Verfügbarkeit: General microbiology

General microbiology:

Gespeichert in:

Bibliographische Detailangaben
Format:	Buch
Sprache:	English
Veröffentlicht:	Basingstoke [u. a.] Macmillan 1987
Ausgabe:	5. ed.
Schlagworte:	Microbiologie Microbiology Mikrobiologie Einführung
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	XIV, 689 S. Ill., graph. Darst.
ISBN:	0333417682

Internformat

MARC


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245	1	0	\|a General microbiology \|c Roger Y. Stanier ...
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700	1		\|a Stanier, Roger Y. \|d 1916-1982 \|e Sonstige \|0 (DE-588)117724661 \|4 oth
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Datensatz im Suchindex

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adam_text	IMAGE 1 CONTENTS PREFACE XIII CHAPTER 1 THE BEGINNINGS OF MICROBIOLOGY 1 THE DISCOVERY OF THE MICROBIAL WORLD 2 THE CONTROVERSY OVER SPONTANEOUS GENERATION 3 THE EXPERIMENTS OF PASTEUR 4 THE EXPERIMENTS OF TYNDALL 5 THE DISCOVERY OF THE ROLE OF MICROORGANISMS IN TRANSFORMATION OF ORGANIC MATTER 6 FERMENTATION AS A BIOLOGICAL PROCESS 6 THE DISCOVERY OF ANAEROBIC LIFE 7 THE PHYSIOLOGICAL SIGNIFICANCE OF FERMENTATION 7 THE DISCOVERY OF THE ROLE OF MICROORGANISMS IN THE CAUSATION OF DISEASE 8 SURGICAL ANTISEPSIS 8 THE BACTERIAL ETIOLOGY OF ANTHRAX 8 THE RISE OF MEDICAL BACTERIOLOGY 9 THE DISCOVERY OF FILTERABLE VIRUSES 10 THE DEVELOPMENT OF PURE CULTURE METHODS 10 THE ORIGIN OF THE BELIEF IN PLEOMORPHISM 10 THE FIRST PURE CULTURES 11 THE DEVELOPMENT OF CULTURE MEDIA BY KOCH AND HIS SCHOOL 12 MICROORGANISMS AS GEOCHEMICAL AGENTS 12 ENRICHMENT CULTURE METHODS 13 THE GROWTH OF MICROBIOLOGY IN THE TWENTIETH CENTURY FURTHER READING 15 13 CHAPTER 2 THE METHODS OF MICROBIOLOGY 16 17 PURE CULTURE TECHNIQUE THE ISOLATION OF PURE CULTURES BY PLATING METHODS THE ISOLATION OF PURE CULTURES IN LIQUID MEDIA 19 TWO-MEMBERED CULTURES 20 THE THEORY AND PRACTICE OF STERILIZATION 20 STERILIZATION BY HEAT 21 STERILIZATION BY CHEMICAL TREATMENT 22 STERILIZATION BY FILTRATION 22 THE PRINCIPLES OF MICROBIAL NUTRITION 22 THE REQUIREMENTS FOR CARBON 23 THE REQUIREMENTS FOR NITROGEN AND SULFUR 24 GROWTH FACTORS 25 THE ROLES OF OXYGEN IN NUTRITION 26 NUTRITIONAL CATEGORIES AMONG MICROORGANISMS 17 27 CONTENTS III IMAGE 2 THE CONSTRUCTION OF CULTURE MEDIA 27 THE CONTROL OF PH 30 THE AVOIDANCE OF MINERAL PRECIPITATES: CHELATING AGENTS 31 THE CONTROL OF OXYGEN CONCENTRATION 31 TECHNIQUES FOR CULTIVATION OF OBLIGATE ANAEROBES 32 THE PROVISION OF CARBON DIOXIDE 32 THE PROVISION OF LIGHT 32 SELECTIVE MEDIA 33 DIRECT ISOLATION 33 ENRICHMENT 33 ENRICHMENT METHODS FOR SOME SPECIALIZED PHYSIOLOGICAL GROUPS 34 SYNTHETIC ENRICHMENT MEDIA FOR CHEMOHETEROTROPHS 34 THE ENRICHMENT OF CHEMOAUTOTROPHIC AND PHOTOSYNTHE- TIC ORGANISMS 35 THE USE OF COMPLEX MEDIA FOR ENRICHMENT 36 LIGHT MICROSCOPY 37 THE LIGHT MICROSCOPE 37 RESOLVING LIMIT 37 CONTRAST AND ITS ENHANCEMENT IN THE LIGHT MICROSCOPE 38 ULTRAVIOLET AND FLUORESCENCE MICROSCOPY 40 ELECTRON MICROSCOPY 40 THE SCANNING ELECTRON MICROSCOPE 44 FURTHER READING 42 CHAPTER 3 THE NATURE OF THE MICROBIAL WORLD43 THE COMMON PROPERTIES OF BIOLOGICAL SYSTEMS 43 PATTERNS OF CELLULAR ORGANIZATION 44 THE PROBLEM OF PRIMARY DIVISIONS AMONG ORGANISMS 45 THE PLACE OF MICROORGANISMS 45 THE CONCEPT OF PROTISTS 46 EUCARYOTES AND PROCARYOTES 47 STRUCTURE OF THE CYTOPLASMIC MEMBRANE 48 STRUCTURE OF THE CYTOPLASM 49 CYTOPLASMIC MEMBRANE SYSTEMS 50 THE NUCLEAR ENVELOPE. 