wwiiLL7755223333__ffmm__ii--xxiivv..iinndddd PPaaggee ii 1111//2288//0077 1100::2288::4455 AAMM eeppgg //VVoolluummeess//vvee440011//MMHHIIYY003344//mmhhwwiiLL11%%00//wwiiLL11ffmm Prescott’s Principles o f M I C R O B I O L O G Y Joanne M. Willey Hofstra University Linda M. Sherwood Montana State University Christopher J. Woolverton Kent State University wwiiLL7755223333__ffmm__ii--xxiivv..iinndddd PPaaggee iiii 1111//2288//0077 1100::2288::4466 AAMM eeppgg //VVoolluummeess//vvee440011//MMHHIIYY003344//mmhhwwiiLL11%%00//wwiiLL11ffmm PRESCOTT’S PRINCIPLES OF MICROBIOLOGY Published by McGraw-Hill, a business unit of The McGraw-Hill Companies, Inc., 1221 Avenue of the Americas, New York, NY 10020. Copyright © 2009 by The McGraw-Hill Companies, Inc. All rights reserved. No part of this publication may be reproduced or distributed in any form or by any means, or stored in a database or retrieval system, without the prior written consent of The McGraw-Hill Companies, Inc., including, but not limited to, in any network or other electronic storage or transmission, or broadcast for distance learning. Some ancillaries, including electronic and print components, may not be available to customers outside the United States. This book is printed on acid-free paper. 1 2 3 4 5 6 7 8 9 0 DOW/DOW 0 9 8 ISBN 978–0–07–337523–6 MHID 0–07–337523–3 Publisher: Michelle Watnick Senior Sponsoring Editor: James F. Connely Senior Developmental Editor: Lisa A. Brufl odt Senior Marketing Manager: Tami Petsche Project Coordinator: Mary Jane Lampe Lead Production Supervisor: Sandy Ludovissy Lead Media Project Manager: Stacy A. Patch Designer: John Joran Lead Photo Research Coordinator: Carrie Burger Photo Research: Mary Reeg Compositor: Aptara Typeface: 10/12 Times Roman Printer: R. R. Donnelley Willard, OH (USE) Cover Image (Front and Back): ©Dennis Kunkel Microscopy, Inc. The credits section for this book begins on page C-1 and is considered an extension of the copyright page. Library of Congress Cataloging-in-Publication Data Willey, Joanne M. Prescott’s principles of microbiology / Joanne M. Willey, Linda M. Sherwood, Christopher J. Woolverton.— 1st ed. p. cm. “In using the seventh edition of PHK’s microbiology as the foundation for the development of principles, we identifi ed two overarching goals.” Includes index. ISBN 978–0–07–337523–6 — ISBN 0–07–337523–3 (hard copy : alk. paper) 1. Microbiology. I. Sherwood, Linda. II. Woolverton, Christopher J. III. Prescott, Lansing M. Microbiology. IV. Title. V. Title: Microbiology. QR41.2.W545 2009 616.9’041—dc22 2007040352 www.mhhe.com wwiiLL7755223333__ffmm__ii--xxiivv..iinndddd PPaaggee iiiiii 1111//2288//0077 1100::2288::4466 AAMM eeppgg //VVoolluummeess//vvee440011//MMHHIIYY003344//mmhhwwiiLL11%%00//wwiiLL11ffmm Brief Table of Contents INTRODUCTION TO ECOLOGY Part One Part Six MICROBIOLOGY AND SYMBIOSIS 1 T he History and Scope of Microbiology 1 25 B iogeochemical Cycling and the Study of 2 M icroscopes and the Study of Microbial Ecology 593 Microbial Structure 13 26 M icroorganisms in Natural Environments 608 3 P rocaryotic Cell Structure and Function 33 27 Microbial Interactions 641 4 E