EBK BROCK BIOLOGY OF MICROORGANISMS - 15th Edition - by Stahl - ISBN 8220103633352

EBK BROCK BIOLOGY OF MICROORGANISMS
15th Edition
Stahl
Publisher: PEARSON
ISBN: 8220103633352

Solutions for EBK BROCK BIOLOGY OF MICROORGANISMS

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Chapter 1.10 - Koch, Infectious Diseases, And Pure CulturesChapter 1.11 - Discovery Of Microbial DiversityChapter 1.12 - Molecular Basis Of LifeChapter 1.13 - Woese And The Tree Of LifeChapter 1.14 - An Introduction To Microbial LifeChapter 2 - Microbial Cell Structure And FunctionChapter 2.1 - Cell MorphologyChapter 2.2 - The Small WorldChapter 2.3 - The Cytoplasmic MembraneChapter 2.4 - Bacterial Cell Walls: PeptidoglycanChapter 2.5 - Lps: The Outer MembraneChapter 2.6 - Archaeal Cell WallsChapter 2.7 - Cell Surface StructuresChapter 2.8 - Cell InclusionsChapter 2.9 - Gas VesiclesChapter 2.10 - EndosporesChapter 2.11 - Flagella, Archaella, And Swimming MotilityChapter 2.12 - Gliding MotilityChapter 2.13 - Chemotaxis And Other TaxesChapter 2.14 - The Nucleus And Cell DivisionChapter 2.15 - Mitochondria, Hydrogenosomes, And ChloroplastsChapter 2.16 - Other Eukaryotic Cell StructuresChapter 3 - Microbial MetabolismChapter 3.1 - Feeding The Microbe: Cell NutritionChapter 3.2 - Transporting Nutrients Into The CellChapter 3.3 - Energy Classes Of MicroorganismsChapter 3.4 - Principles Of BioenergeticsChapter 3.5 - Catalysis And EnzymesChapter 3.6 - Electron Donors And AcceptorsChapter 3.7 - Energy-rich CompoundsChapter 3.8 - Glycolysis And FermentationChapter 3.9 - Respiration: Citric Acid And Glyoxylate CyclesChapter 3.10 - Respiration: Electron CarriersChapter 3.11 - Electron Transport And The Proton Motive ForceChapter 3.12 - Options For Energy ConservationChapter 3.13 - Sugars And PolysaccharidesChapter 3.14 - Amino Acids And NucleotidesChapter 3.15 - Fatty Acids And LipidsChapter 4 - Molecular Information Flow And Protein ProcessingChapter 4.1 - Dna And Genetic Information FlowChapter 4.2 - Genetic Elements: Chromosomes And PlasmidsChapter 4.3 - Templates, Enzymes, And The Replication ForkChapter 4.4 - Bidirectional Replication, The Replisome, And ProofreadingChapter 4.5 - Transcription In BacteriaChapter 4.6 - Transcription In Archaea And EukaryaChapter 4.7 - Amino Acids, Polypeptides, And ProteinsChapter 4.8 - Transfer RnaChapter 4.9 - Translation And The Genetic CodeChapter 4.10 - The Mechanism Of Protein SynthesisChapter 4.11 - Assisted Protein Folding And ChaperonesChapter 4.12 - Protein Secretion: The Sec And Tat SystemsChapter 4.13 - Protein Secretion: Gram-negative SystemsChapter 5 - Microbial Growth And Its ControlChapter 5.1 - Binary Fission, Budding, And BiofilmsChapter 5.2 - Quantitative Aspects Of Microbial GrowthChapter 5.3 - The Microbial Growth CycleChapter 5.4 - Continuous CultureChapter 5.5 - Growth Media And Laboratory CultureChapter 5.6 - Microscopic Counts Of Microbial Cell NumbersChapter 5.7 - Viable Counting Of Microbial Cell NumbersChapter 5.8 - Turbidimetric Measures Of Microbial Cell NumbersChapter 5.9 - Temperature Classes Of MicroorganismsChapter 5.10 - Microbial Life In The ColdChapter 5.11 - Microbial Life At High TemperaturesChapter 5.12 - Effects Of Ph On Microbial