Figure 16.0 Watson and Crick

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Figure 16.0 Watson and Crick
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Figure 16.0x James Watson
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Figure 16.1 Transformation of bacteria
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Figure 16.2a The Hershey-Chase experiment phages
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Figure 16.2ax Phages
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Figure 16.2b The Hershey-Chase experiment
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Figure 16.3 The structure of a DNA stand
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Figure 16.4 Rosalind Franklin and her X-ray
diffraction photo of DNA
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Figure 16.5 The double helix
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Unnumbered Figure (page 292) Purine and pyridimine
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Figure 16.6 Base pairing in DNA
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Figure 16.7 A model for DNA replication the
basic concept (Layer 1)
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Figure 16.7 A model for DNA replication the
basic concept (Layer 2)
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Figure 16.7 A model for DNA replication the
basic concept (Layer 3)
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Figure 16.7 A model for DNA replication the
basic concept (Layer 4)
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Figure 16.8 Three alternative models of DNA
replication
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Figure 16.9 The Meselson-Stahl experiment tested
three models of DNA replication (Layer 1)
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Figure 16.9 The Meselson-Stahl experiment tested
three models of DNA replication (Layer 2)
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Figure 16.9 The Meselson-Stahl experiment tested
three models of DNA replication (Layer 3)
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Figure 16.9 The Meselson-Stahl experiment tested
three models of DNA replication (Layer 4)
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Figure 16.10 Origins of replication in eukaryotes
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Figure 16.11 Incorporation of a nucleotide into
a DNA strand
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Figure 16.12 The two strands of DNA are
antiparallel
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Figure 16.13 Synthesis of leading and lagging
strands during DNA replication
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Figure 16.14 Priming DNA synthesis with RNA
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Figure 16.15 The main proteins of DNA
replication and their functions
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Figure 16.16 A summary of DNA replication
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Figure 16.17 Nucleotide excision repair of DNA
damage
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Figure 16.18 The end-replication problem
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Figure 16.19a Telomeres and telomerase
Telomeres of mouse chromosomes
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Figure 16.19b Telomeres and telomerase