ucaryotic Cell Structure and Function 65 5 Viruses and Other Acellular Agents 87 HOST Part Seven DEFENSES MICROBIAL NUTRITION, Part Two GROWTH, AND CONTROL 28 N onspecific (Innate) Host Resistance 661 29 Specific (Adaptive) Immunity 689 6 M icrobial Nutrition 109 7 M icrobial Growth 126 8 Control of Microorganisms 153 MICROBIAL DISEASES Part Eight AND THEIR CONTROL MICROBIAL 30 P athogenicity of Microorganisms 726 Part Three METABOLISM 31 A ntimicrobial Chemotherapy 746 32 C linical Microbiology and Immunology 768 9 I ntroduction to Metabolism 169 33 The Epidemiology of Infectious Disease 787 10 C atabolism: Energy Release and Conservation 188 11 Anabolism: The Use of Energy in Biosynthesis 219 APPLIED Part Nine MICROBIOLOGY MICROBIAL MOLECULAR Part Four BIOLOGY AND GENETICS 34 M icrobiology of Food 809 35 Applied Environmental Microbiology 831 12 G enes: Structure, Replication, and Expression 240 13 R egulation of Gene Expression 277 14 M echanisms of Genetic Variation 300 15 M icrobial Genomics 332 Appendix I A Review of the Chemistry of 16 Biotechnology and Industrial Microbiology 351 Biological Molecules A-1 Appendix II Common Metabolic Pathways A-13 THE DIVERSITY OF THE Part Five MICROBIAL WORLD Glossary G-1 17 M icrobial Evolution, Taxonomy, and Diversity 381 Credits C-1 18 T he Archaea 405 19 T he Deinococci and Gram-Negative Index I-1 Nonproteobacteria 420 20 T he Proteobacteria 439 21 T he Low G + C Gram-Positive Bacteria 474 22 T he High G + C Gram-Positive Bacteria 499 23 E ucaryotic Microbes 517 24 Viral Diversity 554 iii wwiiLL7755223333__ffmm__ii--xxiivv..iinndddd PPaaggee iivv 1111//2288//0077 1100::2288::4477 AAMM eeppgg //VVoolluummeess//vvee440011//MMHHIIYY003344//mmhhwwiiLL11%%00//wwiiLL11ffmm Table of Contents About the Authors ix 4.9 Overview of Protist Structure and Preface x Function 79 4.10 Overview of Fungal Structure and Function 82 Part One INTRODUCTION TO 5 V iruses and Other Acellular Agents 87 MICROBIOLOGY 5.1 Introduction to Viruses 88 5.2 Structure of Viruses 88 1 T he History and Scope of Microbiology 1 Microbial Diversity & Ecology 5.1: 1.1 Members of the Microbial World 2 Host-Independent Growth of an 1.2 Scope and Relevance of Microbiology 3 Archaeal Virus 89 1.3 Discovery of Microorganisms 6 5.3 Viral Multiplication 95 1.4 Confl ict over Spontaneous Generation 7 5.4 Types of Viral Infections 99 1.5 Golden Age of Microbiology 8 5.5 Cultivation and Enumeration of Viruses 103 Disease 1.1: 5.6 Viroids and Virusoids 105 A Molecular Approach to Koch’s 5.7 Prions 106 Postulates 10 1.6 Development of Industrial Microbiology and Microbial Ecology 11 Part Two MICROBIAL NUTRITION, 2 M icroscopes and the Study of Microbial GROWTH, AND CONTROL Structure 13 6 M icrobial Nutrition 109 2.1 Lenses and the Bending of Light 14 6.1 Elements of Life 110 2.2 L ight Microscopes 14 6.2 Requirements for Carbon, Hydrogen, 2.3 P reparation and Staining of Specimens 21 Oxygen, and Electrons 110 2.4 E lectron Microscopy 24 6.3 Nutritional Types of Microorganisms 111 2.5 Newer Techniques in Microscopy 29 6.4 Requirements for Nitrogen, 3 P rocaryotic Cell Structure and Function 33 Phosphorus, and Sulfur 113 