50 THE ENDOPLASMIC RETICULUM AND THE GOLGI APPARATUS 52 CHLOROPLAST AND MITOCHONDRIAL MEMBRANES 53 CYTOPLASMIC MEMBRANE SYSTEMS IN BACTERIA 54 CYTOSKELETAL ELEMENTS 55 MICROTUBULES 55 MICROFILAMENTS 55 INTERMEDIATE FILAMENTS 57 CYTOSKELETAL ELEMENTS IN BACTERIA 57 ENDOCYTOSIS AND EXPCYTOSIS 57 OSMOREGULATION IN MICROORGANISMS 59 STRUCTURE OF THE CHROMOSOME 59 THE EUCARYOTIC CHROMOSOME 59 THE EUBACTERIAL CHROMOSOME 60 THE ARCHAEBACTERIAL CHROMOSOME 60 SEGREGATION OF THE CHROMOSOME 60 CHROMOSOME SEGREGATION IN EUCARYOTES 62 CHROMOSOME SEGREGATION IN EUBACTERIA 64 CHROMOSOME SEGREGATION IN ARCHAEBACTERIA 65 TRANSCRIPTION AND TRANSLATION OF THE GENOME 65 SEQUENCE AND PROCESSING OF STABLE RNA 66 MESSENGER RNA PROCESSING 66 THE INITIATION OF TRANSLATION 68 ELONGATION FACTORS IN TRANSLATION 68 RIBOSOME STRUCTURE 69 COUPLING OF TRANSCRIPTION AND TRANSLATION 70 CHLOROPLAST AND MITOCHONDRIAL GENOMES 70 GENOME STRUCTURE IN CHLOROPLASTS AND MITROCHONDRIA 70 EXPRESSION OF THE CHLOROPLAST AND MITOCHONDRIAL GENOMES 70 THE EVOLUTIONARY ORIGINS OF CHLOROPLASTS AND MITOCHONDRIA 71 SEXUAL PROCESSES IN MICROORGANISMS 71 SEXUAL PROCESSES IN EUCARYOTES 71 SEXUAL PROCESSES IN BACTERIA 72 THE DIFFERENCES AMONG CELL TYPES: A SUMMARY 73 THE GENERAL PROPERTIES OF VIRUSES 76 FURTHER READING 76 CHAPTER 4 MICROBIAL METABOLISM: FUELLING REACTIONS 78 THE ROLE OF ATP IN METABOLISM 79 OTHER COMPOUNDS WITH HIGH-ENERGY BONDS 80 THE ROLE OF REDUCING POWER IN METABOLISM 80 THE ROLE OF PRECURSOR METABOLITES IN METABOLISM 81 BIOCHEMICAL MECHANISMS GENERATING ATP 82 SUBSTRATE LEVEL PHOSPHORYLATION 82 GENERATION OF ATP BY ELECTRON TRANSPORT 82 VALUES OF E' O FOR COMPONENTS IN ELECTRON TRANSPORT CHAINS 84 THE COMPONENTS OF ELECTRON TRANSPORT CHAINS 84 ARRANGEMENT OF ELECTRON TRANSPORT CHAINS IN THE CELL MEMBRANE 86 THE BIOCHEMISTRY OF THE FUELING REACTIONS IN AEROBIC HETEROTROPHS 87 PATHWAYS OF FORMATION OF PYRUVATE 87 PATHWAYS OF UTILIZATION OF PYRUVATE BY AEROBES 89 THE ROLE OF THE GLYOXYLATE CYCLE IN ACETIC ACID OXIDATION 91 SPECIAL PATHWAYS FOR PRIMARY ATTACK ON ORGANIC COMPOUNDS BY MICROORGANISMS 92 THE FUELING REACTIONS OF ANAEROBIC HETEROTROPHS 94 ANAEROBIC RESPIRATION 94 FERMENTATION 94 THE FUELING REACTIONS OF AUTOTROPHS 95 THE CALVIN-BENSON CYCLE: SYNTHESIS OF PRECURSOR METABOLITES 95 GENERATION OF ATP AND REDUCED PYRIDINE NUCLEOTIDES BY CHEMOAUTOTROPHS 96 PHOTOSYNTHESIS 96 ANTENNA OF LIGHT-HARVESTING PIGMENTS 97 PHOTOCHEMICAL REACTION CENTERS 99 PHOTOSYNTHETIC ELECTRON TRANSPORT CHAIN 99 PATTERNS OF ELECTRON FLOW 99 FURTHER READING 101 IV CONTENTS IMAGE 3 CHAPTER 5 MICROBIAL METABOLISM.- BIOSYNTHESIS, POLYMERIZATION, ASSEMBLY 102 METHODS OF STUDYING BIOSYNTHESIS 103 USE OF BIOCHEMICAL MUTANTS 103 USE OF ISOTOPIC LABELING 104 THE ASSIMILATION OF NITROGEN AND SULFUR 104 THE ASSIMILATION OF AMMONIA 105 THE ASSIMILATION OF NITRATE 106 THE ASSIMILATION OF MOLECULAR NITROGEN 106 THE ASSIMILATION OF SULFATE 107 THE STRATEGY OF BIOSYNTHESIS 108 THE SYNTHESIS OF NUCLEOTIDES 108 SYNTHESIS OF RIBONUCLEOTIDES 109 SYNTHESIS OF THE 2'DEOXYRIBONUCLEOTIDES 111 UTILIZATION OF EXOGENOUS PURINE AND PYRIMIDINE BASES AND NUCLEOSIDES 112 THE SYNTHESIS OF AMINO ACIDS AND OTHER NITROGENOUS CELL CONSTITUENTS 113 THE GLUTAMATE FAMILY 113 THE ASPARTATE FAMILY 114 THE AROMATIC FAMILY 116 THE SERINE AND PYRUVATE FAMILIES 116 HISTIDINE SYNTHESIS 116 SYNTHESIS OF OTHER NITROGENOUS COMPOUNDS VIA AMINO ACID PATHWAYS 117 