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Chapter 5 Opener
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Figure 5.1 Membrane Molecular Structure
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Figure 5.1 Membrane Molecular Structure
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In-Text Art, Ch. 5, p. 80
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Apply the Concept, Ch. 5, p. 80
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In-Text Art, Ch. 5, p. 81
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In-Text Art, Ch. 5, p. 81
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In-Text Art, Ch. 5, p. 82
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In-Text Art, Ch. 5, p. 82
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Figure 5.2 Rapid Diffusion of Membrane Proteins
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Figure 5.2 Rapid Diffusion of Membrane Proteins
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Figure 5.2 Rapid Diffusion of Membrane Proteins (Part 1)
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Figure 5.2 Rapid Diffusion of Membrane Proteins (Part 2)
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Figure 5.2 Rapid Diffusion of Membrane Proteins (Part 3)
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In-Text Art, Ch. 5, p. 83
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Figure 5.3 Osmosis Can Modify the Shapes of Cells
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Figure 5.3 Osmosis Can Modify the Shapes of Cells
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Figure 5.3 Osmosis Can Modify the Shapes of Cells (Part 1)
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Figure 5.3 Osmosis Can Modify the Shapes of Cells (Part 2)
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Figure 5.3 Osmosis Can Modify the Shapes of Cells (Part 3)
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Figure 5.4 A Ligand-Gated Channel Protein Opens in Response to a Stimulus
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Figure 5.4 A Ligand-Gated Channel Protein Opens in Response to a Stimulus
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Figure 5.5 Aquaporins Increase Membrane Permeability to Water
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Figure 5.5 Aquaporins Increase Membrane Permeability to Water
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Figure 5.5 Aquaporins Increase Membrane Permeability to Water (Part 1)
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Figure 5.5 Aquaporins Increase Membrane Permeability to Water (Part 2)
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Figure 5.5 Aquaporins Increase Membrane Permeability to Water (Part 3)
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Figure 5.6 A Carrier Protein Facilitates Diffusion
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Figure 5.6 A Carrier Protein Facilitates Diffusion
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Figure 5.6 A Carrier Protein Facilitates Diffusion (Part 1)
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Figure 5.6 A Carrier Protein Facilitates Diffusion (Part 2)
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Table 5.1 Membrane Transport Mechanisms
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Figure 5.7 Primary Active Transport: The Sodium–Potassium Pump
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Figure 5.7 Primary Active Transport: The Sodium–Potassium Pump
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Figure 5.8 Endocytosis and Exocytosis
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Figure 5.8 Endocytosis and Exocytosis
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Figure 5.8 Endocytosis and Exocytosis (Part 1)
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Figure 5.8 Endocytosis and Exocytosis (Part 2)
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Figure 5.9 Receptor-Mediated Endocytosis
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Figure 5.9 Receptor-Mediated Endocytosis
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Figure 5.9 Receptor-Mediated Endocytosis (Part 1)
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Figure 5.9 Receptor-Mediated Endocytosis (Part 2)
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Figure 5.10 Chemical Signaling Concepts
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Figure 5.10 Chemical Signaling Concepts
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Figure 5.11 Signal Transduction Concepts
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Figure 5.11 Signal Transduction Concepts
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Figure 5.12 A Signal Binds to Its Receptor
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Figure 5.12 A Signal Binds to Its Receptor
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In-Text Art, Ch. 5, p. 92
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Figure 5.13 A Protein Kinase Receptor
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Figure 5.13 A Protein Kinase Receptor
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Figure 5.14 A G Protein–Linked Receptor
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Figure 5.14 A G Protein–Linked Receptor
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Figure 5.14 A G Protein–Linked Receptor (Part 1)
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Figure 5.14 A G Protein–Linked Receptor (Part 2)
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Figure 5.14 A G Protein–Linked Receptor (Part 3)
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Figure 5.15 The Discovery of a Second Messenger
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Figure 5.15 The Discovery of a Second Messenger
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Figure 5.15 The Discovery of a Second Messenger (Part 1)
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Figure 5.15 The Discovery of a Second Messenger (Part 2)
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Figure 5.16 The Formation of Cyclic AMP
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Figure 5.16 The Formation of Cyclic AMP (Part 1)
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Figure 5.16 The Formation of Cyclic AMP (Part 2)
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Figure 5.16 The Formation of Cyclic AMP (Part 3)
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Figure 5.17 A Cascade of Reactions Leads to Altered Enzyme Activity
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Figure 5.17 A Cascade of Reactions Leads to Altered Enzyme Activity
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Figure 5.17 A Cascade of Reactions Leads to Altered Enzyme Activity (Part 1)
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Figure 5.17 A Cascade of Reactions Leads to Altered Enzyme Activity (Part 2)
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Figure 5.18 Signal Transduction Regulatory Mechanisms
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Figure 5.18 Signal Transduction Regulatory Mechanisms (Part 1)
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Figure 5.18 Signal Transduction Regulatory Mechanisms (Part 2)
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Figure 5.18 Signal Transduction Regulatory Mechanisms (Part 3)
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Figure 5.19 Caffeine and the Cell Membrane
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Figure 5.19 Caffeine and the Cell Membrane
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Figure 5.19 Caffeine and the Cell Membrane (Part 1)
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Figure 5.19 Caffeine and the Cell Membrane (Part 2)
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