3.1 Overview of Procaryotic Cell Structure 34 6.5 Growth Factors 113 Microbial Diversity & Ecology 3.1: 6.6 Uptake of Nutrients 114 Monstrous Microbes 36 6.7 Culture Media 118 3.2 Procaryotic Cell Membranes 38 Techniques & Applications 6.1: 3.3 Procaryotic Cytoplasm 42 Enrichment Cultures 121 3.4 Bacterial Cell Walls 46 6.8 Isolation of Pure Cultures 121 3.5 Archaeal Cell Walls 53 3.6 Components External to the Cell Wall 53 7 M icrobial Growth 126 3.7 Bacterial Motility and Chemotaxis 57 7.1 B acterial Cell Cycle 127 3.8 Bacterial Endospores 60 7.2 Growth Curve 130 7.3 Measurement of Microbial Growth 134 4 E ucaryotic Cell Structure and Function 65 7.4 Continuous Culture of 4.1 Overview of Eucaryotic Cell Microorganisms 136 Structure 66 7.5 Infl uences of Environmental Factors 4.2 Eucaryotic Membranes 67 on Growth 138 4.3 Eucaryotic Cytoplasm 67 Microbial Diversity & Ecology 7.1: 4.4 Organelles of the Biosynthetic-Secretory Life Above 100 ° C 144 and Endocytic Pathways 70 7.6 Microbial Growth in Natural 4.5 Organelles Involved in Genetic Environments 148 Control of the Cell 73 4.6 Organelles Involved in Energy 8 C ontrol of Microorganisms 153 Conservation 75 8.1 Defi nitions of Frequently Used Terms 154 4.7 Structures External to the Plasma 8.2 The Pattern of Microbial Death 154 Membrane 76 8.3 Conditions Infl uencing the Effectiveness of 4.8 Comparison of Procaryotic and Eucaryotic Antimicrobial Agents 156 Cells 79 8.4 The Use of Physical Methods in Control 157 iv wwiiLL7755223333__ffmm__ii--xxiivv..iinndddd PPaaggee vv 1111//2288//0077 1100::2299::4455 AAMM eeppgg //VVoolluummeess//vvee440011//MMHHIIYY003344//mmhhwwiiLL11%%00//wwiiLL11ffmm Table of Contents v 8.5 The Use of Chemical Agents in Control 160 12.3 DNA Replication 245 T echniques & Applications 8.1: 12.4 Gene Structure 253 S tandard Microbiological Practices 162 12.5 Transcription 255 8.6 Evaluation of Antimicrobial Agent 12.6 The Genetic Code 262 Effectiveness 165 12.7 Translation 263 8.7 Biological Control of Microorganisms 167 12.8 Protein Maturation and Secretion 270 13 R egulation of Gene Expression 277 1 3.1 Levels of Regulation of Gene MICROBIAL Part Three Expression 278 METABOLISM 13.2 Regulation of Transcription Initiation 279 13.3 Regulation of Transcription Elongation 287 9 I ntroduction to Metabolism 169 13.4 Regulation at the Level of Translation 289 9.1 Energy and Work 170 13.5 Global Regulatory Systems 290 9.2 Laws of Thermodynamics 170 13.6 Regulation of Gene Expression in 9.3 Free Energy and Reactions 170 Eucarya and Archaea 296 9.4 ATP 171 9.5 Oxidation-Reduction Reactions 173 14 M echanisms of Genetic Variation 300 9.6 Electron Transport Chains 174 14.1 Mutations and Their Chemical Basis 301 9.7 Enzymes 176 14.2 Detection and Isolation of Mutants 306 9.8 Ribozymes 180 14.3 DNA Repair 308 9.9 Regulation of Metabolism 181 14.4 Creating Genetic Variability 311 9.10 Posttranslational Regulation of Enzyme 14.5 Transposable Elements 312 Activity 182 14.6 Bacterial Plasmids 316 14.7 Bacterial Conjugation 317 10 C atabolism: Energy Release and Conservation 188 14.8 Bacterial Transformation 322 10.1 Chemoorganotrophic Fueling Processes 189 