GrowthChapter 5.13 - Osmolarity And Microbial GrowthChapter 5.14 - Oxygen And Microbial GrowthChapter 5.15 - General Principles And Growth Control By HeatChapter 5.16 - Other Physical Control Methods: Radiation And FiltrationChapter 5.17 - Chemical Control Of Microbial GrowthChapter 6 - Microbial Regulatory SystemsChapter 6.1 - Dna-binding ProteinsChapter 6.2 - Negative Control: Repression And InductionChapter 6.3 - Positive Control: ActivationChapter 6.4 - Global Control And The Lac OperonChapter 6.5 - Transcription Controls In ArchaeaChapter 6.6 - Two-component Regulatory SystemsChapter 6.7 - Regulation Of ChemotaxisChapter 6.8 - Quorum SensingChapter 6.9 - Stringent ResponseChapter 6.10 - Other Global NetworksChapter 6.11 - Regulatory RnasChapter 6.12 - RiboswitchesChapter 6.13 - AttenuationChapter 6.14 - Feedback InhibitionChapter 6.15 - Post-translational RegulationChapter 7 - Molecular Biology Of Microbial GrowthChapter 7.1 - Visualizing Molecular GrowthChapter 7.2 - Chromosome Replication And SegregationChapter 7.3 - Cell Division And Fts ProteinsChapter 7.4 - Mreb And Cell MorphologyChapter 7.5 - Peptidoglycan BiosynthesisChapter 7.6 - Regulation Of Endospore FormationChapter 7.7 - Caulobacter DifferentiationChapter 7.8 - Heterocyst Formation In AnabaenaChapter 7.9 - Biofilm FormationChapter 7.10 - Antibiotic Targets And Antibiotic ResistanceChapter 7.11 - Persistence And DormancyChapter 8 - Viruses And Their ReplicationChapter 8.1 - What Is A Virus?Chapter 8.2 - Structure Of The VirionChapter 8.3 - Overview Of The Virus Life CycleChapter 8.4 - Culturing, Detecting, And Counting VirusesChapter 8.5 - Attachment And Entry Of Bacteriophage T4Chapter 8.6 - Replication Of Bacteriophage T4Chapter 8.7 - Temperate Bacteriophages And LysogenyChapter 8.8 - An Overview Of Animal Virus InfectionChapter 9 - Microbial Systems BiologyChapter 9.1 - Introduction To GenomicsChapter 9.2 - Sequencing And Annotating GenomesChapter 9.3 - Genome Size And Gene Content In Bacteria And ArchaeaChapter 9.4 - Organelle And Eukaryotic Microbial GenomesChapter 9.5 - Gene Families, Duplications, And DeletionsChapter 9.6 - Horizontal Gene Transfer And The MobilomeChapter 9.7 - Core Genome Versus Pan GenomeChapter 9.8 - MetagenomicsChapter 9.9 - Gene Chips And TranscriptomicsChapter 9.10 - Proteomics And The InteractomeChapter 9.11 - MetabolomicsChapter 9.12 - Single-cell GenomicsChapter 9.13 - Integrating Mycobacterium Tuberculosis OmicsChapter 9.14 - Systems Biology And Human HealthChapter 10 - Viral Genomics, Diversity, And EcologyChapter 10.1 - Size And Structure Of Viral GenomesChapter 10.2 - Viral EvolutionChapter 10.3 - Single-stranded Dna Bacteriophages: Φ3174 And M13Chapter 10.4 - Double-stranded Dna Bacteriophages: T7 And MuChapter 10.5 - Viruses Of ArchaeaChapter 10.6 - Uniquely Replicating Dna Animal VirusesChapter 10.7 - Dna Tumor VirusesChapter 10.8 - Positive-strand Rna VirusesChapter 10.9 - Negative-strand Rna Animal VirusesChapter 10.10 - Double-stranded Rna VirusesChapter 10.11 - Viruses That Use Reverse TranscriptaseChapter 10.12 - The Bacterial And Archael VirosphereChapter 10.13 - Viral Defense Mechanisms Of Bacteria And ArchaeaChapter 10.14 - The Human ViromeChapter 10.15 - ViroidsChapter 10.16 - PrionsChapter 11 - Genetics Of Bacteria And ArchaeaChapter 11.1 - Mutations And MutantsChapter 11.2 - Molecular Basis Of MutationChapter 11.3 - Reversions And Mutation RatesChapter 11.4 - MutagenesisChapter 11.5 - Genetic RecombinationChapter 11.6 - TransformationChapter 11.7 - TransductionChapter 11.8 - ConjugationChapter 11.9 - The Formation Of Hfr Strains And Chromosome MobilizationChapter 11.10 - Horizontal Gene Transfer In ArchaeaChapter 11.11 - Mobile Dna: Transposable ElementsChapter 11.12 - Preserving Genomic Integrity: Crispr InterferenceChapter 12 - Biotechnology And Synthetic BiologyChapter 12.1 - Manipulating Dna:pcr And Nucleic Acid HybridizationChapter 12.2 - Molecular CloningChapter 12.3 - Expressing Foreign Genes In BacteriaChapter 12.4 - Molecular Methods For MutagenesisChapter 12.5 - Reporter Genes And Gene FusionsChapter 12.6 - Somatotropin And Other Mammalian ProteinsChapter 12.7 - Transgenic Organisms In Agriculture And AquacultureChapter 12.8 - Engineered Vaccines And TherapeuticsChapter 12.9 - Mining Genomes And Engineering PathwaysChapter 12.10 - Engineering BiofuelsChapter 12.11 - From Synthetic Metabolic Pathways To Synthetic CellsChapter 12.12 - Genome Editing And CrisprsChapter 12.13 - Biocontainmnet Of Genetically Modified OrganismsChapter 13 - Metabolic Evolution And SystematicsChapter 13.1 - Formation And Early History Of EarthChapter 13.2 - Photosynthesis And The Oxidation Of EarthChapter 13.3 - Living Fossils: Dna Records The History Of LifeChapter 13.4 - Endosymbiotic Origin Of EukaryotesChapter 13.5 - The Evolutionary ProcessChapter 13.6 - The Evolution Of Microbial GenomesChapter 13.7 - Molecular Phylogeny:making Sense Of Molecular SequencesChapter 13.8 - The Species Concept In MicrobiologyChapter 13.9 - Taxonomic Methods In SystematicsChapter 13.10 - Classification And NomenclatureChapter 14 - Metabolic Diversity Of MicroorganismsChapter 14.1 - Photosynthesis And ChlorophyllsChapter 14.2 - Carotenoids And PhycobilinsChapter 14.3 - Anoxygenic PhotosynthesisChapter 14.4 - Oxygenic PhotosynthesisChapter 14.5 - Autotrophic PathwaysChapter 14.6 - Nitrogen FixationChapter 14.7 - Principles Of RespirationChapter 14.8 - Hydrogen (h2 ) OxidationChapter 14.9 - Oxidation Of Sulfur CompoundsChapter 14.10 - Iron (fe2+) OxidationChapter 14.11 - NitrificationChapter 14.12 - Anaerobic Ammonia Oxidation (anammox)Chapter 14.13 - Nitrate Reduction And DenitrificationChapter 14.14 - Sulfate And Sulfur ReductionChapter 14.15 - Other Electron AcceptorsChapter 14.16 - AcetogenesisChapter 14.17 - MethanogenesisChapter 14.18 - MethanotrophyChapter 14.19 - Energetic And Redox ConsiderationsChapter 14.20 - Lactic And Mixed-acid FermentationsChapter 14.21 - Clostridial And Propionate FermentationsChapter 14.22 - Fermentations That Lack Substrate-level Phosphorylation 4Chapter 14.23 - SyntropyChapter 14.24 - Aerobic Hydrocarbon MetabolismChapter 14.25 - Anerobic Hydrocarbon MetabolismChapter 15 - Functional Diversity Of MicroorganismsChapter 15.1 - Making Sense Of Microbial DiversityChapter 15.2 - Overview Of Phototrophic BacteriaChapter 15.3 - CyanobacteriaChapter 15.4 - Purple Sulfur BacteriaChapter 15.5 - Purple Nonsulfur Bacteria And