THE SYNTHESIS OF LIPID CONSTITUENTS FROM ACETATE 120 SYNTHESIS OF FATTY ACIDS 122 SYNTHESIS OF PHOSPHOLIPIDS 124 SYNTHESIS OF POLYISOPRENOID COMPOUNDS 126 THE SYNTHESIS OF PORPHYRINS 126 VARIATIONS OF BIOSYNTHETIC PATHWAYS AMONG BACTERIA 127 THE POLYMERIZATION OF BUILDING BLOCKS: GENERAL PRINCIPLES 128 THE GENERAL PLAN OF SYNTHESIS OF NUCLEIC ACIDS AND PROTEINS 129 THE POLYMERIZATION OF NUCLEOTIDES INTO DNA 130 THE ANTIPARALLEL STRUCTURE OF THE DNA DOUBLE HELIX 131 DNA POLYMERASES 131 REPLICATION 131 THE SYNTHESIS OF RNA 133 SYNTHESIS OF PROTEINS 134 INITIATION OF TRANSCRIPTION 134 TERMINATION OF TRANSCRIPTION 135 TRANSLATION 136 ACTIVATION OF AMINO ACIDS 136 SYNTHESIS OF THE PROCARYOTIC RIBOSOME 137 INITIATION OF TRANSLATION 138 ELONGATION OF THE PEPTIDE CHAIN 138 THE SECONDARY, TERTIARY, AND QUATERNARY STRUCTURE OF PROTEINS 140 THE SYNTHESIS OF POLYSACCHARIDES 142 THE SYNTHESIS OF PEPTIDOGLYCAN 142 ASSEMBLY OF BIOPOLYMERS INTO CELLULAR COMPONENTS 144 FURTHER READING 144 CHAPTER 6 THE RELATION BETWEEN STRUCTURE AND FUNCTION IN PROCARYOTIC CELLS 145 SURFACE STRUCTURES OF THE PROCARYOTIC CELL 145 TAXONOMIC SIGNIFICANCE 145 EARLY STUDIES ON THE PROCARYOTIC WALL 147 THE SURFACE STRUCTURES OF ARCHAEBACTERIA 148 THE CELL MEMBRANE 148 THE BACTERIAL CELL WALL: ITS PEPTIDOGLYCAN COMPONENT 149 THE LOCATION OF PEPTIDOGLYCAN IN THE WALLS OF GRAM-NEGATIVE BACTERIA 153 THE OUTER MEMBRANE 155 THE PERIPLASM 157 PEPTIDOGLYCAN IN THE WALLS OF GRAM-POSITIVE BACTERIA 158 FUNCTION OF THE PEPTIDOGLYCAN LAYER 159 THE TOPOLOGY OF WALL AND MEMBRANE SYNTHESIS 160 CAPSULES AND SLIME LAYERS 164 THE MOLECULAR STRUCTURE OF FLAGELLA AND PILI 166 THE BASAL STRUCTURE OF THE FLAGELLUM 168 SYNTHESIS OF THE FLAGELLAR FILAMENT 169 THE MECHANISM OF FLAGELLAR MOVEMENT 169 THE CHEMOTACTIC BEHAVIOR OF MOTILE BACTERIA 170 THE PHOTOTACTIC BEHAVIOR OF PURPLE BACTERIA 171 SPECIAL PROCARYOTIC ORGANELLES 172 GAS VESICLES AND GAS VACUOLES 172 CHLOROSOMES 174 CARBOXYSOMES (POLYHEDRAL BODIES) 174 MAGNETOSOMES 174 THE PROCARYOTIC CELLULAR RESERVE MATERIALS 176 NONNITROGENOUS ORGANIC REVERSE MATERIALS 176 NITROGENOUS RESERVE MATERIALS 178 POLYPHOSPHATE GRANULES 179 SULFUR INCLUSIONS 179 THE NUCLEUS 179 RECOGNITION AND CYTOLOGICAL DEMONSTRATION OF BACTERIAL NUCLEI 179 THE BACTERIAL CHROMOSOME 180 THE ISOLATION OF BACTERIAL NUCLEI 181 FURTHER READING 182 CHAPTER 7 MICROBIAL GROWTH183 THE DEFINITION OF GROWTH 183 THE MATHEMATICAL NATURE AND EXPRESSION OF GROWTH 184 THE GROWTH CURVE 184 THE DEATH PHASE 185 THE LAG PHASE 185 ARITHMETIC GROWTH 186 THE MEASUREMENT OF GROWTH 186 MEASUREMENT OF CELL MASS 186 MEASUREMENT OF CELL NUMBER 187 MEASUREMENT OF A CELL CONSTITUENT 189 THE EFFICIENCY OF GROWTH: GROWTH YIELDS 189 SYNCHRONOUS GROWTH 190 EFFECT OF NUTRIENT CONCENTRATION ON GROWTH RATE 192 CONTENTS V IMAGE 4 CONTINUOUS CULTURE OF MICROORGANISMS 192 CHEMOSTATS AND TURBIDOSTATS 194 USE OF CONTINUOUS CULTURE SYSTEMS 195 MAINTENANCE ENERGY 195 FURTHER READING 195 CHAPTERS EFFECT OF THE ENVIRONMENT ON MICROBIAL GROWTH 196 FUNCTIONS OF THE CELL MEMBRANE 196 ENTRY OF NUTRIENTS INTO THE CELL 197 PASSIVE DIFFUSION 197 FACILITATED DIFFUSION 197 ACTIVE TRANSPORT 197 BINDING PROTEINS 198 SECONDARY ACTIVE TRANSPORT 198 ACTIVE TRANSPORT LINKED TO PHOSPHATE BOND ENERGY GROUP TRANSLOCATION 199 SUMMARY OF MEMBRANE TRANSPORT MECHANISMS UTILIZATION OF SUBSTRATES THAT CANNOT PASS THE CELL MEMBRANE 201 EFFECTS OF SOLUTES ON GROWTH AND METABOLISM 204 OSMOTIC TOLERANCE 