14.9 Transduction 324 10.2 Aerobic Respiration 190 14.10 Mapping the Genome 326 10.3 Breakdown of Glucose to Pyruvate 192 10.4 Tricarboxylic Acid Cycle 195 15 M icrobial Genomics 332 10.5 Electron Transport and Oxidative 15.1 Introduction 333 Phosphorylation 197 15.2 Determining DNA Sequences 333 10.6 Anaerobic Respiration 200 15.3 Whole-Genome Shotgun Sequencing 335 10.7 Fermentation 202 15.4 Bioinformatics 337 10.8 Catabolism of Carbohydrates and Intracellular 15.5 Functional Genomics 337 Reserve Polymers 206 15.6 Proteomics 344 10.9 Lipid Catabolism 207 15.7 Comparative Genomics 346 10.10 Protein and Amino Acid Catabolism 207 15.8 Environmental Genomics 348 10.11 Chemolithotrophy 208 Microbial Diversity & Ecology 10.1: 16 B iotechnology and Industrial Microbiology 351 Acid Mine Drainage 210 16.1 Key Developments in Recombinant DNA 10.12 Phototrophy 211 Technology 352 16.2 Polymerase Chain Reaction 357 11 A nabolism: The Use of Energy in Biosynthesis 219 16.3 Gel Electrophoresis 357 11.1 Principles Governing Biosynthesis 220 16.4 Cloning Vectors and Creating Recombinant 11.2 Precursor Metabolites 221 DNA 359 11.3 CO2 Fixation 222 16.5 Construction of Genomic Libraries 363 11.4 Synthesis of Sugars and 16.6 Introducing Recombinant DNA into Host Polysaccharides 224 Cells 365 11.5 Synthesis of Amino Acids 228 16.7 Expressing Foreign Genes in Host Cells 365 11.6 Synthesis of Purines, Pyrimidines, and 16.8 Microorganisms Used in Industrial Nucleotides 233 Microbiology 366 11.7 Lipid Synthesis 236 Techniques & Applications 16.1 : Visualizing Proteins with Green Fluorescence 367 MICROBIAL MOLECULAR 16.9 Microorganism Growth in Controlled Part Four BIOLOGY AND GENETICS Environments 370 16.10 Major Products of Industrial 12 G enes: Structure, Replication, and Expression 240 Micro biology 371 12.1 Flow of Genetic Information 241 16.11 Recombinant DNA Technology in 12.2 Nucleic Acid Structure 242 Agriculture 374 wwiiLL7755223333__ffmm__ii--xxiivv..iinndddd PPaaggee vvii 1111//2288//0077 1100::3300::1111 AAMM eeppgg //VVoolluummeess//vvee440011//MMHHIIYY003344//mmhhwwiiLL11%%00//wwiiLL11ffmm vi Table of Contents 16.12 Microbes as Products 376 22 T he High G + C Gram-Positive Bacteria 499 T echniques & Applications 16.2: 22.1 General Properties of the S treptavidin-Biotin Binding and Actinomycetes 500 Biotechnology 378 22.2 Suborder Actinomycineae 503 22.3 Suborder Micrococcineae 503 22.4 Suborder Corynebacterineae 505 22.5 Suborder Micromonosporineae 511 22.6 Suborder Propionibacterineae 511 THE DIVERSITY OF THE 22.7 Suborder Streptomycineae 512 Part Five MICROBIAL WORLD 22.8 Suborder Streptosporangineae 514 22.9 Suborder Frankineae 514 17 M icrobial Evolution, Taxonomy, and Diversity 381 22.10 Order Bifi dobacteriales 514 17.1 Microbial Evolution 382 17.2 Introduction to Microbial Classifi cation and 23 E ucaryotic Microbes 517 Taxonomy 389 23.1 Introduction 519 17.3 Taxonomic Ranks 390 23.2 Protist Classifi cation 519 17.4 Techniques for Determining Microbial Disease 23.1 : Taxonomy and Phylogeny 392 A Brief History of Malaria 534 17.5 Phylogenetic Trees 398 23.3 Characteristics of the Fungal Divisions 540 17.6 The Major