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Summary OCR A/AS-Level Biology 2.3.2 DNA Replication $3.86
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Summary OCR A/AS-Level Biology 2.3.2 DNA Replication

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Revision summary of key knowledge from OCR A/AS-Level Biology 2.3.2 DNA Replication.

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  • Chapter 3.1.2
  • June 26, 2023
  • 2
  • 2022/2023
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DNA Replication
Self Replication
 Every time a cell divides, DNA must be copied so each new daughter cell contains the
full set (diploid) of chromosomes
 Each molecule of DNA replicates during interphase, before the cell divides
 Results in each chromosome having an identical copy of itself
 These are at first joined at the centromere as two sister chromatids

Semi-Conservative Replication
 Double helix unwinds a bit at a time, catalysed by a gyrase enzyme
 Unzipping – hydrogen bonds between bases break, catalysed by DNA helicase enzyme
 Results in two separate strands with exposed bases
 Free phosphorylated nucleotides in the nucleoplasm bond to the exposed bases
following base-pairing rules
 DNA polymerase enzymes catalyse the addition of nucleotide bases to the single strands
of DNA, using each strand as a template
 The leading strand is synthesised continuously while the lagging strand is in fragments
that are later joined, catalysed by a ligase enzyme
 Produces two DNA molecules which are identical to each other and the parent molecule
 Each molecule contains one old and one new strand, so is semi-conservative

Mutations
 Errors can occur in DNA replication and the wring nucleotide can be inserted
 This occurs inn I in 108 base pairs (or 1 in 100,000,000)
 This can change the genetic code and is an example of a point mutation
 During replication, enzymes proof-read and edit out such errors, reducing the likelihood
of mutation
 Substitution – mutated new strand has the wrong nucleotide for a base
 Insertion – mutated new strand has an extra nucleotide
 Deletion – mutated new strand has a missing nucleotide

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