Brief Contents

UNIT I Chapter 20 Eukaryotic Biology and Eukaryotic

Basic of Microbiology Chapter 1 Microorganisms and Microbiology 29 Chapter 2 A World 52 7

Chapter 3 Bacteria and 75

Microorganisms 612 Chapter 2 t Viral Diversity 641

2

Metabolism and Chapter 22 Methods in Microbial Ecology 670 Chapter 23 Major Microbial and Diversity 697 Chapter 24 Nutrient Cycles, Biodegradation, and

Chapter 4 Nutrition, Culture, and 726 Microorganisms 113 Chapter 25 Microbial 748

Chapter 5 Microbial Growth 8

Aaents and Molecular Biology Gene

Chapter 6 Bacteria 178 Chapter 27 Microbial Interactions with 815 Chapter 7 and Eukaryotic Molecular Biology 219 Chapter 8 Regulation of Gene Expression 237

4

9

Chapter 28 and Host Defense 844

chapter 29 Chapter 9 and 264 Chapter 30 Molecular Immunology 887 Chapter 291 Chapter 11 Genetic Engineering 319 10

chapter 12 Microbial Diseases Chapter 31 Diagnostic Microbiology and 906 Chapter 32 941

11

DiveTsity and Biocatalyses

Chapter Phototrophy, and Major

Human- and Chapter 14 400 Chapter 15 Products and Biotechnology 439

Chapter 33 Microbial Diseases 972

UNIT 6 Chapter 34 Vectorborne and Soilborne Microbial

Microbial Evolution and DiveTsity

Chapter 16 Evolution and 474 Chapter 17 503 Chapter 18 Bacteria 545 Chapter 35 Water , and Waterborne Microbial Diseases 1032 Chapter 19 Archaea 584

Chapter 36 Food Preservation and Microbial Diseases 1050

Brock Biology of Microorganisms2012

digitalisiert durch:IDS Basel Bern

Contents

About the Authors 3 2.6 Arrangement of DNA in Microbial 61 Preface 5 2.7 The Evolutionary Tree of Life 62

15 III Microbial Diversity 64

Diversity 64 . . 1 2.9 Bacteria 66 210 Archaea 69

Phylogenetic Analyses of Natural Microbial Chapter 1 Microorganisms and 71

2 9 71

I Introduction to Microbiology 30 Chapter 3 Cell Structure and Function 1.1 30 in Bacteria Archaea 75

Microbial Cells 31 Microorganisms and Their Environments 32 Cell 7 6

1.4 Evolution and the Extent Microbial Life 33 3.1 Cell Morphology 76 The Impact of Microorganisms on 35 3.2 Size and the of Smallness 77

II Pathways of Discovery in II The Cytoplasmic Membrane and Microbiology 38 Transport 79

The Historical Roots of Microbiology: Hooke, 3.3 The Cytoplasmic Membrane 79 van Leeuwenhoek, and Cohn 39 3.4 Functions of the Cytoplasmic Membrane 82

1.7 the Defeat of Spontaneous 3.5 Transport and Transport Systems 83 Generation 40

Koch, Infectious Disease, and Pure Culture III Cell Wal l s P roka ryOteS 8 6

Microbiology 43 The Cell Wall of Bacteria: Peptidoglycan 86 1.9 Microbial Diversity 46 The Outer Membrane 88 1.10 The Microbiology 48 Cell Archaea 91

Microbial Sidebar Solid Media, Pure Cultures, and the Birth of IV Other Cell Surface Structures Microbial Systematics 45 and Inclusions 92

3.9 Cell Surface Structures 92

Chapter 2 A Brief Journey to the Microbial 3.10 Cell inclusions W o r l d 5 2 96

3.12 Endospores 97

V Microbial 101 I Seeing the Very 53 2.1 Some of Light Microscopy 53 2.2 Microscopy 54 3.13 and 101 2.3 Cells in 57 3.14 Gliding Motility 105 2.4 Electron Microscopy 58 3.15 Microbial Taxes 106

II Cell Structure and Evolutionary History 59 Microbial Sidebar The Cell Wal): A Complex