Divisions of Life 399 17.7 B ergey’s Manual of Systematic 24 V iral Diversity 554 Bacteriology 400 24.1 Principles of Virus Taxonomy 555 M icrobial Diversity & Ecology 17.1: 24.2 Viruses with Double-Stranded DNA Genomes “ Offi cial” Nomenclature Lists— (Group I) 555 A Letter from Bergey’s 401 24.3 Viruses with Single-Stranded DNA Genomes (Group II) 571 18 T he Archaea 405 24.4 Viruses with Double-Stranded RNA Genomes 18.1 Introduction to the Archaea 405 (Group III) 573 18.2 Phylum Crenarchaeota 411 24.5 Viruses with Plus-Strand RNA Genomes 18.3 Phylum Euryarchaeota 413 (Group IV) 574 Microbial Diversity & Ecology 18.1 : Microbial Diversity & Ecology 24.1: Methanotrophic Archaea 414 SARS: Evolution of a Virus 579 24.6 Viruses with Minus-Strand RNA Genomes 19 T he Deinococci and Gram-Negative (Group V) 580 Nonproteobacteria 420 24.7 Viruses with Single-Stranded RNA Genomes 19.1 Aquifi cae and T hermotogae 421 (Group VI-Retroviruses) 584 19.2 D einococcus-Thermus 421 24.8 Viruses with Gapped DNA Genomes 19.3 Photosynthetic Bacteria 422 (Group VII) 589 19.4 Phylum Planctomycetes 429 19.5 Phylum Chlamydiae 429 19.6 Phylum Spirochaetes 432 19.7 Phylum Bacteroidetes 436 ECOLOGY Part Six AND SYMBIOSIS 20 T he Proteobacteria 439 20.1 Class A lphaproteobacteria 440 25 B iogeochemical Cycling and the Study of 20.2 Class Betaproteobacteria 448 Microbial Ecology 593 20.3 Class G ammaproteobacteria 453 Microbial Diversity & Ecology 25.1: Microbial Diversity & Ecology 20.1 : Microbial Ecology versus Environmen- Bacterial Bioluminescence 459 tal Microbiology 594 20.4 Class Deltaproteobacteria 467 25.1 Biogeochemical Cycling 594 20.5 Class E psilonproteobacteria 471 25.2 Microbial Ecology and Its Methods: An Overview 601 21 T he Low G + C Gram-Positive Bacteria 474 21.1 Class Mollicutes (The Mycoplasmas) 475 26 M icroorganisms in Natural Environments 608 21.2 Peptidoglycan and Endospore 26.1 Marine and Freshwater Microbiology 609 Structure 477 26.2 Microorganisms in Terrestrial Microbial Tidbits 21.1 : Environments 621 Spores in Space 479 Microbial Diversity & Ecology 26.1: 21.3 Class Clostridia 479 Mycorrhizae and the Evolution of 21.4 Class Bacilli 483 Vascular Plants 628 wwiiLL7755223333__ffmm__ii--xxiivv..iinndddd PPaaggee vviiii 1111//2288//0077 1100::3311::0088 AAMM eeppgg //VVoolluummeess//vvee440011//MMHHIIYY003344//mmhhwwiiLL11%%00//wwiiLL11ffmm Table of Contents vii 27 M icrobial Interactions 641 31.5 Factors Infl uencing Antimicrobial Drug 2 7.1 Microbial Interactions 642 Effectiveness 757 M icrobial Diversity & Ecology 27.1 : 31.6 Drug Resistance 758 Wolbachia pipientis: The World’s Most Disease 31.1: Infectious Microbe? 645 Antibiotic Misuse and Drug 27.2 H uman-Microbe Interactions 653 Resistance 758 27.3 Normal Microbiota of the Human Body 654 31.7 Antifungal Drugs 762 31.8 Antiviral Drugs 763 31.9 Antiprotozoan Drugs 765 HOST Part Seven DEFENSES 32 C linical Microbiology and Immunology 768 32.1 Overview of the Clinical Microbiology 28 N onspecifi c (Innate) Host Resistance 661 Laboratory 769 28.1 Overview of Host Resistance 662 32.2 Identifi cation of Microorganisms from 28.2 Cells, Tissues, and Organs of the