2. DNA replication begins at
the origin of replication.
DNA helicase then unzips
the DNA Helix.
key
Adenine
Thymine
Cytosine
Guanine
phosphate
Sugar
3. DNA replication begins at
the origin of replication.
DNA helicase then unzips
the DNA helicase.
key
Adenine
phosphate
Thymine
Sugar
Cytosine
DNA Helix
Guanine
4. DNA replication begins at
the origin of replication.
DNA helicase then unzips
the DNA helicase.
key
Adenine
Thymine
Cytosine
Guanine
phosphate
Sugar
5. DNA replication begins at
the origin of replication.
DNA helicase then unzips
the DNA helicase.
key
Adenine
Thymine
Cytosine
Guanine
phosphate
Sugar
6. DNA replication begins at
the origin of replication.
DNA helicase then unzips
the DNA helicase.
key
Adenine
Thymine
Cytosine
Guanine
phosphate
Sugar
7. DNA replication begins at
the origin of replication.
DNA helicase then unzips
the DNA helicase.
key
Adenine
Thymine
Cytosine
Guanine
phosphate
Sugar
8. DNA replication begins at
the origin of replication.
DNA helicase then unzips
the DNA helicase.
key
Adenine
Thymine
Cytosine
Guanine
phosphate
Sugar
9. DNA replication begins at
the origin of replication.
DNA helicase then unzips
the DNA helicase.
key
Adenine
Thymine
Cytosine
Guanine
phosphate
Sugar
10. DNA replication begins at
the origin of replication.
DNA helicase then unzips
the DNA helicase.
key
Adenine
Thymine
Cytosine
Guanine
phosphate
Sugar
11. DNA replication begins at
the origin of replication.
DNA helicase then unzips
the DNA helicase.
key
Adenine
Thymine
Cytosine
Guanine
phosphate
Sugar
12. DNA replication begins at
the origin of replication.
DNA helicase then unzips
the DNA helicase.
key
Adenine
Thymine
Cytosine
Guanine
phosphate
Sugar
13. DNA replication begins at
the origin of replication.
DNA helicase then unzips
the DNA helicase.
key
Adenine
Thymine
Cytosine
Guanine
phosphate
Sugar
14. Once the strand is split
nucleotides must bond
together correctly to make
a complementary strand.
key
Adenine
Thymine
Cytosine
Guanine
phosphate
Sugar
15. Once the strand is split
nucleotides must bond
together correctly to make
a complementary strand.
key
Adenine
Thymine
Cytosine
Guanine
phosphate
Sugar
16. Once the strand is split
nucleotides must bond
together correctly to make
a complementary strand.
key
Adenine
Thymine
Cytosine
Guanine
phosphate
Sugar
17. Once the strand is split
nucleotides must bond
together correctly to make
a complementary strand.
key
Adenine
Thymine
Cytosine
Guanine
phosphate
Sugar
18. Once the strand is split
nucleotides must bond
together correctly to make
a complementary strand.
key
Adenine
Thymine
Cytosine
Guanine
phosphate
Sugar
19. Once the strand is split
nucleotides must bond
together correctly to make
a complementary strand.
key
Adenine
Thymine
Cytosine
Guanine
phosphate
Sugar
20. Once the strand is split
nucleotides must bond
together correctly to make
a complementary strand.
key
Adenine
Thymine
Cytosine
Guanine
phosphate
Sugar
21. Once the strand is split
nucleotides must bond
together correctly to make
a complementary strand.
key
Adenine
Thymine
Cytosine
Guanine
phosphate
Sugar
22. Once the strand is split
nucleotides must bond
together correctly to make
a complementary strand.
key
Adenine
Thymine
Cytosine
Guanine
phosphate
Sugar
23. Once the strand is split
nucleotides must bond
together correctly to make
a complementary strand.
key
Adenine
Thymine
Cytosine
Guanine
phosphate
Sugar
24. Once the strand is split
nucleotides must bond
together correctly to make
a complementary strand.
key
Adenine
Thymine
Cytosine
Guanine
phosphate
Sugar
25. On the Lagging strand a
RNA primer is inserted by
DNA primase.
key
Adenine
phosphate
Thymine
Sugar
Cytosine
RNA
Guanine
26. On the Lagging strand a
RNA primer is inserted by
DNA primase.
key
Adenine
phosphate
Thymine
Sugar
Cytosine
RNA
Guanine
27. On the Lagging strand a
RNA primer is inserted by
DNA primase.
key
Adenine
phosphate
Thymine
Sugar
Cytosine
RNA
Guanine
28. On the Lagging strand a
RNA primer is inserted by
DNA primase.
key
Adenine
phosphate
Thymine
Sugar
Cytosine
RNA
Guanine
29. On the Lagging strand a
RNA primer is inserted by
DNA primase.
key
Adenine
phosphate
Thymine
Sugar
Cytosine
RNA
Guanine
30. On the Lagging strand a
RNA primer is inserted by
DNA primase.
key
Adenine
phosphate
Thymine
Sugar
Cytosine
RNA
Guanine
31. On the Lagging strand a
RNA primer is inserted by
DNA primase.
key
Adenine
phosphate
Thymine
Sugar
Cytosine
RNA
Guanine
32. On the Lagging strand a
RNA primer is inserted by
DNA primase.
key
Adenine
phosphate
Thymine
Sugar
Cytosine
RNA primer
Guanine
33. On the Lagging strand a
RNA primer is inserted by
DNA primase.
key
Adenine
phosphate
Thymine
Sugar
Cytosine
RNA primer
Guanine
34. DNA polymerase 3 reads in
a 3’ – 5’ direction and
synthesizes in a 5’-3’
direction.
key
Adenine
phosphate
Thymine
Sugar
Cytosine
RNA primer
Guanine
35. DNA polymerase 3 reads in
a 3’ – 5’ direction and
synthesizes in a 5’-3’
direction.
key
Adenine
phosphate
Thymine
Sugar
Cytosine
RNA primer
Guanine
36. DNA polymerase 3 reads in
a 3’ – 5’ direction and
synthesizes in a 5’-3’
direction.
key
Adenine
phosphate
Thymine
Sugar
Cytosine
RNA primer
Guanine
37. DNA polymerase 3 reads in
a 3’ – 5’ direction and
synthesizes in a 5’-3’
direction.
key
Adenine
phosphate
Thymine
Sugar
Cytosine
RNA primer
Guanine
38. DNA polymerase 3 reads in
a 3’ – 5’ direction and
synthesizes in a 5’-3’
direction.
key
Adenine
phosphate
Thymine
Sugar
Cytosine
RNA primer
Guanine
39. DNA polymerase 1 changes
RNA into DNA.
key
Adenine
phosphate
Thymine
Sugar
Cytosine
RNA primer
Guanine
40. Nucleotides once again
bond together to make a
new strand of DNA.
key
Adenine
phosphate
Thymine
Sugar
Cytosine
RNA primer
Guanine
41. Nucleotides once again
bond together to make a
new strand of DNA.
key
Adenine
phosphate
Thymine
Sugar
Cytosine
RNA primer
Guanine
42. Nucleotides once again
bond together to make a
new strand of DNA.
key
Adenine
phosphate
Thymine
Sugar
Cytosine
RNA primer
Guanine
43. Nucleotides once again
bond together to make a
new strand of DNA.
key
Adenine
phosphate
Thymine
Sugar
Cytosine
RNA primer
Guanine