2.5 Elements of Microbial Structure 59 Upids 99

19

20 Contents

UNIT 2 and Microbial Growth 160 Effect of Temperature on Growth 162

Chapter 4 Nutrition, Culture, and of Microorganisms

Microbial Life in the 162 5.14 Microbial Life at High Temperatures 166

V Other Environmental Factors Nutrition and Culture of Microorganisms 114 Affect.ng Growth 168

5.15 Acidity and Alkalinity 168 5.16 Effects 169 5.17 Microorganisms 171 5.18 Toxic of Oxygen 174

Energetics and Enzymes Microbial Sidebar

4.1 Nutrition and Cell 114 4.2 Culture Media 4.3 Laboratory Culture 118

4.4 Bioenergetics 120 Microbial Growth in Aquatic Systems: 4.5 Catalysis and Enzymes 121 Cyanobacterial Blooms 161

Oxidation-Reduction and Energy-Rich Compounds 122

4.6 Electron Donors and Electron Acceptors 122 4.7 Energy-Rich Compounds and Energy Storage 125

of Catabolism 126

and Gene Expression Chapter 6 Molecular Biology of

DNA Structure and Genetic 4.8 Glycolysis 126 4.9 Respiration and Electron Carriers 129 Information 179 4.10 The Proton Motive Force 131 6.1 Macromolecules and Genes 179 4.11 The Citric Acid 133 6.2 The Double 181 4.12 Catabolic Diversity 134 6.3 Supercoiling 183

6.4 Chromosomes and Other Genetic Elements 184 V Essentials of 136 4.13 and Polysaccharides 136 and Plasmids 185 4.14 Biosynthesis Acids and Nucleotides 137 6.5 Escherichia coli 185 4.15 and Lipids 138 6.6 Plasmids: General 187 4.16 Activity of Enzymes 139 6.7 The Biology of Plasmids 189

Microbial Sidebar DNA Replication 190 Yeast Fermentation, the Pasteur Effect, and the

127 Templates and Enzymes 190 6.9 The Replication Fork 191

_ . 6.10 Bidirectional Replication and the Replisome 193 Chapter 5 Microbial Growth 145 . ,.

The Polymerase Cham (PCR) 197 f Bacterial Cell Division 146 5.1 Cell Growth and Binary Fission 146 5.2 Fts Proteins and Cell Division 146

IV RNA Synthesis: Transcription 198 Overview of Transcription 198

, „ 6.13 Factors and Consensus Sequences 200 5.3 and Cell Morphology 148 • •

, , . • • 201 5.4 149

Population Growth 151 structure and Synthesis 202

Polypeptides, Amino Acids, and the Peptide 202

Translation and the Genetic Code 203

5.5 The Concept of Exponential Growth 151 5.6 The Exponential Growth 152 5.7 The Microbial Growth Cycle 153

5.8 Continuous Culture: The Chemostat 154 T f RNA

III GrOWth 156 Synthesis 208 The Incorporation of Selenocysteine

5.9 156 and Pyrrolysine 211 5.10 157 and Secreting Proteins 211 5.11 159

Contents 21

Chapter 7 and Eukaryotic Molecular Biology 219

I Molecular Biology Archaea 220 7.1 Archaea 220 9 2 6 4 7.2 and Archaea 221 7.3 Archaea 223 Virus 265 7.4 Shared Features Bacteria Archaea 224 9.1 General Properties 265

9.2 the Virion 266 II Eukaryotic Molecular Biology 225 9.3 The Virus Host 269 7.5 Genes and Chromosomes Eukarya 225 ofViruses 269 7.6 Overview of Eukaryotic Cell Division 226 7.7 Linear DNA 227 Viral Repl icat ion 2 7 1 7.8 RNA Processing 228 9.5 General Virus Replication 271 7.9 Transcription and Translation in Eukarya 231 9.6 Viral Attachment and Penetration 271 7.10 RNA Interference (RNAi) 233 9.7 Production of Viral Nucleic Acid and Protein 273

Regulation by MicroRNA 234

Microbial Sidebar Inteins and Protein Splicing 231

Viral Diversity 275 9.8 Overview of Bacterial Viruses 275 9.9 Virulent Bacteriophages and T4 278

. . . . . Temperate Bacteriophages, and 279 Chapter 8 Regulation of Gene Expression 237 ft11