204 THE REQUIREMENT FOR NA + IN BACTERIA 206 EFFECT OF TEMPERATURE ON MICROBIAL GROWTH 207 FACTORS THAT DETERMINE TEMPERATURE LIMITS GROWTH 209 EFFECT OF GROWTH TEMPERATURE ON LIPID COMPOSITION 210 OXYGEN RELATIONS 210 THE TOXICITY OF OXYGEN: CHEMICAL MECHANISMS 210 THE PHOTOOXIDATIVE EFFECT 211 OXYGEN-SENSITIVE ENZYMES 212 THE ROLE OF OXYGENASES IN AEROBIC MICROORGANISMS 212 FURTHER READING 212 198 201 FOR CHAPTER 9 THE VIRUSES 213 213 220 221 224 THE DISCOVERY OF VIRUSES VIRUS STRUCTURE 214 CLASSIFICATION OF VIRUSES 219 THE VIRAL REPLICATION CYCLE 219 ENTRY OF VIRUSES INTO HOST CELLS UNCOATING 221 REPLICATION OF CHROMOSOMES OF DNA VIRUSES REPLICATION OF CHROMOSOMES OF RNA VIRUSES FUNCTIONS OF VIRAL GENE PRODUCTS 224 REGULATION OF EXPRESSION OF VIRAL GENES 225 DELETERIOUS EFFECTS OF VIRAL REPLICATION ON METABOLISM OF HOST CELLS 227 VIRION ASSEMBLY 227 ESCAPE 228 INFECTIOUS VIRAL NUCLEIC ACID 228 DETECTION AND ENUMERATION OF VIRUSES 228 THE PLAQUE ASSAY 229 KINETICS OF VIRAL MULTIPLICATION 229 LYSOGENY 230 LYSOGENY: PHAGE X TYPE 231 LYSOGENY: PHAGE PI TYPE 231 REGULATION OF LYSOGENY IN PHAGE X 232 INDUCTION 233 LYSOGENIC CONVERSION 233 VIROIDS 233 PRIONS 233 FURTHER READING 234 CHAPTER 10 MICROBIAL GENETICS: GENE FUNCTION AND MUTATION 235 THE BACTERIAL GENOME 235 ARRANGEMENTS OF GENES ON THE CHROMOSOME 235 MUTATIONS 238 THE CONSEQUENCES OF MUTATION 239 MUTAGENS 240 PHENOTYPIC CONSEQUENCES OF MUTATIONS 243 CONDITIONALLY EXPRESSED MUTATIONS 243 MUTANT METHODOLOGY 245 ISOLATION OF MUTANT STRAINS 246 PHENOTYPIC EXPRESSION 246 ENRICHMENT OF MUTANT CELLS IN A POPULATION 246 DETECTION OF MUTANT CLONES 248 POPULATION DYNAMICS 249 THE ESTIMATION OF MUTATION RATE 250 MUTATIONAL EQUILIBRIUM 251 EFFECTS OF SELECTION ON THE PROPORTIONS OF MUTANT TYPES 253 SELECTION AND ADAPTATION 254 THE GENETIC VARIABILITY OF PURE CULTURES 254 SELECTIVE PRESSURES IN NATURAL ENVIRONMENTS 254 THE CONSEQUENCES OF MUTATION IN CELLULAR ORGANELLES 255 MUTANT TYPES OF BACTERIOPHAGES 255 FURTHER READING 256 CHAPTER 11 MICROBIAL GENETICS-. GENETIC EXCHANGE AND RECOMBINATION BACTERIAL TRANSFORMATION 258 TYPES OF TRANSFORMATION MECHANISMS FOUND AMONG PROCARYOTES 258 NATURAL TRANSFORMATION SYSTEMS: STREPTOCOCCUS PNEUNOMIAE 259 NATURAL TRANSFORMATION SYSTEMS: HAEMOPHILUS INFLUENZAE 261 NATURAL TRANSFORMATION BY PLASMIDS 262 ARTIFICIAL TRANSFORMATION 263 THE ROLE OF THE DONOR CELL IN TRANSFORMATION 263 BACTERIAL CONJUGATION 263 PROPERTIES OF THE F PLASMID 264 HFR STRAINS 265 PROPERTIES OF CLONES OF HFR CELLS 266 F-MEDIATED TRANSFER OF OTHER PLASMIDS 267 VI CONTENTS IMAGE 5 REGULATION OF PIGMENT SYNTHESIS 360 CONSTITUENT GROUPS OF CYANOBACTERIA 360 ECOLOGY 371 THE PURPLE BACTERIA 372 CONSTITUENT GROUPS OF PURPLE BACTERIA 373 PURPLE SULFUR BACTERIA 374 PURPLE NONSULFUR BACTERIA 376 EFFECTS OF O 2 ON GROWTH AND PIGMENT SYNTHESIS IN PURPLE NONSULFUR BACTERIA 377 THE GREEN BACTERIA 378 THE GREEN SULFUR BACTERIA 378 GREEN NONSULFUR BACTERIA: THE CHLOROFLEXUS GROUP 380 ECOLOGICAL RESTRICTIONS IMPOSED BY ANOXYGENIC PHOTOSYNTHESIS 380 BACTERIOCHLOROPHYLL IN AEROBIC EUBACTERIA 381 HELIOBACTERIUM 381 FURTHER READING 382 CHAPTER 16 THE CHEMOAUTOTROPHIC AND METHOPHILIC EUBACTERIA 383 THE CHEMOAUTOTROPHS 383 ULTILIZABLE SUBSTRATES 384 THE NITRIFYING BACTERIA 384 SULFUR OXIDIZERS 385 THE IRON BACTERIA 390 THE HYDROGEN BACTERIA 391 THE CARBOXYDOBACTERIA 391 THE METABOLIC BASIS OF CHEMOAUTOTROPHY 392 ENERGY CONSERVATION AND PYRIDINE NUCLEOTIDE