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Structure and replication of DNADNA replication

DNA is the molecule that holds the instructions for all living things. DNA achieves this feat of storing, coding and transferring biological information though its unique structure.

Part of Human BiologyHuman Cells

DNA replication

Stage one

The DNA is unwound and unzipped.

the helix structure is unwound
special molecules break the weak hydrogen bonds between bases, which are holding the two strands together
this process occurs at several locations on a DNA molecule

Stage two

DNA polymerase adds the free DNA nucleotides to the 3’ end of the primer.

This uses complementary base pairing (A-T and C-G):

adenine pairs with thymine
thymine pairs with adenine
cytosine pairs with guanine
guanine pairs with cytosine

This allows the new DNA strand to form. A primer is needed to start replication.

Leading strand is synthesised continuously:
- DNA polymerase adds nucleotides to the deoxyribose (3’) ended strand
- this happens in a 5’ to 3’ direction
Lagging strand is synthesised in fragments:
- nucleotides cannot be added to the phosphate (5’) end because DNA polymerase can only add DNA nucleotides in a 5’ to 3’ direction
- the lagging strand is therefore synthesised in fragments
- the fragments are then sealed together by an enzyme called ligase

Stage three

The two new strands twist to form a double helix. Each is identical to the original strand.

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Image caption,
Replication starts with a single strand of DNA
Image caption,
Stage one - The DNA strand is unwound and unzipped
Image caption,
Stage two - Leading strand is synthesised continuously
Image caption,
Stage two - Lagging strand is synthesised in fragments
Image caption,
Stage two - Fragments are sealed together by ligase
Image caption,
Stage three - Strands twist to form double helix

Polymerase chain reaction

The need for DNA replication

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