9.12 Retroviruses 283 I Overview of Regulation 238 8.1 Regulation 238 Subviral 2 8 5

9.13 Defective Viruses 285 9.14 Viroids 285 9.15 Prions 286

II DNA-Binding Proteins and Regulation of Transcription 238

8.2 DNA-Binding Proteins 239 8.3 Negative Transcription: Microbial Sidebar

Repression Induction 240 Did Viruses Invent DNA? 276

8.4 Positive Control of Transcription 242 8.5 Operon 244 C h a p t e r 0 G e n e t l C S 8.6 Control Transcription Archaea 245 2 9 1

III Sensing Transduction 246 Mutation 292 8.7 Regulatory Systems 246 10.1 Mutations and Mutants 292 8.8 Chemotaxis 248 10.2 Molecular Basis of Mutation 294 8.9 Quorum Sensing 249 10.3 Mutation Rates 296 8.10 The Stringent Response 251 10.4 Mutagenesis 297 8.11 Other Global Control Networks 252 10.5 Mutagenesis and Carcinogenesis: The Arnes Test 300

IV Regulation of Development Gene Transfer 301 in Mode l 2 5 3 10.6 Genetic Recombination 301

8.12 Sporulation in Bacillus 254 10.7 Transformation 303 8.13 Caulobacter Differentiation 255 10.8 Transduction 305

10.9 Conjugation: Essential Features 307 V Regulat ion 2 5 6 10.10 The and 8.14 RNA Regulation and Antisense RNA 256 Mobilization 309 8.15 Riboswitches 258 10.11 312 8.16 259 10.12 Gene Transfer in Archaea 313

10.13 Elements 314 Microbial Sidebar The Antiviral Defense System 257

2 2 Contents

Genetic Engineering 319 II 381 13.6 The Energetics of Chemolithotrophy 381

Methods DNA 320 382 11.1 Restriction and Enzymes 320 13.8 Oxidation of Reduced Sulfur Compounds 382 11.2 Nucleic Acid Hybridization 322 13.9 Oxidation 384 11.3 Essentials of Molecular Cloning 323 13.10 Nitrification 386

Molecular Methods for Mutagenesis 325 Anammox 387 Gene Fusions and Reporter Genes 327

Major Biosyntheses: Autotrophy Gene Cloning 328 and Nitrogen Fixation 389

11.6 Plasmids as Cloning Vectors 328 The Calvin Cycle 389

Hosts for Cloning Vectors 330 Other Autotrophic Pathways in Phototrophs 390 11.8 Shuttle Vectors and Expression Vectors 332 Nitrogen Fixation and Nitrogenase 391 11.9 Bacteriophage as Vector 335 Genetics and Regulation of Nitrogen Fixation 395

Vectors for Genomic Cloning and Sequencing 336

Microbial Chapter Catabolism of Organic Fluorescence Labeling 329 Compounds 400

Microbial 341 401 14.1 Energetic and Redox Considerations 401

a n d GenomiCS 3 4 2 14.2 and Mixed-Acid Fermentations 402

12.1 to Genomics 342 14.3 Clostridial and Propionic Acid Fermentations 405 12.2 Sequencing and Annotating Genomes 342 14.4 Fermentations Lacking Substrate-Level 12.3 Bioinformatic Analyses and Gene Distributions 346 Phosphorylation 407 12.4 The 351 14.5 Syntrophy 409

The Genomes of Eukaryotic Microorganisms 353 12.6 Metagenomics 355 Anaerobic Respiration 411

14.6 Anaerobic Respiration: General 411

Genome Function and Regulation 355 14.7 Nitrate Reduction and 412 12.7 Microarrays and the 355 14.8 Sulfate and Sulfur Reduction 414

12.8 Proteomics and the 357 14.9 Acetogenesis 416 12.9 Metabolomics 359 14.10 Methanogenesis 418

Proton Reduction 422 The Evolution Of Genomes 360 14.12 Acceptors 423

12.10 Gene Duplications, and Deletions 360 14.13 Anoxic Hydrocarbon Oxidation Linked 12.11 Horizontal Gene Transfer and Genome Stability 361 to Anaerobic Respiration 425

12.12 Transposons and Insertion Sequences 362 . 12.13 of Virulence: Islands 363 AeroblC

Processes 428

Details 348

14.15 Methylotrophy and Methanotrophy 429 UNITS 431

Biocatalyses 14.17 Organic Acid Metabolism 434 14.18 Lipid Metabolism 434

Chapter 13 Phototrophy, Chemolithotrophy, commercial Products and Major Biosyntheses 368 and Biotechnology 439

