SALE

Microbiology 1st Edition Wessner Test Bank

Original price was: $35.00.Current price is: $26.50.

Microbiology 1st Edition Wessner Test Bank Digital Instant Download

Category:

This is completed downloadable of Microbiology 1st Edition Wessner Test Bank

Product Details:

  • ISBN-10 ‏ : ‎ 1118129245
  • ISBN-13 ‏ : ‎ 978-1118129241
  • Author:   Dave Wessner (Author), Christine Dupont (Author), Trevor Charles (Author)

Microbiology helps to develop a meaningful connection with the material through the incorporation of primary literature, applications and examples. The text offers an ideal balance between comprehensive, in-depth coverage of core concepts, while employing a narrative style that incorporates many relevant applications and a unique focus on current research and experimentation. The book frames information around the three pillars of physiology, ecology and genetics, which highlights their interconnectedness and helps students see a bigger picture. This innovative organization establishes a firm foundation for later work and provides a perspective on real-world applications of microbiology.

 

Table of Content:

  1. CHAPTER 1: The Microbial World
  2. Introduction
  3. 1.1 The Microbes
  4. 1.2 Microbial Physiology, Genetics, and Cultivation
  5. 1.3 Microbial Ecology and Biotechnology
  6. 1.4 Microbes and Disease
  7. CHAPTER 2: Bacteria
  8. Introduction
  9. 2.1 Morphology of Bacterial Cells
  10. 2.2 The Cytoplasm
  11. 2.3 The Bacterial Cytoskeleton
  12. 2.4 The Cell Envelope
  13. 2.5 The Bacterial Cell Surface
  14. 2.6 Diversity of Bacteria
  15. CHAPTER 3: Eukaryal Microorganisms
  16. Introduction
  17. 3.1 Morphology of Eukaryal Cells
  18. 3.2 Diversity of Eukaryal Microorganisms
  19. 3.3 Replication of Eukaryal Microorganisms
  20. 3.4 The Origin of Eukaryal Cells
  21. 3.5 Interactions Between Eukaryal Microorganisms and Animals, Plants, and the Environment
  22. CHAPTER 4: Archaea
  23. Introduction
  24. 4.1 Evolution of Archaea
  25. 4.2 Archaeal Cell Structure
  26. 4.3 Diversity of Archaea
  27. CHAPTER 5: Viruses
  28. Introduction
  29. 5.1 A Basic Overview of Viruses
  30. 5.2 Origins of Viruses
  31. 5.3 Cultivation, Purification, and Quantification of Viruses
  32. 5.4 Diversity of Viruses
  33. 5.5 Virus-Like Particles
  34. 5.6 Virology Today
  35. CHAPTER 6: Metabolism
  36. Introduction
  37. 6.1 Acquisition of Carbon, Energy, and Electrons
  38. 6.2 Energy, Enzymes, and ATP
  39. 6.3 Central Processes in ATP Synthesis
  40. 6.4 Carbon Utilization in Microorganisms
  41. 6.5 Respiration and the Electron Transport System 3D Animation
  42. 6.6 Metabolism of Non-Glucose Carbon Sources
  43. 6.7 Phototrophy and Photosynthesis
  44. 6.8 Nitrogen and Sulfur Metabolism
  45. 6.9 Biosynthesis of Cellular Components
  46. CHAPTER 7: Cultivating Microorganisms
  47. Introduction
  48. 7.1 Factors Affecting Microbial Growth
  49. 7.2 Growing Microorganisms in the Laboratory 3D animation
  50. 7.3 Measuring Microbial Population Growth
  51. 7.4 Eliminating Microbes and Preventing their Growth
  52. CHAPTER 8: DNA Replication and Gene Expression
  53. Introduction
  54. 8.1 The Role of DNA
  55. 8.2 DNA Replication
  56. 8.3 Transcription
  57. 8.4 Translation
  58. 8.5 The Effects of Mutations
  59. CHAPTER 9: Viral Replication Strategies
  60. Introduction
  61. 9.1 Recognition of Host Cells
  62. 9.2 Viral Entry and Uncoating
  63. 9.3 Viral Replication
  64. 9.4 Viral Assembly and Egress
  65. CHAPTER 10: Bacterial Genetic Analysis and Manipulation
  66. Introduction
  67. 10.1 Bacteria as Subjects of Genetic Research
  68. 10.2 Mutations, Mutants, and Strains
  69. 10.3 Restriction Enzymes, Vectors, and Cloning
  70. 10.4 Recombination and DNA Transfer
  71. CHAPTER 11: Microbial Genomics
  72. Introduction
  73. 11.1 Genome Sequencing
