Pathways for the Synthesis of Primary and Secondary Metabolites of Industrial Importance
83(6)
Catabolism of carbohydrates
84(4)
The Catabolism of hydrocarbons
88(1)
Carbon Pathways for the Formation of Some Industrial Products Derived from Primary Metabolism
89(1)
Catabolic products
89(1)
Anabolic products
89(1)
Carbon Pathways for the Formation of Some Products of Microbial Secondary Metabolism of Industrial Importance
89(10)
Suggested Readings
98(1)
Overproduction of Metabolites of Industrial Microorganisms
99(23)
Mechanisms Enabling Microorganisms to Avoid Overproduction of Primary Metabolic Products Through Enzyme Regulation
100(9)
Substrate induction
101(2)
Catabolite regulation
103(2)
Feedback regulation
105(2)
Amino acid regulation of RNA synthesis
107(1)
Energy charge regulation
107(1)
Permeability control
108(1)
Derangement or Bypassing of Regulatory Mechanisms for the Over-production of Primary Metabolites
109(6)
Metabolic control
109(5)
Permeability
114(1)
Regulation of Overproduction in Secondary Metabolites
115(5)
Induction
115(1)
Catabolite regulation
115(2)
Feedback regulation
117(1)
ATP or energy charge regulation of secondary metabolites
117(3)
Empirical Methods Employed to Disorganize Regulatory Mechanisms in Secondary Metabolite Production
120(2)
Suggested Readings
120(2)
Screening for Productive Strains and Strain Improvement in Biotechnological Organisms
122(49)
Sources of Microorganisms Used in Biotechnology
122(3)
Literature search and culture collection supply
122(1)
Isolation de novo of organisms producing metabolites of economic importance
123(2)
Strain Improvement
125(46)
Selection from naturally occurring variants
126(1)
Manipulation of the genome of industrial organisms in strain improvement
126(44)
Suggested Readings
170(1)
The Preservation of the Gene Pool in Industrial Organisms: Culture Collections
171(12)
The Place of Culture Collections in Industrial Microbiology and Biotechnology
171(1)
Types of Culture Collections
172(1)
Handling Culture Collections
173(1)
Methods of Preserving Microorganisms
173(10)
Microbial preservation methods based on the reduction of the temperature of growth
174(2)
Microbial preservation methods based on dehydration
176(2)
Microbial preservation methods based on the reduction of nutrients
178(1)
The need for experimentation to determine the most appropriate method of preserving an organism
178(1)
Suggested Redings
178(5)
Section C Basic Operations in Industrial Fermentations
Fermentors and Fermentor Operation
183(25)
Definition of a Fermentor
183(1)
The Aerated Stirred Tank Batch Fermentor
184(11)
Construction materials for fermentors
185(1)
Aeration and agitation in a fermentor
185(1)
Temperature control in a fermentor
186(2)
Foam production and control
188(4)
Process control in a fermentor
192(3)
Anerobic Batch Fermentors
195(1)
Fermentor Configurations
196(6)
Continuous fermentations
196(6)
Fed-batch Cultivation
202(1)
Design of New Fermentors on the Basis of Physiology of the Organisms: Air Lift Fermentors
202(3)
Microbial Experimentation in the Fermentation Industry: The Place of the Pilot Plant
205(1)
Inoculum Preparation
205(1)
Surface or Solid State Fermentors
206(2)
Suggested Readings
206(2)
Extraction of Fermentation Products
208(13)
Solids (Insolubles) Removal
209(3)
Filtration
209(1)
Centrifugation
210(1)
Coagulation and flocculation
210(1)
Foam fractionation
211(1)
Whole-broth treatment
212(1)
Primary Product Isolation
212(5)
Cell disruption
212(1)
Liquid extraction
213(1)
Dissociation extraction
214(1)
Ion-exchange adsorption
214(2)
Precipitation
216(1)
Purification
217(1)
Chromatography
217(1)
Carbon decolorization
217(1)
Crystallization
218(1)
Product Isolation
