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Section 12.2 – DNA Replication * In DNA Replication, the DNA molecule unwinds, and the 2 sides split. Then, new nucleotides are added to each side (using.

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Presentation on theme: "Section 12.2 – DNA Replication * In DNA Replication, the DNA molecule unwinds, and the 2 sides split. Then, new nucleotides are added to each side (using."— Presentation transcript:

1 Section 12.2 – DNA Replication * In DNA Replication, the DNA molecule unwinds, and the 2 sides split. Then, new nucleotides are added to each side (using the base-pairing rules) resulting in 2 identical molecules.

2 I.Steps of DNA Replication A.The 2 strands unwind & separate from each other. 1.The point where the 2 chains separate is called the replication fork. 2.DNA Helicase – enzyme that breaks the H- bonds between nitrogen-bases and separates the 2 strands.

3 B.At the replication fork, new nucleotides are added to each strand, using the base-pairing rules. 1.DNA Polymerase – enzyme that binds to a strand and adds complementary nucleotides to complete the double helix. 2.DNA Polymerase also “proofreads” by back tracking to a mismatched nucleotide, remove it, and add the correct one.

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5 C.Simulating DNA Replication 1.If one strand of original DNA is: A-T-T-C-C-G Then the new strand added by DNA Polymerase is: T-A-A-G-G-C

6 II.Prokaryotic vs. Eukaryotic DNA Replication A.Prokaryotic 1.Have 1, circular DNA molecule 2.Replication begins at one point, 2 replication forks form, and replication occurs in opposite directions until the 2 forks meet on opposite sides of the DNA loop.

7 B.Eukaryotic 1.Have several, linear DNA molecules 2.On each DNA molecule, there are many replication sites. At each site, 2 forks form and replication occurs in opposite directions. 3.This forms replication “bubbles”. 4.This allows eukaryotes to copy their DNA much faster than prokaryotes.

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9 III.Mutations A.Change in at least one nucleotide. B.Caused by: 1.Wrong nucleotide is not corrected 2.Chemical exposure 3.UV Radiation

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