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Chapter 11 Opener
Figure 11.1 Potential Points for the Regulation of Gene Expression
Figure 11.2 Positive and Negative Regulation
Figure 11.2 Positive and Negative Regulation
Figure 11.2 Positive and Negative Regulation (Part 1)
Figure 11.2 Positive and Negative Regulation (Part 2)
Figure 11.3 A Gene Regulation Strategy for Viral Reproduction
Figure 11.3 A Gene Regulation Strategy for Viral Reproduction
Figure 11.4 The Reproductive Cycle of HIV
Figure 11.4 The Reproductive Cycle of HIV
Figure 11.5 Regulation of Transcription by HIV
Figure 11.5 Regulation of Transcription by HIV
Figure 11.5 Regulation of Transcription by HIV (Part 1)
Figure 11.5 Regulation of Transcription by HIV (Part 2)
Figure 11.6 Two Ways to Regulate a Metabolic Pathway
Figure 11.6 Two Ways to Regulate a Metabolic Pathway
Figure 11.7 The lac Operon of E. coli
Apply the Concept, Ch. 11, p. 214
Figure 11.8 The lac Operon: An Inducible System
Figure 11.8 The lac Operon: An Inducible System
Figure 11.8 The lac Operon: An Inducible System (Part 1)
Figure 11.8 The lac Operon: An Inducible System (Part 2)
Figure 11.9 The trp Operon: A Repressible System
Figure 11.9 The trp Operon: A Repressible System
Figure 11.9 The trp Operon: A Repressible System (Part 1)
Figure 11.9 The trp Operon: A Repressible System (Part 2)
In-Text Art, Ch. 11, p. 216
Table 11.1 Transcription in Bacteria and Eukaryotes
Figure 11.10 The Initiation of Transcription in Eukaryotes
Figure 11.10 The Initiation of Transcription in Eukaryotes
Figure 11.10 The Initiation of Transcription in Eukaryotes (Part 1)
Figure 11.10 The Initiation of Transcription in Eukaryotes (Part 2)
Figure 11.11 A Transcription Factor Protein Binds to DNA
Figure 11.11 A Transcription Factor Protein Binds to DNA
Figure 11.12 Coordinating Gene Expression
Figure 11.12 Coordinating Gene Expression
Figure 11.13 DNA Methylation: An Epigenetic Change
Figure 11.13 DNA Methylation: An Epigenetic Change
Figure 11.13 DNA Methylation: An Epigenetic Change (Part 1)
Figure 11.13 DNA Methylation: An Epigenetic Change (Part 2)
Figure 11.14 X Chromosome Inactivation
Figure 11.14 X Chromosome Inactivation
In-Text Art, Ch. 11, p. 219 (1)
In-Text Art, Ch. 11, p. 219 (2)
Figure 11.15 Epigenetic Remodeling of Chromatin for Transcription
Figure 11.15 Epigenetic Remodeling of Chromatin for Transcription
Figure 11.16 Alternative Splicing Results in Different Mature mRNAs and Proteins
Figure 11.17 mRNA Degradation Caused by MicroRNAs
Figure 11.17 mRNA Degradation Caused by MicroRNAs
Figure 11.18 A Repressor of Translation
Figure 11.18 A Repressor of Translation
Figure 11.19 A Proteasome Breaks Down Proteins
Figure 11.19 A Proteasome Breaks Down Proteins
Apply the Concept, Ch. 11, p. 224
Figure 11.20 An Explanation for Alcoholism?