218(3)
Crystalline processing
218(1)
Drying
218(2)
Suggested Readings
220(1)
Sterility in Industrial Microbiology
221(16)
The Basis of Loss by Contaminants
221(1)
Methods of Achieving Sterility
222(7)
Physical methods
222(5)
Chemical methods
227(2)
Aspects of Sterilization in Industry
229(1)
The sterilization of the fermentor and its accessories
229(1)
Media sterilization
229(1)
Viruses (Phages) in Industrial Microbiology
230(7)
Morphological grouping of bacteriophages
232(1)
Lysis of hosts by phages
232(1)
Prevention of phage contamination
232(2)
Use of phage resistant mutants
234(1)
Inhibition of phage multiplication with chemicals
234(1)
Use of adequate media conditions and other practices
234(1)
Suggested Readings
234(3)
Section D Alcohol-based Fermentation Industries
Production of Beer
237(25)
Barley Beers
237(21)
Types of barley beers
237(1)
Raw materials for brewing
238(4)
Brewery processes
242(11)
Beer defects
253(2)
Some developments in beer brewing
255(3)
Sorghum Beers
258(4)
Kaffir beer and other traditional sorghum beers
258(2)
Suggested Readings
260(2)
Production of Wines and Spirits
262(18)
Grape Wines
262(8)
Processes in wine making
262(1)
Fermentation
263(1)
Ageing and storage
263(1)
Clarification
264(1)
Packaging
265(1)
Wine defects
265(1)
Wine preservation
265(1)
Classification of wines
265(5)
Palm Wine
270(4)
The Distilled Alcoholic (or Spirit) Beverages
274(6)
Measurement of the alcoholic strength of distilled beverages
274(1)
General principles in the production of spirit beverages
275(1)
The spirit beverages
276(2)
Suggested Readings
278(2)
Production of Vinegar
280(13)
Uses
280(1)
Measurement of Acetic Acid in Vinegar
281(1)
Types of Vinegar
281(1)
Organisms Involved
282(1)
Manufacture of Vinegar
283(5)
The Orleans (or slow) method
283(1)
The trickling generators (quick) method
284(2)
Submerged generators
286(2)
Processing of Vinegar
288(5)
Suggested Readings
289(4)
Section E Use of Whole Cells for Food Related Purposes
Single Cell Protein (SCP)
293(13)
Substrates for Single Cell Protein Production
294(6)
Hydrocarbons
294(3)
Alcohols
297(1)
Waste products
298(2)
Microorganisms Used in SCP Production
300(1)
Use of Autotrophic Microorganisms in SCP Production
300(3)
Safety of Single Cell Protein
303(2)
Nucleic acids and their removal from SCP
304(1)
Nutritional Value of Single Cell Protein
305(1)
Suggested Readings
305(1)
Yeast Production
306(9)
Production of Baker's Yeast
306(5)
Yeast strain used
308(1)
Culture maintenance
309(1)
Factory production
309(2)
Food Yeasts
311(2)
Production of food yeast
312(1)
Feed Yeasts
313(1)
Alcohol Yeasts
314(1)
Yeast Products
314(1)
Suggested Readings
314(1)
Production of Microbial Insecticides
315(12)
Alternatives to Chemical Insecticides
315(1)
Biological Control of Insects
316(6)
Desirable properties in organisms to be used for biological control
317(1)
Candidates which have been considered as biological control agents
318(3)
Bacillus thuringiensis Insecticidal toxin
321(1)
Production of Biological Insecticides
322(1)
Submerged fermentations
322(1)
Surface culture
323(1)
In vivo culture
323(1)
Bioassay of Biological Insecticides
323(1)
Formulation and Use of Bioinsecticides
324(1)
Dusts
324(1)
Liquid formulation
324(1)
Safety Testing of Bioinsecticides
325(1)
Search and Development of New Bioinsecticides
325(2)
Suggested Readings
326(1)
The Manufacture of Rhizobium Inoculants
327(7)
Biology of Rhizobium
328(2)
General properties
328(1)
Cross-inoculation groups of rhizobium
328(1)
Properties desirable in strains to be selected for use as rhizobium inoculants
328(1)
Selection of strains for use as rhizobial inoculants
329(1)
Fermentation of Rhizobia
330(1)
Inoculant Packaging for Use