Aerobic Anoxygenic PhototrophsChapter 15.6 - Green Sulfur BacteriaChapter 15.7 - Green Nonsulfur BacteriaChapter 15.8 - Other Phototrophic BacteriaChapter 15.9 - Dissimilative Sulfate-reducersChapter 15.10 - Dissimilative Sulfur-reducersChapter 15.11 - Dissimilative Sulfur-oxidizersChapter 15.12 - Diversity Of Nitrogen-fixersChapter 15.13 - Diversity Of Nitrifiers And DenitrifiersChapter 15.14 - Dissimilative Iron-reducersChapter 15.15 - Dissimilative Iron-oxidizersChapter 15.16 - Methanotrophs And MethylotrophsChapter 15.17 - Microbial PredatorsChapter 15.18 - Microbial BioluminescenceChapter 15.19 - SpirochetesChapter 15.20 - Budding And Prosthecate/stalked MicroorganismsChapter 15.21 - Sheathed MicroorganismsChapter 15.22 - Magnetic MicrobesChapter 16 - Diversity Of BacteriaChapter 16.1 - AlphaproteobacteriaChapter 16.2 - BetaproteobacteriaChapter 16.3 - Gammaproteobacteria: EnterobacterialesChapter 16.4 - Gammaproteobacteria: Pseudomonadales And VibrionalesChapter 16.5 - Deltaproteobacteria And EpsilonproteobacteriaChapter 16.6 - Firmicutes: LactobacillalesChapter 16.7 - Firmicutes: Nonsporulating Bacillales And ClostridialesChapter 16.8 - Firmicutes: Sporulating Bacillales And ClostridialesChapter 16.9 - Tenericutes: The MycoplasmasChapter 16.10 - Actinobacteria: Coryneform And Propionic Acid BacteriaChapter 16.11 - Actinobacteria: MycobacteriumChapter 16.12 - Filamentous Actinobacteria: Streptomyces And RelativesChapter 16.13 - BacteroidalesChapter 16.14 - Cytophagales, Flavobacteriales, And SphingobacterialesChapter 16.15 - ChlamydiaeChapter 16.16 - PlanctomycetesChapter 16.17 - VerrucomicrobiaChapter 16.18 - Thermotogae And ThermodesulfobacteriaChapter 16.19 - AquificaeChapter 16.20 - Deinococcus–thermusChapter 16.21 - Other Notable Phyla Of BacteriaChapter 17 - Diversity Of ArchaeaChapter 17.1 - Extremely Halophilic ArchaeaChapter 17.2 - Methanogenic ArchaeaChapter 17.3 - ThermoplasmatalesChapter 17.4 - Thermococcales And ArchaeoglobalesChapter 17.5 - Thaumarchaeota And Nitrification In ArchaeaChapter 17.6 - Nanoarchaeota And The “hospitable Fireball”Chapter 17.7 - Korarchaeota And The “secret Filament”Chapter 17.8 - Habitats And Energy MetabolismChapter 17.9 - Crenarchaeota From Terrestrial Volcanic HabitatsChapter 17.10 - Crenarchaeota From Submarine Volcanic HabitatsChapter 17.11 - An Upper Temperature Limit For Microbial LifeChapter 17.12 - Molecular Adaptations To Life At High TemperatureChapter 17.13 - Hyperthermophilic Archaea, H2 , And Microbial EvolutionChapter 18 - Diversity Of Microbial EukaryaChapter 18.1 - Endosymbioses And The Eukaryotic CellChapter 18.2 - Phylogenetic Lineages Of EukaryaChapter 18.3 - ExcavataChapter 18.4 - AlveolataChapter 18.5 - StramenopilesChapter 18.6 - RhizariaChapter 18.7 - AmoebozoaChapter 18.8 - Fungal Physiology, Structure, And SymbiosesChapter 18.9 - Fungal Reproduction And PhylogenyChapter 18.10 - Microsporidia And ChytridiomycotaChapter 18.11 - Zygomycota And GlomeromycotaChapter 18.12 - AscomycotaChapter 18.13 - BasidiomycotaChapter 18.14 - Red AlgaeChapter 18.15 - Green AlgaeChapter 19 - Microbial Ecology And Environmental MicrobiologyChapter 19.1 - Enrichment Culture MicrobiologyChapter 19.2 - Classical Procedures For