REDUCTION 392 THE PHENOMENON OF OBLIGATE AUTOTROPHY 393 CARBON RESERVE MATERIALS IN CHEMOAUTOTROPHS 394 GROWTH INHIBITION BY ORGANIC COMPOUNDS 394 THE METHOPHILES 395 THE METABOLISM OF METHYL COMPOUNDS 395 CARBON ASSIMILATION BY METHOPHILES 396 THE METHANOTROPHS 397 RESTING STAGES OF METHANOTROPHS 398 THE METHYLOTROPHS 400 ORIGINS OF CHEMOAUTOTROPHS AND METHOPHILES FURTHER READING 401 CHAPTER 17 GRAM-NEGATIVE AEROBIC EUBACTERIA 402 400 THE AEROBIC PSEUDOMONADS 404 THE FLUORESCENT PSEUDOMONADS THE PSEUDOMALLEI GROUP 406 THE ACIDOVORANS GROUP 407 THE DIMINUTA GROUP 407 THE XANTHOMONAS GROUP 407 THE ZOOGLOEA GROUP 407 THE RHIZOBIUM GROUP 408 THE RHIZOBIA 408 THE GENUS AYROHACTERIUM 412 405 PROSTHECATE BACTERIA 413 THE AZOTOBACTER GROUP 416 THE ACETIC ACID BACTERIA 417 THE SHEATHED BACTERIA 419 THE SPIRILLUM GROUP 420 THE MORAXELLA GROUP 423 THE LEGIONELLA GROUP 424 THE PLANCTOMYCES GROUP 425 FURTHER READING 426 CHAPTER 18 THE GLIDING EUBACTERIA 427 THE MYXOBACTERIA 428 NONFRUITING MYXOBACTERIA 433 THE CYTOPHAGA GROUP 434 FILAMENTOUS, GLIDING CHEMOHETEROTROPHS 436 FURTHER READING 438 CHAPTER 19 THE ENTERIC GROUP AND RELATED EUBACTERIA 439 COMMON PROPERTIES OF THE ENTERIC GROUP 440 FERMENTATIVE METABOLISM 440 SOME PHYSIOLOGICAL CHARACTERS OF DIFFERENTIAL VALUE 443 GENETIC RELATIONSHIPS AMONG THE ENTERIC BACTERIA 444 TAXONOMIC SUBDIVISION OF THE ENTERIC GROUP 445 GROUP I: ESCHERICHIA-SALMONELLA-SHIGELLA 445 GROUP II: ENTEROBACTER-SERRATIA-ERWINIA 447 GROUP III: PROTEUS-PROVIDENCIA 448 GROUP IV: YERSINIA 448 THE POLAR FLAGELLATES: AEROMONAS- VIBRIO-PHOTOBACTERIUM 448 ZYMOMONAS 451 COLIFORM BACTERIA IN SANITARY ANALYSIS 451 FURTHER READING 452 CHAPTER 20 GRAM-NEGATIVE ANAEROBIC EUBACTERIA 453 THE GRAM-NEGATIVE FERMENTATIVE EUBACTERIA 453 FERMENTATION PATTERNS OF GRAM-NEGATIVE EUBACTERIA 454 FUMARATE RESPIRATION 456 NITRATE RESPIRATION 456 CONSTITUENT GROUPS OF GRAM-NEGATIVE FERMENTATIVE EUBACTERIA 457 THE SULFUR-REDUCING BACTERIA 459 THE PATHWAY OF SULFATE REDUCTION 459 DIVERSITY OF SULFUR-REDUCING BACTERIA 460 ECOLOGICAL ACTIVITIES 463 FURTHER READING 463 VIII CONTENTS IMAGE 6 CHAPTER 21 GRAM-NEGATIVE EUBACTERIA: SPIROCHETES, RICKETTSIAS AND CHLAMYDIAS 464 THE SPIROCHETES 464 MOTILITY OF SPIROCHETES 466 CELL DIVISION IN THE SPIROCHETES 467 DIVERSITY OF SPIROCHETES 467 SPIROCHETES SYMBIOTIC WITH INVERTEBRATE ANIMALS 469 THE RICKETTSIAS 469 THE CHLAMYDIAS 473 FURTHER READING 474 CHAPTER 22 GRAM-POSITIVE EUBACTERIA: UNICELLULAR ENDOSPORE FORMERS 475 THE ENDOSPORE 476 ENDOSPORE FORMATION 476 OTHER BIOCHEMICAL EVENTS RELATED TO SPORULATION 479 ACTIVATION, GERMINATION, AND OUTGROWTH OF ENDOSPORES 480 CLASSIFICATION OF THE ENDOSPOREFORMERS 481 PEPTIDOGLYCAN STRUCTURE 482 THE AEROBIC SPOREFORMERS 482 THE GENUS BACILLUS 482 THERMOPHILIC BACILLI 486 LIPID COMPOSITION OF THE BACILLI 486 THE GENUS THERMOACTINOMYCES 486 THE ANAEROBIC SPOREFORMERS 487 THE BUTYRIC ACID CLOSTRIDIA 488 THE ANAEROBIC DISSIMILATION OF AMINO ACIDS BY CLOSTRIDIA 488 THE FERMENTATION OF NITROGEN-CONTAINING RING COMPOUNDS 491 CARBOHYDRATE FERMENTATIONS BY CLOSTRIDIA THAT DO NOT YIELD BUTYRIC ACID AS A PRODUCT 491 THE ETHANOL-ACETATE FERMENTATION BY CLOSTRIDIUM KLUYVERI 492 THE GENUS DESULFOTOMACULUM 493 THE GENUS SPOROLACTOBACILLUS 494 FURTHER READING 494 CHAPTER 23 GRAM-POSITIVE EERMENTATIVE EUBACTERIA 495 THE GENUS STAPHYLOCOCCUS 496 THE LACTIC ACID BACTERIA 496 PATTERNS OF CARBOHYDRATE FERMENTATION IN LACTIC ACID BACTERIA 498 SUBDIVISION