DNA replication

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Lucy

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Cards (27)

  • What is the method of DNA replication called?
    Semi-conservative replication.
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  • Why is DNA replication called semi-conservative?
    Because each new DNA molecule has one original strand and one new strand.
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  • What is the role of DNA helicase in replication?
    It unwinds the double helix and breaks the hydrogen bonds between the bases.
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  • What do the original DNA strands act as during replication?
    They act as templates for building new strands.
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  • How do free nucleotides attach to the original strands?
    Through complementary base pairing (A with T, C with G).
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  • Which enzyme catalyses the joining of nucleotides during DNA replication?
    DNA polymerase.
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  • What bonds are formed between the bases of the new DNA strands?
    Hydrogen bonds.
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  • What does each new DNA molecule contain after replication?
    One original strand and one new strand.
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  • Why can hydrogen bonds in DNA be easily broken during replication?
    Because they are relatively weak bonds between the bases.
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  • What does complementary base pairing ensure during DNA replication?
    It ensures that the correct bases pair together for accurate replication.
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  • What did Watson and Crick discover about DNA that helps explain replication?
    The structure of DNA allows for easy strand separation and accurate complementary base pairing.
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  • What is the directional structure of DNA strands?
    5' (5 prime) to 3' (3 prime) direction.
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  • To which end of the template strand is DNA polymerase complementary?
    The 3' (3 prime) end.
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  • In which direction does DNA polymerase move along the template strand?
    In the 3' to 5' direction.
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  • Why is one DNA strand built continuously during replication?
    Because DNA polymerase works continuously on the leading strand.
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  • Why is the other DNA strand built in sections during replication?
    Because DNA polymerase must detach and re-attach as the DNA unwinds on the lagging strand.
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  • How does DNA polymerase work on antiparallel strands?
    It can only add nucleotides to the 3' end, so it moves in opposite directions on the two strands.
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