Isolating MicrobesChapter 19.3 - Selective Single-cell Isolation: Laser Tweezers, Flow Cytometry, Microfluidics, And High-throughput MethodsChapter 19.4 - General Staining MethodsChapter 19.5 - Fluorescence In Situ Hybridization (fish)Chapter 19.6 - Pcr Methods Of Microbial Community AnalysisChapter 19.7 - Microaarays For Analysis Of Microbial Phylogenetic And Functional DiversityChapter 19.8 - Environmental Genomics And Related MethodsChapter 19.9 - Chemical Assays, Radioisotopic Methods, And MicrosensorsChapter 19.10 - Stable Isotopes And Stable Isotope ProbingChapter 19.11 - Linking Functions To Specific OrganismsChapter 19.12 - Linking Genes And Cellular Properties To Individual CellsChapter 20 - Microbial EcosystemsChapter 20.1 - General Ecological ConceptsChapter 20.2 - Ecosystem Service: Biogeochemistry And Nutrient CyclesChapter 20.3 - Environments And MicroenvironmentsChapter 20.4 - Surfaces And BiofilmsChapter 20.5 - Microbial MatsChapter 20.6 - SoilsChapter 20.7 - The Terrestrial SubsurfaceChapter 20.8 - FreshwatersChapter 20.9 - The Marine Environment: Phototrophs And Oxygen RelationshipsChapter 20.10 - Major Marine PhototrophsChapter 20.11 - Pelagic Bacteria, Archaea, And VirusesChapter 20.12 - The Deep SeaChapter 20.13 - Deep-sea SedimentsChapter 20.14 - Hydrothermal VentsChapter 21 - Nutrient CyclesChapter 21.1 - The Carbon CycleChapter 21.2 - Syntrophy And MethanogenesisChapter 21.3 - The Nitrogen CycleChapter 21.4 - The Sulfur CycleChapter 21.5 - The Iron And Manganese CyclesChapter 21.6 - The Phosphorus, Calcium, And Silica CyclesChapter 21.7 - Mercury TransformationsChapter 21.8 - Human Impacts On The Carbon And Nitrogen CyclesChapter 22 - Microbiology Of The Built EnvironmnetChapter 22.1 - Mining With MicroorganismsChapter 22.2 - Acid Mine DrainageChapter 22.3 - Bioremediation Of Uranium-contaminated EnvironmentsChapter 22.4 - Bioremediation Of Organic Pollutants: HydrocarbonsChapter 22.5 - Bioremediation Of Organic Pollutants: Pesticides And PlasticsChapter 22.6 - Primary And Secondary Wastewater TreatmentChapter 22.7 - Advanced Wastewater TreatmentChapter 22.8 - Drinking Water Purification And StabilizationChapter 22.9 - Water Distribution SystemsChapter 22.10 - The Microbiology Of Homes And Public SpacesChapter 22.11 - Microbially Influenced Corrosion Of MetalsChapter 22.12 - Biodeterioration Of Stone And ConcreteChapter 23 - Microbial Symbioses With Microbes, Plants, And AnimalsChapter 23.1 - LichensChapter 23.2 - “chlorochromatium Aggregatum”Chapter 23.3 - The Legume–root Nodule SymbiosisChapter 23.4 - MycorrhizaeChapter 23.5 - Agrobacterium And Crown Gall DiseaseChapter 23.6 - Heritable Symbionts Of InsectsChapter 23.7 - TermitesChapter 23.8 - Hawaiian Bobtail SquidChapter 23.9 - Marine Invertebrates At Hydrothermal Vents And Cold SeepsChapter 23.10 - Entomopathogenic NematodesChapter 23.11 - Reef-building CoralsChapter 23.12 - Alternative Mammalian Gut SystemsChapter 23.13 - The Rumen And Ruminant AnimalsChapter 24 - Microbial Symbioses With HumansChapter 24.1 - Overview Of The Human MicrobiomeChapter 24.2 - Gastrointestinal MicrobiotaChapter 24.3 - Oral Cavity And AirwaysChapter 24.4 - Urogenital Tracts And Their MicrobesChapter 24.5 - The Skin