I Phototrophy 369 Microorganisms to Work 440

, , , Industrial Products and the Microorganisms 13.2 Chlorophylls and 370 440 13.3 373 13.4 Photosynthesis 374 Photosynthesis 378

Contents 23

II Drugs, Other Chemicals, and III Microbial Systematics 491 4 4 3 16.10 Phenotypic Analysis: Acid

15.3 Antibiotics: Isolation, and 443 Methyl Esters (FAME) 491 15.4 Industrial Production Penicillins 16.11 Genotypic Analysis 493

and Tetracyclines 445 16.12 The Species Concept in Microbiology 495 15.5 Vitamins and Amino Acids 447 16.13 Classification and Nomenclature 498 15.6 Enzymes as Industrial Products 448

Chapter 17 Bacteria: The Proteobacteria 503 III Alcoholic Beverages and Biofuels 451 15.7 451 I The Phylogeny of Bacteria 504 15.8 Brewing and Distilling 453 17.1 Phylogenetic Overview Bacteria 504 15.9 Biofuels 455

II Phototrophic, and IV Products from Genetically Engineered Methanotrophic Proteobacteria 505

456 17.2 Purple Bacteria 506 15.10 Expressing Mammalian Genes in Bacteria 457 17.3 The Bacteria 509 15.11 Genetically Engineered 17.4 Bacteria 510

459 17.5 Hydrogen-Oxidizing Bacteria 513 15.12 Other Mammalian Proteins and Products 460 17.6 Methanotrophs and Methylotrophs 514 15.13 Genetically Engineered Vaccines 461 15.14 Mining Genomes 463 Aerobic and Facultatively Aerobic 15.15 Engineering Pathways 463 Proteobacteria 516

17.7 Pseudomonas the Pseudomonads 517 Acetic Acid Bacteria 519 V Transgenic Eukaryotes 465

15.16 Genetic 465 Free-Living Aerobic Nitrogen-Fixing Bacteria 519 15.17 Gene Therapy in 467 17.10 Neisseria, Relatives 521 15.18 Transgenic Plants in Agriculture 467 17.11 Enteric Bacteria 522

Microbial Sidebar 17.12 Vibrio, and 524

Synthetic Biology and Microbial 526 Photography 464

IV Morphologically Unusual Proteobacteria 527 17.14 Spirilla 528

Sheathed Proteobacteria: Sphaerotilus and

and Diversity Budding and Prosthecate/Stalked Bacteria

Microbial Evolution

Chapter Evolution and

Systematics 474

I Early the and Sulfur-Reducing Proteobacteria 538 Of U f e 4 7 5 540

16.1 Formation and Early History of Earth 475

16.2 Life Chapter 18 Bacteria 545 Microbial Consequences for Earth's Biosphere 479

16.4 Endosymbiotic Origins of Eukaryotes 480

16.3 for Earth s Biosphere 479

and Actinobacteria 546 18.1 Nonsporulating Firmic 546

Microbial Evolution 4 8 2 549

16.5 The Process 482 Mycoplasmas 553 16.6 Analyses: Aspects 483 Actinobacteria: and 16.7 Evolutionary Methods 485 Acid Bacteria 554

16.8 Microbial Phylogeny 487 Actinobacteria: Mycobacterium 556

16.9 Phylogenetic

Methods 490

2 4 Contents

II Cyanobacteria and Prochlorophytes 560 III Crenarchaeota 598 18.7 Cyanobacteria 560 19.8 Habitats and Energy Metabolism 598

Prochlorophytes 564 Crenarchaeota from Volcanic Habitats 599 Crenarchaeota from Submarine Volcanic Habitats 602

III C h l a m y d i a 5 6 5 Crenarchaeota Nonthermal Habitats and 18.9 The Chlamydia 565 Nitrification Archaea 604

IV The 567 IV Evolution and Life at High 18.10 A Phylogenetically TemperatureS 6 0 5

Unique Stalked Bacterium 567 19.12 An Upper Temperature Limit for Microbial Life 605