331(2)
Seed inoculants
331(1)
Soil inoculants
332(1)
Quality Control
333(1)
Suggested Readings
333(1)
Production of Fermented Foods
334(31)
Introduction
334(1)
Fermented Food from Wheat: Bread
335(8)
Ingredients for modern bread-making
335(4)
Systems of bread-making
339(1)
Role of yeasts in bread-making
340(3)
Fermented Foods Made from Milk
343(5)
Composition of milk
343(1)
Cheese
344(3)
Yoghurt and fermented milk foods
347(1)
Fermented Foods from Corn
348(2)
Ogi, koko, mahewu
349(1)
Fermented Foods from Cassava: Garri, Foo-Foo, Chikwuange, Kokonte, Bikedi, and Cinguada
350(3)
Garri
351(1)
Foo-foo, chikwuangue, lafun, kokonte, bikedi, and cinguada
352(1)
Fermented Vegetables
353(1)
Sauerkraut
353(1)
Cucumbers (pickling)
353(1)
Fermentations for the Production of the Stimulant Beverages: Tea, Coffee, and Cocoa
354(1)
Tea production
354(1)
Coffee fermentation
354(1)
Cocoa fermentation
355(1)
Fermented Foods Derived from Legumes and Oil Seeds
355(10)
Fermented foods from Soybeans
355(4)
Fermented foods from beans: Idli
359(1)
Fermented foods from Protein-rich Oil-seeds
360(1)
Food condiments made from fish
360(1)
Suggested Readings
360(5)
Section F Production of Metabolites as Bulk Chemicals or as Inputs in Other Processes
Production of Organic Acids and Industrial Alcohol
365(15)
Organic Acids
365(8)
Production of citric acid
365(1)
Uses of citric acid
365(1)
Biochemical basis of the production of citric acid
366(2)
Fermentation for citric acid production
368(1)
Extraction
368(1)
Lactic acid
369(4)
Industrial Alcohol Production
373(7)
Properties of ethanol
373(1)
Uses of ethanol
374(1)
Denatured alcohol
374(1)
Manufacture of ethanol
374(3)
Some developments in alcohol production
377(2)
Suggested Readings
379(1)
Production of Amino Acids by Fermentation
380(18)
Uses of Amino Acids
380(4)
Methods for the Manufacture of Amino Acids
384(4)
Semi-fermentation
386(1)
Enzymatic process
386(2)
Production of amino acids by the direct fermentation
388(1)
Production of Glutamic Acid by Wild Type Bacteria
388(1)
Production of Amino Acids by Mutants
389(2)
Production of amino acids by auxotrophic mutants
390(1)
Production of amino acids by regulatory mutants
390(1)
Improvements in the Production of Amino Acids Using Metabolically Engineered Organisms
391(3)
Strategies to modify the terminal pathways
392(1)
Strategies for increasing precursor availability
393(1)
Metabolic engineering to improve transport of amino acids outside the cell
394(1)
Fermentor Production of Amino Acid
394(4)
Fermentor procedure
394(1)
Raw materials
395(1)
Production strains
395(1)
Down stream processing
396(1)
Suggested Readings
396(2)
Biocatalysts: Immobilized Enzymes and Immobilized Cells
398(23)
Rationale for Use of Enzymes from Microorganisms
398(1)
Classification of Enzymes
399(1)
Uses of Enzymes in Industry
400(6)
Production of Enzymes
406(2)
Fermentation for enzyme production
406(2)
Enzyme extraction
408(1)
Packaging and finishing
408(1)
Toxicity testing and standardization
408(1)
Immobilized Biocatalysts: Enzymes and Cells
408(6)
Advantages of immobilized biocatalysts in general
409(1)
Methods of immobilizing enzymes
409(3)
Methods for the immobilization of cells
412(2)
Bioreactors Designs for Usage in Biocatalysis
414(2)
Practical Application of Immobilized Biological Catalyst Systems
416(1)
Manipulation of Microorganisms for Higher Yield of Enzymes
416(5)
Some aspects of the biology of extracellular enzyme production
417(2)
Suggested Readings
419(2)
Mining Microbiology: Ore Leaching (Bioleaching) by Microorganisms
421(8)
Bioleaching
421(1)
Commercial Leaching Methods
422(1)
Irrigation-type processes
422(1)
Stirred tank processes
423(1)
Microbiology of the Leaching Process