And Its MicrobesChapter 24.6 - Human Study Groups And Animal ModelsChapter 24.7 - Colonization, Succession, And Stability Of The Gut MicrobiotaChapter 24.8 - Disorders Attributed To The Gut MicrobiotaChapter 24.9 - Disorders Attributed To The Oral, Skin, And Vaginal MicrobiotaChapter 24.10 - Antibiotics And The Human MicrobiomeChapter 24.11 - Probiotics And PrebioticsChapter 25 - Microbial Infection And PathogenesisChapter 25.1 - Microbial AdherenceChapter 25.2 - Colonization And InvasionChapter 25.3 - Pathogenicity, Virulence, And AttenuationChapter 25.4 - Genetics Of Virulence And The Compromised HostChapter 25.5 - Enzymes As Virulence FactorsChapter 25.6 - Ab-type ExotoxinsChapter 25.7 - Cytolytic And Superantigen ExotoxinsChapter 25.8 - EndotoxinsChapter 26 - Innate Immunity:broadly Specific Host DefensesChapter 26.1 - Basic Properties Of The Immune SystemChapter 26.2 - Barriers To Pathogen InvasionChapter 26.3 - The Blood And Lymphatic SystemsChapter 26.4 - Leukocyte Production And DiversityChapter 26.5 - Pathogen Challenge And Phagocyte RecruitmentChapter 26.6 - Pathogen Recognition And Phagocyte Signal TransductionChapter 26.7 - Phagocytosis And Phagocyte InhibitionChapter 26.8 - Inflammation And FeverChapter 26.9 - The Complement SystemChapter 26.10 - Innate Defenses Against VirusesChapter 27 - Adaptive Immunity:highly Specific Host DefensesChapter 27.1 - Specificity, Memory, Selection Processes, And ToleranceChapter 27.2 - Immunogens And Classes Of ImmunityChapter 27.3 - Antibody Production And Structural DiversityChapter 27.4 - Antigen Binding And The Genetics Of Antibody DiversityChapter 27.5 - Mhc Proteins And Their FunctionsChapter 27.6 - Mhc Polymorphism, Polygeny, And Peptide BindingChapter 27.7 - T Cell Receptors: Proteins, Genes, And DiversityChapter 27.8 - T Cell DiversityChapter 27.9 - Allergy, Hypersensitivity, And AutoimmunityChapter 27.10 - Superantigens And ImmunodeficiencyChapter 28 - Clinical Microbiology And ImmunologyChapter 28.1 - Safety In The Microbiology LaboratoryChapter 28.2 - Healthcare-associated InfectionsChapter 28.3 - Workflow In The Clinical LaboratoryChapter 28.4 - Choosing The Right TreatmentChapter 28.5 - Immunoassays And DiseaseChapter 28.6 - Precipitation, Agglutination, And ImmunofluorescenceChapter 28.7 - Enzyme Immunoassays, Rapid Tests, And ImmunoblotsChapter 28.8 - Nucleic Acid–based Clinical AssaysChapter 28.9 - VaccinationChapter 28.10 - Antibacterial DrugsChapter 28.11 - Antimicrobial Drugs That Target Nonbacterial PathogensChapter 28.12 - Antimicrobial Drug Resistance And New Treatment StrategiesChapter 29 - EpidemiologyChapter 29.1 - The Language Of EpidemiologyChapter 29.2 - The Host CommunityChapter 29.3 - Infectious Disease Transmission And ReservoirsChapter 29.4 - Characteristics Of Disease EpidemicsChapter 29.5 - Public Health And Infectious DiseaseChapter 29.6 - Global Health ComparisonsChapter 29.7 - Emerging And Reemerging Infectious DiseasesChapter 29.8 - Examples Of Pandemics: Hiv/aids, Cholera, And InfluenzaChapter 29.9 - Public Health Threats From Microbial WeaponsChapter 30 - Person-to-person Bacterial And Viral DiseasesChapter 30.1 - Airborne PathogensChapter 30.2 - Streptococcal SyndromesChapter 30.3 - Diphtheria And PertussisChapter 30.4 - Tuberculosis And LeprosyChapter 30.5 - Meningitis And MeningococcemiaChapter 30.6 - Mmr And Varicella-zoster InfectionsChapter 30.7 - The Common ColdChapter 30.8 - InfluenzaChapter 30.9 - Staphylococcus Aureus InfectionsChapter 30.10 - Helicobacter Pylori And Gastric DiseasesChapter 30.11 - HepatitisChapter 30.12 - Ebola: A Deadly ThreatChapter 30.13 - Gonorrhea And SyphilisChapter 30.14 - Chlamydia, Herpes, And Human PapillomavirusChapter 30.15 - Hiv/aidsChapter 31 - Vectorborne And Soilborne Bacterial And Viral DiseasesChapter 31.1 - Rabies Virus And RabiesChapter 31.2 - Hantavirus And Hantavirus SyndromesChapter 31.3 - Rickettsial DiseasesChapter 31.4 - Lyme Disease And BorreliaChapter 31.5 - Yellow Fever, Dengue Fever, Chikungunya, And ZikaChapter 31.6 - West Nile FeverChapter 31.7 - PlagueChapter 31.8 - AnthraxChapter 31.9 - Tetanus And Gas GangreneChapter 32 - Waterborne And Foodborne Bacterial And Viral DiseasesChapter 32.1 - Agents And Sources Of Waterborne DiseasesChapter 32.2 - Public Health And Water QualityChapter 32.3 - Vibrio Cholerae And CholeraChapter 32.4 - LegionellosisChapter 32.5 - Typhoid Fever And Norovirus IllnessChapter 32.6 - Food Spoilage And Food PreservationChapter 32.7 - Foodborne Disease And Food EpidemiologyChapter 32.8 - Staphylococcal Food PoisoningChapter 32.9 - Clostridial Food PoisoningChapter 32.10 - SalmonellosisChapter 32.11 - Pathogenic Escherichia ColiChapter 32.12 - CampylobacterChapter 32.13 - ListeriosisChapter 32.14 - Other Foodborne Infectious DiseasesChapter 33 - Eukaryotic Pathogens:fungi, Protozoa, And HelminthsChapter 33.1 - Pathogenic Fungi And Classes Of InfectionChapter 33.2 - Fungal Diseases: MycosesChapter 33.3 - Amoebae And Ciliates: Entamoeba, Naegleria, And BalantidiumChapter 33.4 - Other Visceral Parasites: Giardia, Trichomonas, Cryptosporidium, Toxoplasma, And CyclosporaChapter 33.5 - Plasmodium And MalariaChapter 33.6 - Leishmaniasis, Trypanosomiasis, And Chagas DiseaseChapter 33.7 - Parasitic Helminths: Schistosomiasis And Filariases

Book Details

For courses in General Microbiology.   A streamlined approach to master microbiology Brock Biology of Microorganisms  is the leading majors microbiology text on the market. It sets the standard for impeccable scholarship, accuracy, and strong coverage of

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Brock Biology of Microorganisms (14th Edition)
14th Edition
ISBN: 9780321897398
Brock Biology Of Microorganisms (13th Edition)
13th Edition
ISBN: 9780321649638
Pearson eText for Brock Biology of Microorganisms -- Instant Access (Pearson+)
16th Edition
ISBN: 9780135860717
Pearson eText for Brock Biology of Microorganisms -- Access Card (16th Edition)
16th Edition
ISBN: 9780135860625
EBK BROCK BIOLOGY OF MICROORGANISMS
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ISBN: 9780135845400
EBK BROCK BIOLOGY OF MICROORGANISMS
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ISBN: 9780135845554
Brock Biology of Microorganisms
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ISBN: 9780134874401
Brock Biology of Microorganisms (15th Edition)
15th Edition
ISBN: 9780134261928

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