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DNA Replication When/why do cells need to replicate (copy) DNA? Growth Reproduction Repair Where do we start? Replication origin – a specific sequence.

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Presentation on theme: "DNA Replication When/why do cells need to replicate (copy) DNA? Growth Reproduction Repair Where do we start? Replication origin – a specific sequence."— Presentation transcript:

1 DNA Replication When/why do cells need to replicate (copy) DNA? Growth Reproduction Repair Where do we start? Replication origin – a specific sequence of DNA (or region on a chromosome) at which DNA synthesis, or replication begins

2 Prokaryotes VS Eukaryotes - Replication Prokaryotes – only 1 replication origin Circular DNA, called a plasmid Eukaryotes – many replication origins (because they contain so much more DNA; would take too long to replicate)

3 Replication enzymes: At the replication origin: Helicase = enzyme that unwinds & unzips DNA RNA primase = produces an RNA primer DNA polymerase = enzyme that makes new DNA Ligase = joins separate DNA fragments This whole combination of the enzymes, proteins, & DNA = replisome

4 Steps of DNA Synthesis 1. Proteins & enzymes bind at replication origin. Helicase, an enzyme, unwinds/unzips the DNA molecule.

5 Steps of DNA Synthesis 2. Another enzyme, RNA primase, lays down an RNA primer so that the next enzyme knows where to begin DNA synthesis.

6 Steps of DNA Synthesis 3. The enzyme DNA polymerase adds nucleotides to the pre- existing DNA strand by matching the correct base pairs.

7 Steps of DNA Synthesis 4. DNA polymerase replaces the RNA primers with DNA and replication continues until the entire chromosome has been replicated.

8 PROBLEM! DNA Polymerase is very stubborn… it only likes to work in one direction. What do we know about the direction of DNA’s 2 strands?

9 Because DNA is antiparallel, we call one strand the leading strand (5’ → 3’) and the other the lagging strand (3’ → 5’). Leading strand = continuous DNA synthesis Lagging strand = discontinuous DNA synthesis

10 Lagging Strand Replication WHY is the lagging discontinuous??? DNA polymerase can only work in one direction (3’ → 5’), so in lagging strand – DNA synthesis occurs in short, unconnected segments (called Okazaki fragments) that get joined by another enzyme, ligase.

11 End result of DNA replication End result = 2 identical double helices, each with one original strand & one newly synthesized strand Called Semi-conservative DNA synthesis b/c each helix has an original & a new strand

12 Amoeba sisters- DNA Replication https://www.youtube.com/watch?v=5qSrmeiWsuc

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