Immune Specimens 769 System 663 Techniques & Applications 32.1 : 2 8.3 Phagocytosis 670 Standard Microbiological 28.4 Infl ammation 673 Practices 770 28.5 Physical Barriers in Nonspecifi c (Innate) 32.3 Clinical Immunology 779 Resistance 675 28.6 Chemical Mediators in Nonspecifi c (Innate) Resistance 679 33 T he Epidemiology of Infectious Disease 787 33.1 Epidemiological Terminology 788 29 S pecifi c (Adaptive) Immunity 689 Historical Highlights 33.1: 29.1 Overview of Specifi c (Adaptive) John Snow—The First Immunity 690 Epidemiologist 788 29.2 Antigens 691 33.2 Measuring Frequency 789 29.3 Types of Specifi c (Adaptive) Immunity 694 33.3 Recognition of an Infectious Disease in a 29.4 Recognition of Foreignness 695 Population 789 29.5 T-Cell Biology 697 Historical Highlights 33.2: 29.6 B-Cell Biology 701 “Typhoid Mary” 791 29.7 Antibodies 704 33.4 Recognition of an Epidemic 791 29.8 Action of Antibodies 712 33.5 The Infectious Disease Cycle: Story of a Techniques & Applications 29.1 : Disease 793 Monoclonal Antibody Technology 713 33.6 Virulence and the Mode of 29.9 Summary: The Role of Antibodies and Transmission 797 Lymphocytes in Immune Defense 715 33.7 Emerging and Reemerging Infectious 29.10 Acquired Immune Tolerance 716 Diseases and Pathogens 798 29.11 Immune Disorders 716 33.8 Control of Epidemics 801 Historical Highlights 33.3: The First Immunizations 802 MICROBIAL DISEASES Part Eight 33.9 Bioterrorism Preparedness 804 AND THEIR CONTROL 33.10 Nosocomial Infections 806 30 P athogenicity of Microorganisms 726 30.1 Host-Parasite Relationships 727 APPLIED 30.2 Pathogenesis of Viral Diseases 728 Part Nine MICROBIOLOGY 30.3 Overview of Bacterial Pathogenesis 730 30.4 Toxigenicity 736 34 M icrobiology of Food 809 Techniques & Applications 30.1 : 34.1 Microorganism Growth in Foods 810 Detection and Removal of 34.2 Microbial Growth and Food Spoilage 811 Endotoxins 741 34.3 Controlling Food Spoilage 814 30.5 Polymicrobial Disease 742 34.4 Food-Borne Diseases 816 31 A ntimicrobial Chemotherapy 746 34.5 Detection of Food-Borne Pathogens 820 31.1 The Development of Chemotherapy 747 34.6 Microbiology of Fermented Foods 821 31.2 General Characteristics of Antimicrobial Techniques & Applications 34.1 : Drugs 748 Chocolate: The Sweet Side of 31.3 Determining the Level of Antimicrobial Fermentation 822 Activity 748 34.7 Microorganisms as Foods and Food 31.4 Antibacterial Drugs 752 Amendments 829 wwiiLL7755223333__ffmm__ii--xxiivv..iinndddd PPaaggee vviiiiii 1111//2288//0077 1100::3322::4477 AAMM eeppgg //VVoolluummeess//vvee440011//MMHHIIYY003344//mmhhwwiiLL11%%00//wwiiLL11ffmm viii Table of Contents 35 A pplied Environmental Microbiology 831 Appendix I A Review of the Chemistry of Biological 35.1 Water Purifi cation and Sanitary Analysis 832 Molecules A-1 Techniques & Applications 35.1: Waterborne Diseases, Water Supplies, Appendix II C ommon Metabolic Pathways A-13 and Slow Sand Filtration 833 35.2 Wastewater Treatment 836 35.3 Biodegradation and Bioremediation by Glossary G-1 Natural Communities 842 Credits C-1 35.4 Bioaugmentation 845 Index I-1 Microbial Diversity & Ecology 35.2 : A Fungus with a Voracious Appetite 846