Title: Figure 16.0 Watson and Crick
1Figure 16.0 Watson and Crick
2Figure 16.0x James Watson
3Figure 16.1 Transformation of bacteria
4Figure 16.2a The Hershey-Chase experiment phages
5Figure 16.2ax Phages
6Figure 16.2b The Hershey-Chase experiment
7Figure 16.3 The structure of a DNA stand
8Figure 16.4 Rosalind Franklin and her X-ray
diffraction photo of DNA
9Figure 16.5 The double helix
10Unnumbered Figure (page 292) Purine and pyridimine
11Figure 16.6 Base pairing in DNA
12Figure 16.7 A model for DNA replication the
basic concept (Layer 1)
13Figure 16.7 A model for DNA replication the
basic concept (Layer 2)
14Figure 16.7 A model for DNA replication the
basic concept (Layer 3)
15Figure 16.7 A model for DNA replication the
basic concept (Layer 4)
16Figure 16.8 Three alternative models of DNA
replication
17Figure 16.9 The Meselson-Stahl experiment tested
three models of DNA replication (Layer 1)
18Figure 16.9 The Meselson-Stahl experiment tested
three models of DNA replication (Layer 2)
19Figure 16.9 The Meselson-Stahl experiment tested
three models of DNA replication (Layer 3)
20Figure 16.9 The Meselson-Stahl experiment tested
three models of DNA replication (Layer 4)
21Figure 16.10 Origins of replication in eukaryotes
22Figure 16.11 Incorporation of a nucleotide into
a DNA strand
23Figure 16.12 The two strands of DNA are
antiparallel
24Figure 16.13 Synthesis of leading and lagging
strands during DNA replication
25Figure 16.14 Priming DNA synthesis with RNA
26Figure 16.15 The main proteins of DNA
replication and their functions
27Figure 16.16 A summary of DNA replication
28Figure 16.17 Nucleotide excision repair of DNA
damage
29Figure 16.18 The end-replication problem
30Figure 16.19a Telomeres and telomerase
Telomeres of mouse chromosomes
31Figure 16.19b Telomeres and telomerase