OF THE LACTIC ACID BACTERIA 500 OTHER GRAM-POSITIVE ANAEROBES 501 FURTHER READING 504 CHAPTER 24 GRAM-POSITIVE EUBACTERIA: EHE ACTINOMYCETES 505 CHARACTERISTICS OF ACTINOMYCETES 506 MOTILITY 506 CELLS WALLS 506 DEVELOPMENTAL PATTERNS IN MYCELIAL ACTINOMYCETES 506 MAJOR GROUPS OF ACTINOMYCETES 507 THE ACTINOBACTERIA 507 THE NOCARDIOFORM BACTERIA 510 THE DERMATOPHILUS GROUP 512 THE STREPTOMYCETES 517 THE ACTINOPLANETES 518 FURTHER READING 519 CHAPTER 25 THE MOLLICUTES 520 METABOLISM OF THE MOLLICUTES 521 CELL SHAPE AND REPRODUCTION 522 MYCOPLASMA 523 ACHOLEPLASMA 523 SPIROPLASMA 524 ANAEROPLASMA 524 UREAPLASMA 524 FURTHER READING 524 CHAPTER 26 THEPROTISTS 525 THE ALGAE 526 THE PHOTOSYNTHETIC FLAGELLATES 526 THE NONFLAGELLATE UNICELLULAR ALGAE 527 THE NATURAL DISTRIBUTION OF ALGAE 530 NUTRITIONAL VERSATILITY OF ALGAE 531 THE LEUCOPHYTIC ALGAE 531 THE PROTOZOA 532 THE ORIGINS OF THE PROTOZOA 532 THE FLAGELLATE PROTOZOA: THE MASTIGOPHORA 533 THE AMEBOID PROTOZOA: THE RHIZOPODA 534 THE CILIATE PROTOZOA: THE CILIOPHORA 534 THE FUNGI 536 THE AQUATIC PHYCOMYCETES 537 THE TERRESTRIAL PHYCOMYCETES 538 DISTINCTIONS BETWEEN PHYCOMYCETES AND HIGHER FUNGI 540 THE ASCOMYCETES AND BASIDIOMYCETES 540 THE FUNGI IMPERFECTI 540 THE YEASTS 541 THE SLIME MOLDS 542 THE PROTISTS: SUMMING UP 544 FURTHER READING 544 CONTENTS IX IMAGE 7 CHAPTER27 MICROORGANISMS AS GEOCHEMICAI AGENTS 545 THE FITNESS OF MICROORGANISMS AS AGENTS OF GEOCHEMICAI CHANGE 546 THE DISTRIBUTION OF MICROORGANISMS IN SPACE AND TIME 546 THE METABOLIC POTENTIAL OF MICROORGANISMS 547 THE METABOLIC VERSATILITY OF MICROORGANISMS 547 THE CYCLES OF MATTER 547 THE PHOSPHORUS CYCLE 547 THE OXYGEN CYCLE 548 THE CARBON CYCLE 548 THE MINERALIZATION PROCESS: CARBON DIOXIDE FORMATION AND THE REDUCTION OF OXYGEN 549 THE SEQUESTRATION OF CARBON: INORGANIC DEPOSITS 549 THE SEQUESTRATION OF CARBON: ORGANIC DEPOSITS 549 THE NITROGEN CYCLE 550 NITROGEN FIXATION 551 THE UTILIZATION OF FIXED NITROGEN 552 THE TRANSFORMATIONS OF ORGANIC NITROGEN BY WHICH AMMONIA IS FORMED 552 NITRIFICATION 553 DENITRIFICATION 553 THE SULFUR CYCLE 554 THE ASSIMILATION OF SULFATE 555 THE TRANSFORMATION OF ORGANIC SULFUR COMPOUNDS AND FORMATION OF H 2S 555 THE DIRECT FORMATION OF H 2S FROM SULFATE 555 THE OXIDATION OF H 2S AND SULFUR 556 THE CYCLES OF MATTER THROUGH GEOLOGICAL TIME 556 THE INFLUENCE OF HUMANS ON THE CYCLES OF MATTER 557 SEWAGE TREATMENT 557 THE DISSEMINATION OF SYNTHETIC ORGANIC CHEMICALS 557 FURTHER READING 558 CHAPTER 28 SYMBIOSIS 559 TYPES OF SYMBIOSES 559 MUTUALISTIC SYMBIOSES 560 PARASITIC SYMBIOSES 561 PARASITISM AS AN ASPECT OF ECOLOGY 561 THE FUNCTIONS OF SYMBIOSIS 562 PROTECTION 562 PROVISION OF A FAVORABLE POSITION 562 PROVISION OF RECOGNITION DEVICES 564 NUTRITION 564 THE ESTABLISHMENT OF SYMBIOSES 565 DIRECT TRANSMISSION 565 REINFECTION 565 THE EVOLUTION OF SYMBIOSES 566 SYMBIOTIC ASSOCIATIONS BETWEEN PHOTOSYNTHETIC AND NONPHOTOSYNTHETIC PARTNERS 566 SYMBIOSES IN WHICH THE PHOTOSYNTHETIC PARTNER IS A HIGHER PLANT 568 THE RHIZOSPHERE 568 MYCORRHIZAS 568 SYMBIOSES IN WHICH THE PHOTOSYNTHETIC PARTNER IS A MICROORGANISM 569 ENDOSYMBIONTS OF PROTOZOA 569 SYMBIOSES WITH FUNGI: THE LICHENS 570 ENDOSYMBIOSES OF ALGAE WITH AQUATIC INVERTEBRATES 574 SYMBIOTIC ASSOCIATIONS BETWEEN TWO NONPHOTOSYNTHETIC PARTNERS 574 SYMBIOSES IN WHICH BOTH PARTNERS ARE MICROORGANISMS 574 BACTERIAL ENDOSYMBIONTS OF PROTOZOA 574 SYMBIOSES BETWEEN MICROORGANISMS AND METAZOAN HOSTS 578 