Investments Home   Microbiology, 4/e               Prescott, Harley, Klein
Instructor Resources
  About the Book About the Authors Instructor Resources Student Resources Home Page

List of Transparency Acetates

1. Gram-positive Cell Morphology Figure 3.4
2. Plasma Membrane Structure Figure 3.7
3. Chaperones and Protein Folding Figure 3.16
4. Peptidoglycan Subunit Figure 3.20
5. Peptidoglycan Structure Figure 3.23
6. Gram-positive Envelope Figure 3.25
7. Gram-negative Envelope Figure 3.27
8. Lipopolysaccharide Structure Figure 3.29
9. Bacterial Flagella Structure Figure 3.37
10. Chemotaxis in E. coli Figure 3.43
11. Endospore Formation Figure 3.47
12. Eucaryotic Cell Ultrastructure Figure 4.3
13. Model of Facilitated Diffusion Figure 5.2
14. Active Transport Figure 5.3
15. Bacterial PTS Transport Figure 5.4
16. The Pour-plate Technique Figure 5.9
17. Membrane Filtration Procedure Figure 6.7
18. Disinfectants and Antiseptics Figure 7.7
19. ATP and ADP Figure 8.2
20. Structure and Function of NADFigure 8.8 a, b
21. Three Stages of Catabolism Figure 9.1
22. Glycolysis Figure 9.3
23. Pentose Phosphate Pathway Figure 9.4
24. Entner-Doudoroff Pathway Figure 9.6
25. Tricarboxylic Acid Cycle Figure 9.7
26. Respiratory Chain of E coli Figure 9.9
27. Chemisosmotic Hypothesis Figure 9.10
28. Mitochondrial Transport Chain Figure 9.11
29. NADH Oxidation in Fermentation Figure 9.13
30. Microbial Fermentations Figure 9.14
31. Green Plant Photosynthesis Figure 9.25
32. The Calvin Cycle Figure 10.4
33. Gluconeogenesis Figure 10.5
34. Ammonia Incorporation Figure 10.11, 10.12
35. Assimilatory Nitrate Reduction Figure 10.13
36. Nitrogen Fixation Figure 10.14, 10.16
37. Organization of Anabolism Figure 10.17
38. The Glyoxylate Cycle Figure 10.20
39. Peptidoglycan Synthesis Figure 10.28
40. DNA Double Helix Structure Figure 11.2 a, b
41. Rolling-Circle Replication Figure 11.9
42. Bacterial DNA Replication Figure 11.12 a, b
43. Initiation of Protein Synthesis Figure 11.28
44. Elongation CycleFigure 11.29
45. Gene Induction Figure 12.10
46. Gene Repression Figure 12.11
47. Attenuation Control Figure 12.18
48. Cell Cycle Control in E coli Figure 12.19
49. A Bacterial Structural Gene Figure 13.6
50. Replica Plating Figure 13.15
51. Merozygote Production and Fate Figure 14.4
52. F Plasmid Integration Figure 14.7
53. Bacterial Conjugation Figure 14.14
54. F' Conjugation Figure14.15
55. Bacterial Transformation Figure 14.16
56. Mechanism of transformation Figure 14.17
57. Lambda Phage Life Cycles Figure 14.18
58. Generalized Transduction Figure 14.19
59. Specialized Transduction Figure 14.20
60. Transduction by Lambda Phage Figure 14.21
61. Southern Blotting Technique Figure 15.5
62. The Polymerase Chain Reaction Figure 15.8
63. Recombinant Plasmid Production Figure 15.11
64. Cloning with Plasmid Vectors Figure 15.14
65. Lambda Phage Use as a Vector Figure 15.15
66. Tobacco Mosaic Virus StructureFigure 16.11 b, c
67. Icosahedral Capsid Structure Figure 16.13
68. Influenza Virus Figure 16.17 b
69. T4 Coliphage Structure Figure 16.19 a
70. Major Bacteriophage Families Figure 17.1
71. T4 Phage Adsorption Figure 17.3
72. Life Cycle of Bacteriophage T4 Figure 17.5 a
73. ssDNA & RNA Phage Life Cycles Figure 17.10, 17.13
74. Assembly of T4 Bacteriophage Figure 17.11
75. Choice of Lysogeny of Lysis Figure 17.18
76. Integration of Lambda Phage Figure 17.20
77. Major Animal Virus Families Figure 18.3
