2. DNA Replication is when there is
duplication of DNA during Cell
division.
Adenine
Thymine
Guanine
Cytosine
3. DNA Replication is when there is
duplication of DNA during Cell
division.
Adenine
Thymine
Guanine
Cytosine
4. DNA Replication is when there is
duplication of DNA during Cell
division.
Adenine
Thymine
Guanine
Cytosine
5. DNA Replication is when there is
duplication of DNA during Cell
division.
Adenine
Thymine
Guanine
Cytosine
6. The First Step in DNA
Replication is that the DNA
Helicase unwinds the doublestranded DNA in the origin of
replication when the breaking
of hydrogen bonds between
complementary strands.
Adenine
Thymine
Guanine
Cytosine
7. The First Step in DNA
Replication is that the DNA
Helicase unwinds the doublestranded DNA in the origin of
replication when the breaking
of hydrogen bonds between
complementary strands.
Adenine
Thymine
Guanine
Cytosine
8. The First Step in DNA
Replication is that the DNA
Helicase unwinds the doublestranded DNA in the origin of
replication when the breaking
of hydrogen bonds between
complementary strands.
Adenine
Thymine
Guanine
Cytosine
9. The First Step in DNA
Replication is that the DNA
Helicase unwinds the doublestranded DNA in the origin of
replication when the breaking
of hydrogen bonds between
complementary strands.
Adenine
Thymine
Guanine
Cytosine
10. The First Step in DNA
Replication is that the DNA
Helicase unwinds the doublestranded DNA in the origin of
replication when the breaking
of hydrogen bonds between
complementary strands.
Adenine
Thymine
Guanine
Cytosine
16. The leading strand, DNA
Polymerase III adds the 5’
phosphate end of a free
floating nucleotide to the
exposed 3’ OH ends on the
single stranded DNA in a
continuous fashion.
Adenine
Thymine
Guanine
Cytosine
17. The leading strand, DNA
Polymerase III adds the 5’
phosphate end of a free
floating nucleotide to the
exposed 3’ OH ends on the
single stranded DNA in a
continuous fashion.
Adenine
Thymine
Guanine
Cytosine
18. The leading strand, DNA
Polymerase III adds the 5’
phosphate end of a free
floating nucleotide to the
exposed 3’ OH ends on the
single stranded DNA in a
continuous fashion.
Adenine
Thymine
Guanine
Cytosine
19. The leading strand, DNA
Polymerase III adds the 5’
phosphate end of a free
floating nucleotide to the
exposed 3’ OH ends on the
single stranded DNA in a
continuous fashion.
Adenine
Thymine
Guanine
Cytosine
20. The leading strand, DNA
Polymerase III adds the 5’
phosphate end of a free
floating nucleotide to the
exposed 3’ OH ends on the
single stranded DNA in a
continuous fashion.
Adenine
Thymine
Guanine
Cytosine
21. The Lagging Strand, which
elongates away from the
replication fork, DNA
Polymerase III forms okazaki
fragments in a discontinuous
fashion with the help of other
enzymes
Okazaki Fragments
Adenine
Thymine
Guanine
Cytosine
22. The Lagging Strand, which
elongates away from the
replication fork, DNA
Polymerase III forms okazaki
fragments in a discontinuous
fashion with the help of other
enzymes
Okazaki Fragments
Adenine
Thymine
Guanine
Cytosine
23. The Lagging Strand, which
elongates away from the
replication fork, DNA
Polymerase III forms okazaki
fragments in a discontinuous
fashion with the help of other
enzymes
Okazaki Fragments
Adenine
Thymine
Guanine
Cytosine
24. The Lagging Strand, which
elongates away from the
replication fork, DNA
Polymerase III forms okazaki
fragments in a discontinuous
fashion with the help of other
enzymes
Okazaki Fragments
Adenine
Thymine
Guanine
Cytosine
25. The Lagging Strand, which
elongates away from the
replication fork, DNA
Polymerase III forms okazaki
fragments in a discontinuous
fashion with the help of other
enzymes
Okazaki Fragments
Adenine
Thymine
Guanine
Cytosine