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DNA Replication
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Synthesis Phase (S phase) S phase in interphase of the cell cycle. Nucleus of eukaryotes Mitosis -prophase -metaphase -anaphase -telophase G1G1 G2G2 S phase interphase DNA replication takes place in the S phase.
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DNA Nucleotide O O=P-O OPhosphate Group Group N Nitrogenous base (A, G, C, or T) (A, G, C, or T) CH2 O C1C1 C4C4 C3C3 C2C2 5 Sugar Sugar(deoxyribose)
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Figure 11.7 Base Pairing in DNA Is Complementary
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DNA Replication DNA must replicate during each cell division THREE alternative models for DNA replication were hypothesized: Semiconservative replication Conservative replication Dispersive replication DNA Replication
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Figure 11.8 Meselson and Stahl’s experiment proved replication of DNA to be semiconservative - See Practical - See pages 206-207
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Watson & Crick predicted that each DNA strand could serve as a template for the replication of a new strand Q: What is the mode of replication?
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The Mechanism of DNA Replication DNA replication is catalyzed by DNA polymerase DNA polymerase needs an RNA primer DNA polymerase adds nucleotides to the 3’ end of the growing strand Nucleotides are added by complementary base pairing with the template strand
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Figure 11.11
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The Mechanism of DNA Replication Many proteins assist in DNA replication DNA helicases unwind the double helix, the template strands are stabilized by other proteins
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Figure 11.16
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The Mechanism of DNA Replication Many proteins assist in DNA replication DNA helicases RNA primase catalyzes the synthesis of short RNA primers, to which nucleotides are added. DNA polymerase III extends the strand in the 5’-to-3’ direction
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Figure 11.15 RNA primase
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The Mechanism of DNA Replication DNA synthesis on the leading strand is continuous. It reads the template in the 3’-to - 5’ direction (the same direction as helicase) The lagging strand grows in the opposite direction to the Replication Fork. DNA is always made in the 5’-to-3’ direction. Therefore, DNA synthesis on the lagging strand is discontinuous DNA is created as short fragments (Okazaki fragments) that are subsequently ligated together
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Figure 11.17
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The Mechanism of DNA Replication Many proteins assist in DNA replication DNA helicases RNA primase DNA polymerase III DNA polymerase I degrades the RNA primer and replaces it with DNA DNA ligase joins the DNA fragments into a continuous daughter strand
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Figure 11.18
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Figure 11.8 a
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DNA Replication Animations http://www.bioteach.ubc.ca/TeachingR esources/MolecularBiology/DNAReplicati on.swf http://www.bioteach.ubc.ca/TeachingR esources/MolecularBiology/DNAReplicati on.swf http://bcs.whfreeman.com/thelifewire/c ontent/chp11/1102002.html http://bcs.whfreeman.com/thelifewire/c ontent/chp11/1102002.html CLICK ‘HERE’ for Biology Web labHERE
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