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