Molecular Adaptations to Life at High Temperature 606 V T h e VerrUCOmicrobia 5 6 8 19.14 Archaea, Microbial

and Prosthecobacter 568 Evolution 608

VI Flavobacteria Acidobacteria 569 Chapter 20 Eukaryotic Cell Biology and 18.12 Bacteroides 569 6 1 2 18.13 Acidobacteria 569

I Eukaryotic Cell Structure and VII The Cytophaga Group 570 Function 613 18.14 Cytophaga Relatives 570 20.1 Eukaryotic Cell Structure and the Nucleus 613

. 20.2 The Mitochondrion and the 614

VIII Green Sulfur Bacteria 571 and Other Green Sulfur Bacteria 571 20.4 Relationships of Mitochondria and

Chloroplasts to Bacteria 616 IX T h e SpirOCheteS 5 7 3 20.5 Other Organelles and Eukaryotic Cell Structures 617

Spirochetes 573 II Eukaryotic Microbial Diversity 619

X T h e DeinoCOCCi 5 7 6 20.6 Eukarya 619 18.17 Deinococcus and Thermus 576

III Protists 621 XI T h e NonSUlfur Bacteria: 20.7 Parabasalids 621

ChlOrOflexi 5 7 7 20.8 Euglenozoans 622

18.18 Chloroflexus and Relatives 577 20.9 Alveolates 622 624

XII Hyperthermophi l i c Bacter ia 5 7 8 20.11 Cercozoans and Radiolarians 626 18.19 and 578 20.12 Amoebozoa 626

Aquifex, Thermocrinis, and Relatives 579

IV Fungi 6 2 9

XIII a n d 5 8 0 20.13 Physiology, and 629

18.21 Nitrospira Deferribacter 580 20.14 Fungal Reproduction and Phylogeny 631 632

1 9 5 8 4 Zygomycetes and Glomeromycetes 632 20.17 Ascomycetes 633

I Diversity 5 8 5 20.18 and the Life Cycle 635

19.1 Phylogenetic and Diversity Archaea 585 _

V Red and Green 635 II Euryarchaeota 586 20.19 Red Algae 636 19.2 Extremely Archaea 586 Green Algae 636 19.3 Methanogenic Archaea 590 19.4 593 Chapter 21 Viral Diversity 641 19.5 Thermococcales 595

19.6 5% Bacteria Archaea 642 19.7 Nanoarchaeum 597 21.1 RNA Bacteriophages 642

21.2 DNA Bacteriophages 643

Contents 2 5

21.3 D N A Bacteriophages 646 II T h e Microbial Environment 7 0 0

21.4 The Transposable Phage Mu 648 23.3 Environments and Microenvironments 700 21.5 Viruses Archaea 650 23.4 Surfaces and Biofilms 702 21.6 Viral Genomes in Nature 651 23.5 Microbial Mats 705

II RNA Viruses of Eukaryotes 651 III Terrestrial Environments 706 21.7 Plant RNA Viruses 652 23.6 706 21.8 Positive-Strand RNA Viruses 652 23.7 The Subsurface 709

Negative-Strand RNA Animal Viruses 655 21.10 Doubie-Stranded RNA Reoviruses 657 IV Env ironments 21.11 Retroviruses and Hepadnaviruses 658 23.8 Freshwaters 711

23.9 Coastal and Ocean Waters: Phototrophic III DNA Viruses of Eukaryotes 661 Microorganisms 713 21.12 Plant DNA Viruses 661 23.10 Bacteria, Archaea, Viruses 715 21.13 SV40 663 23.11 The Deep Sea and Deep-Sea Sediments 718 21.14 Herpesviruses 664 23.12 Hydrothermal Vents 721 21.15 Viruses 665

21.16 Chapter 24 Cycles, Biodegradation, Microbial and Bioremediation 726

and Viral Evolution 662

Microbial Ecology I Nutrient Cycles 727 24.1 The Carbon Cycle 727 24.2 Syntrophy and Methanogenesis 729

Chapter 22 Methods in Microbial Ecology 670

I

6 7 1 The Calcium, and Silica Cycles 737

22.1 Enrichment 671 Biodegradation and Bioremediation 739 22.2 Isolation 675

II Transformations . . . . . . 24.9 Petroleum Biodegradation and Bioremediation 742

of Microbial Communities 677 ,. . . . . . 24.10 Biodegradation and Bioremediation 743