ECTOSYMBIOSES OF PROTOZOA WITH INSECTS: THE INTESTINAL FLAGELLATES OF WOOD-EATING TERMITES AND ROACHES 578 ENDOSYMBIOSES OF FUNGI AND BACTERIA WITH INSECTS 578 THE RUMINANT SYMBIOSIS 581 ECTOSYMBIOSES OF MICROORGANISMS WITH BIRDS: THE HONEY GUIDES 583 FURTHER READING 584 CHAPTER 29 NONSPECIFIC HOST DEFENSE 585 PHYSICAL AND CHEMICAL BARRIERS TO INFECTION 585 BODY SURFACES 585 THE ROLE OF PH 586 ANTIMICROBIAL COMPOUNDS 586 SEQUESTRATION OF IRON 586 THE PROTECTIVE ROLE OF HOST MICROFLORA 586 GERM-FREE ANIMALS 587 NORMAL SKIN FLORA 588 NORMAL FLORA OF THE MOUTH AND UPPER RESPIRATORY TRACT 589 NORMAL INTESTINAL FLORA 589 THE ROLE OF PHAGOCYTIC CELLS IN THE ANIMAL HOST 589 LEUKOCYTES 589 PHAGOCYTOSIS 591 INFLAMMATION 592 CHEMICAL MEDIATORS OF INFLAMMATION 594 CHEMOTAXIS DURING INFLAMMATION 594 NONSPECIFIC DEFENSE AGAINST VIRUSES 595 FURTHER READING 596 CHAPTER30 THE IMMUNE SYSTEM 597 ANTIBODIES AND ANTIGENS 598 CONSTANT AND VARIABLE DOMAINS 600 IGG 600 IGA 601 IGM 601 IGD 602 IGE 602 ANTIGENS AND HAPTENS 602 CONTENTS IMAGE 8 ANTIBODY SOURCES 602 IMMUNIZATION 602 HYBRIDOMAS 603 CONSEQUENCES OF ANTIGEN-ANTIBODY BINDING IN THE HOST 604 TOXIN AND VIRUS NEUTRALIZATION 604 IMMUNE COMPLEX FORMATION AND AGGLUTINATION 604 THE CLASSIC COMPLEMENT FIXATION PATHWAY 605 THE ALTERNATE COMPLEMENT PATHWAY 605 OPSONIZATION 606 INFLAMMATION 606 CONSEQUENCES OF ANTIBODY-ANTIGEN BINDING IN VITRO 606 AGGLUTINATION REACTIONS 606 IMMUNOPRECIPITATION 608 IMMUNODIFFUSION 608 IMMUNOELECTROPHORESIS 608 COMPLEMENT FIXATION 609 RADIOIMMUNOASSAYS 609 TECHNIQUES EMPLOYING CONJUGATED ANTIBODIES 610 THE BASIS OF ANTIBODY DIVERSITY 610 THE "GERM LINE" AND "SOMATIC MUTATION" THEORIES THE GENERATION OF K CHAIN DIVERSITY 611 THE GENERATION OF X CHAIN DIVERSITY 612 THE GENERATION OF HEAVY CHAIN DIVERSITY 612 HOW MANY DIFFERENT ANTIBODIES? 613 FUNCTIONS OF T-CELLS 614 EFFECTOR T-CELLS 614 REGULATOR T-CELLS 614 HISTOCOMPATIBILITY ANTIGENS 615 IMMUNIZATION 616 611 618 PASSIVE IMMUNIZATION 616 ACTIVE IMMUNIZATION 616 ATTENUATED STRAINS 617 TOXOIDS 617 KINETICS OF IMMUNIZATION 617 HYPERSENSITIVITY AND AUTOIMMUNITY 618 ANAPHYLAXIS 618 ANTIBODY-DEPENDENT CYTOTOXICITY IMMUNE COMPLEX DISORDERS 618 DELAYED HYPERSENSITIVITY 619 AUTOIMMUNE DISEASES 619 FURTHER READING 620 CHAPTER31 MICROBIAL PATHOGENESIS 621 BACTERIAL TOXINS 622 IDENTIFICATION OF BACTERIAL TOXINS 623 EXAMPLES OF TOXIN-CAUSED PATHOGENESIS 623 DIPHTHERIA 623 TETANUS 624 CHOLERA 624 STAPHYLOCOCCAL FOOD POISONING 624 CLOSTRIDIAL FOOD POISONING 626 FOOD POISONINGS CAUSED BY ENTERIC BACTERIA 626 BOTULISM 626 TOXIC SHOCK SYNDROME 627 MYCOTOXINS 627 BACTERIAL COLONIZATION AND INVASION 628 IRON UPTAKE 628 ADHESION 628 INTRACELLULAR GROWTH 628 RESISTANCE TO PHAGOCYTOSIS 629 ANTIGENIC VARIATION AND ANTIGENIC MIMICRY 630 VIRUSES AND CANCER 630 THE ROLE OF DNA VIRUSES IN HUMAN CANCER 631 THE ROLE OF RNA VIRUSES IN HUMAN CANCER 632 THE ANIMAL CELL CULTURE MODEL OF CANCER 632 TRANSFORMATION BY SV40 632 TRANSFORMATION BY RETROVIRUSES 632 CELLULAR ONCOGENES 633 FURTHER READING 634 CHAPTER32 HUMAN PATHOGENS 635 EPIDEMIOLOGY OF INFECTIOUS DISEASES 635 RESERVOIRS OF INFECTION 635 MODES OF TRANSMISSION 636 BACTERIAL PATHOGENS 636 STAPHYLOCOCCAL DISEASES 636 STREPTOCOCCAL DISEASES 636 DISEASES CAUSED BY ENDOSPORE-FORMING BACTERIA 639 DISEASES CAUSED BY MYCOBACTERIA 640 LISTERIOSIS 640 DISEASES CAUSED BY ENTERIC BACTERIA 641 DIARRHEA CAUSED BY CAMPYLOBACTER 641 LEGIONAIRES' DISEASE 641 TULAREMIA 641 