239a9e70dfdbf0777729500a9d9c759c MIKROBIOLOGIYa VA BIOTEXNOLOGIYa ASOSLARI
Content Preface
14
Introduction
16
Short history of microbiology and biotechnology development
21
1 Chapter. Morphology and a ultrastructure of microorganisms.
35
1.1. Chemical composition of bacterial cells
35
1.2. Morphology and structure of bacteria
37
1.2. Morphology of microorganisms (external structure)
43
2. Chapter. Microorganisms systematics
51
2.1. Systematics of prokaryotes
51
2.2. Forms, groups and systematics of viruses
58
2.3. Viruses chemical composition
61
2.4. Viruses classification
62
3. Chapter. The main biochemical bases of biotechnological processes
66
3.1. Bacterial metabolism.
66
3.2. The mechanism of microorganisms metabolism
68
3.3. Ferments and their role in a metabolism
69
3.4. Proteins exchange
70
3.5. Microorganisms feeding and breath
71
3.6. Tricarboxylic acids cycle (Krebs cycle)
74
3.7. Microorganisms nitrogen nutrition
81
3.8. Chemosynthesis process
85
3.9. Fats oxidation by means of microorganisms
87
3.10. Lactate and alcohol fermentation by means of microorganisms
89
3.11. Fermentation of fatty acids, piktin materials and cellulose
102
3.12. Fattyacid and aceton-butil fermentation (fermentative processes by
means of Clostridium genus bacteria)
108
3.13. Photosynthesis
118
3.14. Planets of photosynthetic products
123
3.15. The vegetative polymers renewable through photosynthesis
129
4 Chapter. Microorganisms genetics
145
4.1. Variability and a heredity
145
4.2. Transformation, transduction, conjugation at microorganisms
158
5 Chapter. Diffusion of microorganisms in the nature
163
5.1. An external environment influence on microorganisms
163
5.2. Chemical factors
167
5.3. Biological factors
168
5.4. Water microflora
169
5.5. Soil microflora
172
5.6. Air microflora
175
5.7. Rhizospheric bacteria
176
5.8. Micorhizas
177
6 Chapter. Microorganisms geological activity
179
8
6.1. Microorganisms role in a soil formation
179
6.2. Sulphur cycle in the nature
182
6.3. Thionic bacteria
183
6.4. Iron bacteria
184
7 Chapter. Nitrogen cycle in the nature
187
7.1. Process of an ammonification and urea degradation
187
7.2. Processes of nitrification and denitrification
191
7.3. Bacterial fertilizers
205
7.4. Azotobacterin and AMB preparation
205
7.5. Phosphorobacterin
207
8 Chapter. Microorganisms biochemistry
208
8.1. Amino acids, proteins, vitamins and other substances synthesis at
microorganisms
208
9 Chapter. The pathogenic microorganisms
212
9.1. The doctrine about immunodefence
217
9.2. Antibiotics and phytoncids
221
10 Chapter. Biotechnology bases
224
10.1. Biotechnology role and value in a modern biological science
224
10.2. Objects of biotechnology. Microorganisms and reception of
beneficial materials with their help
238
11. Chapter. Gene engineering
247
11.1. Economic bases of gene engineering
247
11.2. Gene engineering ferments
249
11.3. Recombinant DNA reception methods
253
11.4. Plants and animals gene engineering
260
11.5. Genetic stuffs expression into transgene plants
261
11.6. Animals gene engineering
266
12 Chapter. Cellular engineering
268
12.1. Cellular engineering economic bases
268
12.2. Protoplasts reception
270
13 Chapter. Ferment engineering
273
13.1 Ferment engineering main tasks
273
13.2 Not cleared complex ferment preparations reception
275
13.3 Ferments purification methods
288
13.4. Ferments immobilization and stabilisation
292
13.5. Enzyme immobilization methods
295
14 Chapter. Cells immobilization
300
14.1. Microorganisms cells immobilization
300
14.2. Plants cells immobilization
302
14.3. Microorganisms and plants role in nature protection
304
15 Chapter. A water biocleaning
309
15.1 Water cleaning methods
309
15.2 Energy acquisition from the biomass by means of microorganisms: 310
9
bioenergy
The appendix
315
A glossarium
323
The literature list
328