22.3 General Staining Methods 677 22.4 Situ (FISH) 679 Microbial Sidebar 22.5 PCR Microbial Community Analysis 680 735 22.6 Microarrays and Microbial Diversity: Phylochips 683 22.7 Environmental and Related Methods 684 C h a p t e r 2 5 S y m b l O S e S 7 4 8

III Measur ing Activities between Microorganisms 749 in Nature 686 25.1 Lichens 749

22.8 Assays, Methods, 750

and Microelectrodes 686

22.9 688 Plants as Habitats 751 22.10 Linking Specific Genes and Functions 25.3 The Nodule 751

to Specific 690 25.4 and Crown Disease 757 25.5 Mycorrhizae 758

Chapter 23 Major Microbial Habitats III Mammals as Microbial Habitats 760

and Diversity 697 25.6 The Mammalian Gut 760

I Microbial ECOlogy 6 9 8 Rumen and Ruminant Animals 762

23.1 Concepts 698 The Human 766

23.2 Service: and Nutrient 699

26 Contents

IV InsectS Microbial 769 27.1 816

25.9 Heritable Insects 769 Normal Microflora of the Skin 818 25.10 Termites 772 Normal Microflora Cavity 819

27.4 Normal Microflora the Gastrointestinal Tract 821 V AquatiC Microbial 27.5 Normal Other Body Regions 825

Habitats 773 Microbial Virulence and Pathogenesis 826 25.11 Hawanan Bobtail 774

25.12 Marine Hydrothermal Measuring Virulence 826 Vents and Gas Seeps 775 27.7 Pathogen 827

25.13 Leeches 777 Colonization and Infection 829 25.14 Corals 778 Invasion 830

Exotoxins 832 835 The Multiple Microbial Symbionts

771 Host Factors in Infection 836 27.12 Host Risk Factors for Infection 837

8 27.13 Innate Resistance to Infection 839

*'" Microbial Sidebar Bacteriophages and Infectious Diseases 824

Microbial Growth Control 783 Microbial sidebar

Physical Control 784 26.1 Heat Sterilization 784 26.2 Radiation Sterilization 787 26.3 Filter Sterilization 788

Virulence in Salmonella 838

Chapter 28 and Host Defense 844 Chemical Antimicrobial Control 790

26.4 Chemical Growth Control 790 845 26.5 Chemical Use 791 Cells and the Immune System 845

28.2 Innate Immunity 848 Antimicrobial Agents 795 28.3 Adaptive immunity 849

26.6 795 Antibodies 850 26.7 Drugs: Antibiotics 798 28.5 852 26.8 ß-Lactam Antibiotics: Penicillins and

Cephalosporins 799 Prevention Diseases 854 26.9 Antibiotics from Prokaryotes 800 28.6 Natural 854

28.7 and 855 Control and 28.8 Strategies 857 Eukaryotic Pathogens 802

26.10 Antiviral Drugs Immune Diseases 858 26.11 Drugs 804 28.9 Allergy, Hypersensitivity, and Autoimmunity 858

28.10 Cells 862 Antimicrobial Drug Resistance and Drug Discovery 806

Antimicrobial Drug Resistance 806 26.13 The Search for New Antimicrobial Drugs 810

Microbial Sidebar The Promise of New Vaccines 859

Sidebar I Overview of Immunity 867

Tuberculosis 794 29.1 Innate Response 867 29.2 Adaptive Response Mechanisms 870

Microbial Interactions with 815 H Antigens and Antigen Presentation 871

Microbial 871 Cells 872 Humans 816

Contents 27

III T LymphOCyteS a n d Immuni ty 8 7 5 31.7 In Vitro Serology 923 29.5 and Cells 875 31.8 Agglutination 925 29.6 Cells 876 31.9 926

31.10 Enzyme Immunoassay and Radioimmunoassay 928 IV Antibodies and Immunity 877 31.11 933 29.7 Antibodies 878 . 29.8 Antibody Production 880 Diagnostic 29.9 Antibodies, and Pathogen 934

Destruction 883 31.12 Nucleic Acid Hybridization 934

Chapter 30 Molecular Immunology 887 31.13 Nucleic Acid 936

Chapter 32 941 I Receptors and Immunity 888 30.1 Innate Immunity and 888 Of 942 30.2 Adaptive Immunity and the Immunoglobulin 32.1 The Epidemiology 942