BRUCELLOSIS 642 DISEASES CAUSED BY PSEUDOMONAS 642 DISEASES CAUSED BY BORDETELLA AND HAEMOPHILUS SPECIES 642 NEISSERIAL DISEASES 642 MYCOPLASMAL DISEASES 642 DISEASES CAUSED BY SPIROCHETES 643 RICKETTSIAL DISEASES 643 CHLAMYDIAL DISEASES 644 FUNGAL DISEASES 644 DERMATOMYCOSES 644 SUBCUTANEOUS MYCOSES 644 SYSTEMIC (DEEP) MYCOSES 644 PROTOZOAL DISEASES 646 MALARIA 646 DISEASES CAUSED BY LEISHMANIAS 647 DISEASES CAUSED BY TRYPANOSOMES 648 AMEBIC DYSENTERY 648 GIARDIASIS 649 TRICHOMONIASIS 650 TOXOPLASMOSIS 650 PNEUMOCYSTIC PNEUMONIA 650 VIRAL DISEASES 650 DISEASES CAUSED BY HERPESVIRUSES 651 DISEASES CAUSED BY POXY VIRUSES 651 SERUM HEPATITIS 652 DISEASES CAUSED BY PICORNAVIRUSES 652 INFLUENZA 653 MEASLES, MUMPS, AND RUBELLA 654 RABIES 654 DISEASES CAUSED BY ROTAVIRUSES 654 DISEASES CAUSED BY TOGAVIRUSES 654 DISEASES CAUSED BY RETROVIRUSES 654 FURTHER READING 656 CONTENTS XI IMAGE 9 CHAPTER 33 THE EXPLOITATION OF MICROORGANISMS BY HUMANS 657 TRADITIONAL MICROBIAL PROCESSES UTILIZING YEASTS 657 THE MAKING OF WINE 658 THE MAKING OF BEER 659 THE MAKING OF BREAD 660 TRADITIONAL MICROBIAL PROCESSES UTILIZING ACETIC ACID BACTERIA 661 THE USES OF LACTIC ACID BACTERIA 661 MILK PRODUCTS 662 THE LACTIC FERMENTATION OF PLANT MATERIALS 662 DEXTRAN PRODUCTION 662 THE USES OF BUTYRIC ACID BACTERIA 663 THE RETTING PROCESS 663 THE ACETONE-BUTANOL FERMENTATION 664 MICROBES AS SOURCES OF PROTEIN 664 PRODUCTION OF YEASTS FROM PETROLEUM 664 PRODUCTION OF BACTERIA FROM PETROLEUM 665 PRODUCTION OF SPECIFIC AMINO ACIDS 665 THE MICROBIAL PRODUCTION OF CHEMOTHEAPEUTIC AGENTS 665 THE RISE OF CHEMOTHERAPY 666 THE DISCOVERY OF ANTIBIOTICS 666 MODE OF ACTION OF ANTIBIOTICS 668 THE PRODUCTION OF ANTIBIOTICS 669 MICROBIAL RESISTANCE TO ANTIBIOTICS 670 MICROBIAL TRANSFORMATIONS OF STEROIDS 671 MICROBIOLOGICAL METHODS FOR THE CONTROL OF INSECTS 672 THE PRODUCTION OF OTHER CHEMICALS BY MICROORGANISMS 672 THE PRODUCTION OF ENZYMES BY MICROORGANISMS 673 THE IMPACT OF RECOMBINANT DNA TECHNOLOGY ON THE PRODUCTION OF USEFUL PRODUCTS BY MICROORGANISMS 673 FURTHER READING 674 INDEX 675 XII CONTENTS
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spelling	General microbiology Roger Y. Stanier ... 5. ed. Basingstoke [u. a.] Macmillan 1987 XIV, 689 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Microbiologie ram Microbiology Mikrobiologie (DE-588)4316357-9 gnd rswk-swf (DE-588)4151278-9 Einführung gnd-content Mikrobiologie (DE-588)4316357-9 s DE-604 Stanier, Roger Y. 1916-1982 Sonstige (DE-588)117724661 oth SWB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=003803917&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	General microbiology Microbiologie ram Microbiology Mikrobiologie (DE-588)4316357-9 gnd
subject_GND	(DE-588)4316357-9 (DE-588)4151278-9
title	General microbiology
title_auth	General microbiology
title_exact_search	General microbiology
title_full	General microbiology Roger Y. Stanier ...
title_fullStr	General microbiology Roger Y. Stanier ...
title_full_unstemmed	General microbiology Roger Y. Stanier ...
title_short	General microbiology
title_sort	general microbiology
topic	Microbiologie ram Microbiology Mikrobiologie (DE-588)4316357-9 gnd
topic_facet	Microbiologie Microbiology Mikrobiologie Einführung
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=003803917&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT stanierrogery generalmicrobiology

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