Chapter 12 Opener

Figure 12.1 DNA Sequencing

Figure 12.1 DNA Sequencing

Figure 12.1 DNA Sequencing (Part 1)

Figure 12.1 DNA Sequencing (Part 2)

Figure 12.2 Arranging DNA Sequences

Figure 12.2 Arranging DNA Sequences

Figure 12.3 The Genomic Book of Life

Figure 12.3 The Genomic Book of Life

Figure 12.4 Proteomics

Figure 12.4 Proteomics

Figure 12.4 Proteomics (Part 1)

Figure 12.4 Proteomics (Part 2)

Figure 12.5 Genomics, Proteomics, and Metabolomics

Table 12.1 Gene Functions in Three Bacteria

Figure 12.6 DNA Sequences That Move

Figure 12.6 DNA Sequences That Move

Figure 12.6 DNA Sequences That Move (Part 1)

Figure 12.6 DNA Sequences That Move (Part 2)

Figure 12.7 Metagenomics

Figure 12.7 Metagenomics

Figure 12.8 Using Transposon Mutagenesis to Determine the Minimal Genome

Figure 12.8 Using Transposon Mutagenesis to Determine the Minimal Genome

Figure 12.8 Using Transposon Mutagenesis to Determine the Minimal Genome (Part 1)

Figure 12.8 Using Transposon Mutagenesis to Determine the Minimal Genome (Part 2)

Table 12.2 Representative Sequenced Genomes

Figure 12.9 Functions of the Eukaryotic Genome

Figure 12.10 Plant Genomes

Figure 12.10 Plant Genomes

Figure 12.11 The Globin Gene Family

Figure 12.11 The Globin Gene Family

Table 12.3 Types of Sequences in Eukaryotic Genomes

In-Text Art, Ch. 12, p. 238

Apply the Concept, Ch. 12, p. 238

Figure 12.12 Evolution of the Genome

Figure 12.13 SNP Genotyping and Disease

Figure 12.13 SNP Genotyping and Disease

Figure 12.14 Pharmacogenomics

Figure 12.14 Pharmacogenomics

Figure 12.15 DNA Fingerprinting

Figure 12.15 DNA Fingerprinting

Figure 12.15 DNA Fingerprinting (Part 1)

Figure 12.15 DNA Fingerprinting (Part 2)

Figure 12.16 Muscular Gene

Figure 12.16 Muscular Gene (Part 1)

Figure 12.16 Muscular Gene (Part 2)