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Figure 4-1 Overview of chromosome duplication in the cell cycle
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Figure 4-2 Asymmetry in the synthesis of leading and lagging strands
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Figure 4-3 Steps in DNA synthesis
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Figure 4-4 Synthesis of chromosome ends by telomerase
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Figure 4-5 The autonomously replicating sequence (ARS) of budding yeast
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Figure 4-6 Identification of a replicon cluster by radioactive labeling
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Figure 4-7 Replication foci in nuclei of S-phase cells
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Figure 4-8 Association of the ORC with replication origins in Drosophila follicle cells
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Figure 4-9 Table of alternative names for components of the prereplicative complex
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Figure 4-10 Assembly of the prereplicative complex
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Figure 4-11 Mechanisms that limit prereplicative complex formation to G1
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Figure 4-12 Rereplication in yeast cells with deregulated ORC, Mcm2–7 and Cdc6
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Figure 4-13 Cyclin levels during the budding yeast cell cycle
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Figure 4-14 Effects of clb5 and clb6 mutations ontiming of origin activation
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Figure 4-15 Clb2 is intrinsically less effective than Clb5 in the activation of replication
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Figure 4-16 Levels of cyclins A and E in vertebrate cells
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Figure 4-17 The functions of cyclins E and A in Drosophila DNA replication
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Figure 4-18 Table of alternative names for Cdc7 and Dbf4
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Figure 4-19 Function of Cdc7 in activation of replication origins
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Figure 4-20 Changes in Cdc7 activity during the budding yeast cell cycle
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Figure 4-21 Control of Cdc7 activation by Cdk activity
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Figure 4-22 Table of components of the preinitiation complex
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Figure 4-23 Initiation of DNA replication
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Figure 4-24 Binding of replication proteins to early and late origins of replication
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Figure 4-25 Basic units of chromatin structure
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Figure 4-26 Histone tails and their function in chromatin formation
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Figure 4-27 Mechanisms leading to increased histone synthesis in S phase
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Figure 4-28 Processing of histone mRNA in metazoans
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Figure 4-29 Independent regulation of SLBP and histone mRNA levels in mammalian cells
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Figure 4-30 Conservative distribution of nucleosomes on nascent DNA
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Figure 4-31 Steps in nucleosome assembly
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Figure 4-32 Epigenetic inheritance of heterochromatin structure at a yeast telomere
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Figure 4-33 Epigenetic inheritance of centromeric chromatin structure
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Figure 4-34 General model for duplication of heterochromatin during cell division
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Figure 4-35 Formation of heterochromatin structure by the Sir complex at budding yeast telomeres
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