  74. 11.2 Genomic Analysis of Gene Expression
  75. 11.3 Comparative Genomics
  76. 11.4 Metagenomics and Related Analyses
  77. CHAPTER 12: Regulation of Gene Expression
  78. Introduction
  79. 12.1 Differential Gene Expression
  80. 12.2 The Operon
  81. 12.3 Global Gene Regulation
  82. 12.4 Post-Initiation Control of Gene Expression
  83. 12.5 Quorum Sensing
  84. 12.6 Two-Component Regulatory Systems
  85. 12.7 Chemotaxis
  86. CHAPTER 13: Biogeochemical Cycles
  87. Introduction
  88. 13.1 Nutrient Cycling
  89. 13.2 Cycling Driven by Carbon Metabolism
  90. 13.3 Cycling Driven by Nitrogen Metabolism
  91. 13.4 Other Cycles and their Connections
  92. CHAPTER 14: Microbial Ecosystems
  93. Introduction
  94. 14.1 Microbes in the Environment
  95. 14.2 Microbial Community Analysis
  96. 14.3 Aquatic Ecosystems
  97. 14.4 Terrestrial Ecosystems
  98. 14.5 Deep Subsurface and Geothermal Ecosystems
  99. CHAPTER 15: Microbial Symbionts
  100. Introduction
  101. 15.1 Types of Microbe-Host Interactions
  102. 15.2 Symbionts of Plants
  103. 15.3 Symbionts of Humans
  104. 15.4 Symbionts of Herbivores
  105. 15.5 Symbionts of Invertebrates
  106. CHAPTER 16: Microbial Biotechnology
  107. Introduction
  108. 16.1 Microbes for Biotechnology
  109. 16.2 Molecular Genetic Modification
  110. 16.3 Red Biotechnology
  111. 16.4 White Biotechnology
  112. 16.5 Green Biotechnology
  113. CHAPTER 17: The Microbiology of Food and Water
  114. Introduction
  115. 17.1 Food Spoilage
  116. 17.2 Food Preservation
  117. 17.3 Food Fermentation
  118. 17.4 Foodborne and Waterborne Illness
  119. 17.5 Microbiological Aspects of Water Quality
  120. CHAPTER 18: Introduction to Infectious Diseases
  121. Introduction
  122. 18.1 Pathogenic Microbes
  123. 18.2 Microbial Virulence Strategies
  124. 18.3 The Transmission of Infectious Diseases
  125. 18.4 Proving Cause and Effect in Microbial Infections
  126. 18.5 The Evolution of Pathogens
  127. CHAPTER 19: Innate Host Defenses Against Microbial Invasion
  128. Introduction
  129. 19.1 Immunity
  130. 19.2 Barriers to Infection
  131. 19.3 The Inflammatory Response
  132. 19.4 The Molecules of the Innate System
  133. 19.5 The Cells of Innate Immunity
  134. 19.6 Invertebrate Defenses
  135. CHAPTER 20: Adaptive Immunity
  136. Introduction
  137. 20.1 Features of Adaptive Immunity
  138. 20.2 T Cells
  139. 20.3 Antigen Processing
  140. 20.4 Antigen-Presenting Cells
  141. 20.5 Humoral and Cell-Mediated Immune Responses
  142. 20.6 B Cells and the Production of Antibody
  143. CHAPTER 21: Bacterial Pathogenesis
  144. Introduction
  145. 21.1 Bacterial Virulence Factors
  146. 21.2 Bacterial Virulence Factors—Toxins
  147. 21.3 Survival in the Host: Strategies and Consequences
  148. 21.4 Evolution of Bacterial Pathogens
  149. CHAPTER 22: Viral Pathogenesis
  150. Introduction
  151. 22.1 Recurring Themes in Viral Pathogenesis
  152. 22.2 Interactions with the Host: Strategies and Consequences
  153. 22.3 Viral Infections and Cancer
  154. 22.4 Evolution of Viral Pathogens
  155. CHAPTER 23: Eukaryal Pathogenesis
  156. Introduction
  157. 23.1 Mechanisms of Eukaryal Pathogenesis
  158. 23.2 Pathogen Study: Plasmodium falciparum
  159. 23.3 Macroscopic Eukaryal Pathogens
  160. 23.4 Evolution of Eukaryal Pathogens
  161. CHAPTER 24: Control of Infectious Disease
  162. Introduction
  163. 24.1 Historical Aspects of Infectious Disease Treatment and Control
  164. 24.2 Antimicrobial Drugs
  165. 24.3 Antimicrobial Drug Resistance
  166. 24.4 Predicting and Controlling Epidemics
  167. 24.5 Immunization and Vaccines
  168. APPENDIX A: Scientific Articles
  169. APPENDIX B: Microscopy
  170. APPENDIX C: Taxonomy and Nomenclature of Microbes
  171. APPENDIX D: Origin of Blood Cells
  172. Glossary
  173. Index
  174. End User License Agreement

Related products