423(1)
Leaching of Some Metal Sulfides
424(1)
Environmental Conditions Affecting Bacterial Leaching
425(4)
Suggested Readings
426(3)
Section G Production of Commodities of Medical Importance
Production of Antibiotics and Anti-Tumor Agents
429(26)
Classification and Nomenclature of Antibiotics
429(1)
Beta-Lactam Antibiotics
430(9)
Penicillins
432(3)
Cephalosporins
435(3)
Other beta-lactam antibiotics
438(1)
The Search for New Antibiotics
439(5)
The need for new antibiotics
439(1)
The classical method for searching for antibiotics: random search in the soil
440(4)
Combating Resistance and Expanding the Effectiveness of Existing Antibiotics
444(4)
Refinements in the procedures for the random search for new antibiotics in the soil
444(1)
Newer approaches to searching for antibiotics
445(3)
Anti-Tumor Antibiotics
448(5)
Nature of tumors
448(1)
Mode of action of anti-tumor antibiotics
449(1)
Search for new anti-tumor antibiotics
449(4)
Newer Methods for Searching for Antibiotic and Anti-tumor Drugs
453(2)
Suggested Readings
453(2)
Production of Ergot Alkaloids
455(9)
Nature of Ergot Alkaloids
455(2)
Uses of Ergot Alkaloids and their Derivates
457(2)
Production of Ergot Alkaloids
459(2)
Physiology of Alkaloid Production
461(3)
Suggested Readings
463(1)
Microbial Transformation and Steroids and Sterols
464(8)
Nature and Use of Steroids and Sterols
464(2)
Uses of Steroids and Sterols
466(1)
Sex hormones
466(1)
Corticosteroids
467(1)
Saponins
467(1)
Heterocyclic steroids
467(1)
Manufacture of Steroids
467(4)
Types of microbial transformations in steroids and sterols
469(1)
Fermentation conditions used in steroid transformation
470(1)
Screening for Microorganisms
471(1)
Suggested Readings
471(1)
Vaccines
472(16)
Nature and Importance of Vaccines
472(1)
Body Defenses against Communicable Diseases
472(7)
Innate or non-specific immunity
475(4)
Traditional and Modern Methods of Vaccine Production
479(3)
Traditional vaccines
479(1)
Newer approaches in vaccinology
480(2)
Production of Vaccines
482(4)
Production of virus vaccines
482(3)
Production of bacterial toxoids
485(1)
Production of killed bacterial vaccines
485(1)
Control of Vaccines
486(1)
Vaccine Production versus Other Aspects of Industrial Microbiology
487(1)
Suggested Readings
487(1)
Drug Discovery in Microbial Metabolites: The Search for Microbial Products with Bioactive Properties
488(17)
Conventional Processes of Drug Discovery
489(3)
Cell-based assays
489(2)
Receptor binding assays
491(1)
Enzyme assays
491(1)
Newer Methods of Drug Discovery
492(5)
Computer aided drug design
492(1)
Combinatorial chemistry
493(1)
Genomic methods in the search for new drugs, including antibiotics
494(2)
Search for drugs among unculturable microorganisms
496(1)
Approval of New Antibiotic and other Drugs by the Regulating Agency
497(8)
Pre-submission work by the pharmaceutical firm
497(2)
Submission of the new drug to the FDA
499(1)
Approval
500(1)
Post approval research
501(1)
Suggested Readings
501(4)
Section H Waste Disposal
Treatment of Wastes in Industry
505(15)
Methods for the Determination of Organic Matter Content in Waste Waters
505(3)
Dissolved oxygen
506(1)
The biological or biochemical oxygen demand (BOD) tests
506(1)
Permanganate value (PV) test
506(1)
Chemical oxygen demand (COD)
507(1)
Total organic carbon (TOC)
507(1)
Total suspended solids (TSS)
507(1)
Volatile suspended solids (VSS)
507(1)
Wastes from Major Industries
508(1)
Systems for the Treatment of Wastes
509(7)
Aerobic breakdown of raw waste waters
509(7)
Treatment of the Sludge: Anaerobic Breakdown of Sludge
516(1)
Waste Water Disposal in the Pharmaceutical Industry
517(3)
Suggested Readings
519(1)
Glossary 520(3)
Index 523