Superfamily 890 32.2 The Epidemiology 942 32.3 Disease Reservoirs and Epidemics 944

II T h e Major HistOCOmpatibility 32.4 Infectious Disease Transmission 947 Complex (MHC) 892 32.5 The Host Community 949

30.3 MHC Protein Structure 892 30.4 and Binding 894 Current 950

32.6 The 950 III Antibodies 894 32.7 Infections 953

Epidemiology and Public Health 954 30.6 Antibody Genes and Diversity 895

32.8 Public Health Measures for the Control of Disease 954 IV T Cell Receptors 897 Health Considerations 957 30.7 Cell Receptors: Proteins, Genes and Diversity 897 and Infectious Diseases 959

Biological Warfare and Biological 964 V Switches in Immunity 899 Weapon 967 30.8 Tolerance 899 Microbial Sidebar 30.9 T Cell and B Cell Activation 901 Swine 2009 Influenza 951 30.10 902 Microbial Sidebar

Microbial Sidebar SARS as a Model of Epidemiological Success 966 Leucine-Rich Repeats and the Immune

Infectious 10 and

Microbial Diseases

Chapter 33 Chapter 31 Diagnostic Microbiology Microbial Diseases 972

and immunology 906 Growth-Dependent Diagnostic Methods 907

I Airborne of Diseases 973 33.1 Airborne Pathogens 973

Streptococcal Diseases 974 31.1 907 333 Pertussis 977 31.2 Growth-Dependent Identification Methods 912 Mycobacterium, Hansens 31.3 Antimicrobial Drug Testing 916 Disease 979 31.4 916 Neisseria and

Meningococcemia 982 920

for Disease 920 33.7 985 31.6 Antibodies 922 33.8 Influenza 986

28 Contents

II Direct-Contact Transmission II Waterborne Microbial Diseases 1040 D i seases 989 35.4 Waterborne Infection 1040

33.9 Staphylococcus 989 35.5 Cholera 1041 33.10 Helicobacter pylori and Gastric Ulcers 991 35.6 Giardiasis and Cryptosporidiosis 1043

Hepatitis Viruses 992 35.7 Legionellosis 1045 35.8 Typhoid Fever and Other Waterborne Diseases 1046

III Sexually Transmitted 993 33.12 Syphilis 994 Chapter 36 Food Preservation and Foodborne 33.13 Chlamydia, Herpes, Trichomoniasis, 1050

and Human 997 33.14 Acquired Immunodeficiency Syndrome: I Food Preservation and Microbial

HIV 999 GrOWth 1051

36.1 Microbial Growth and Food Spoilage 1051 Chapter 34 and Soilborne Preservation 1052

1009 36.3 Foods and 1055

I Pathogens 1010 II Foodborne Disease, Microbial 34.1 Rabies 1010 Sampling, and Epidemiology 1058 34.2 Hantavirus 1012 4 Foodborne Disease and Microbial Sampling 1059

. . . . _ . 36.5 Foodborne Disease Epidemiology 1060 II Pathogens 1014 34.3 Rickettsial Pathogens 1014 III Food PoiSOning 1061 34.4 Borrelia 1017 Food Poisoning 1061 34.5 Plasmodium 1019 Food Poisoning 1062 34.6 West Nile Virus 1023

34.7 Plague and Yersinia 1024 IV Food 1064 ... 36.8 1064

III Soilborne Pathogens 1026 34.8 Fungal Pathogens 1026 1066 34.9 Clostridium tetani 1028 36.11 Listeriosis 1067

Microbial Sidebar 36.12 Other Foodborne Infectious Diseases 1068 Special Pathogens and Viral Hemorrhagic Fevers 1013 Appendix 1 Energy Calculations in Microbial

Bioenergetics 1073 Common-SouTce

Appendix 2 Bacteriology, Second Edition:

Chapter 35 Water of Genera and Higher-Order

and Waterborne

Microbial Diseases 1032 Glossary 1087

I Wastewater Microbiology and Water Purification 1033 Photo Credits 1105

35.1 Public Health and Water Quality 1033 35.2 Wastewater and Sewage Treatment 1035 35.3 Water Purification 1038

1109