78. Animal Virus Entry Figure 18.4
79. RNA Animal Virus Reproduction Figure 18.5
80. Release of Influenza Virus Figure 18.8
81. Universal Phylogenetic Tree Figure 19.3
82. Phylogeny of the Archaea Figure 19.12
83. Phylogeny of the Eubacteria Figure 19.13
84. Methane Synthesis Figure 20.13
85. Cyanobacterial Cell Structure Figure 21.8
86. The Chlamydial Life Cycle Figure 21.13
87. Spirochete Morphology Figure 21.15 a, b
88. Caulobacter Life Cycle Figure 22.7
89. Bdellovibrio Life Cycle Figure 22.32 a
90. Myxobacterial Life Cycle Figure 22.34
91. Actinobacterial Classification Figure 24.3
92. Phylogeny of the Fungi & Molds Figure Phylo. D. 25
93. Yeast Structure Figure 25.3
94. Phylogeny of the Algae Figure Phylo. D. 26
95. Phylogeny of the Protozoa Figure Phylo. D. 27
96. Tube Worm-Bacteria Symbiosis Figure 28.4 b, d
97. Exotoxin Transport Mechanisms Figure 29.4
98. Host Defenses Figure 29.6
99. Antiviral Action of Interferon Figure 29.9
100. The RE System and Leukocytes Figure 29.10, 29.11 a
101. Different Host Defenses Figure 30.1
102. Lymphocyte Development Figure 30.2
103. Immunoglobulin (Ab) Structure Figure 30.6 a, b
104. Immunoglobulin (Ab) StructureFigure 30.6 c
105. Gene Shuffling & Ab Diversity Figure 30.14
106. L and H Chain Production Figure 30.15, 30.16
107. Clonal Selection Figure 30.17
108. Antibody Responses Figure 30.18 a, b
109. Production of Monoclonal Abs Figure 30.19
110. T-Dependent B cell Triggering Figure 31.4
111. The TCR and T-cell Activation Figure 31.5 a, b
112. Helper T-cell Responses Figure 31.8
113. T-Helper Cell Activation Figure 31.9
114. Superantigens Figure 31.11
115. Type I Hypersensitivity Figure 31.12
116. Type II Hypersensitivity Figure 31.14
117. Type III Hypersensitivity Figure 31.15
118. Type Hypersensitivity Figure 31.16
119. Complement Cascade Figure 32.2
120. Membrane Attack Complex Figure 32.3
121. Opsonization Figure 32.6
122. Immunoprecipitation Figure 32.17
123. Key to pathogenic Bacteria Figure 34.6 a
124. Key to Pathogenic Bacteria Figure 34.6 b
125. DNA Probe Hybridization Figure 34.12
126. Epidemic Curves Figure 35.3
127. Herd Immunity Figure 35.5
128. The HIV-1 Virion Figure 36.8
129. Life Cycle of HIV-1 Figure 36.10
130. Tuberculosis Figure 37.7
131. Staphylococcal Diseases Figure 37.16
132. Course of Untreated Syphilis Figure 37.19
133. The Septic Shock Cascade Figure 37.22
134. Malaria Figure 39.19
135. Ecological Role of Microbes Figure 40.2
136. The Carbon Cycle in Nature Figure 40.7
137. The Sulfur Cycle in Nature Figure 40.8
138. The Nitrogen Cycle in Nature Figure 40.9
139. The Winogradsky Column Figure 41.1
140. The Growth of Biofilms Figure 41.3
141. Multiple-Tube Water Testing Figure 41.26
142. The Soil Microenvironment Figure 42.1
143. Root Nodule Formation Figure 42.9 b,c,d,f,h,i, k
144. Types of Mycorrhizae Figure 42.13
145. Phytoremediation Figure 42.23
146. Wine Making Figure 43.16
147. Producing Beer Figure 43.17
148. Large-Scale Fermentation Unit Figure 44.2
149. Subsurface Bioremediation Figure 44.22

Back

feedback form | permissions | international | locate your campus rep | request a review copy

digital solutions | publish with us | customer service | mhhe home

Copyright ©2001 The McGraw-Hill Companies.
Any use is subject to the Terms of Use and Privacy Policy.
McGraw-Hill Higher Education is one of the many fine businesses of the The McGraw-Hill Companies.