2. In DNA replication the lagging strand and
the leading strand start to separate this is
because of the DNA helicase.
Cytosine
Glycine
Adenine
Thymine
DNA
Helicase
3. In DNA replication the lagging strand and
the leading strand start to separate this is
because of the DNA helicase.
Cytosine
Glycine
Adenine
Thymine
DNA
Helicase
4. In DNA replication the lagging strand and
the leading strand start to separate this is
because of the DNA helicase.
Cytosine
Glycine
Adenine
Thymine
DNA
Helicase
5. In DNA replication the lagging strand and
the leading strand start to separate this is
because of the DNA helicase.
Cytosine
Glycine
Adenine
Thymine
DNA
Helicase
6. In DNA replication the lagging strand and
the leading strand start to separate this is
because of the DNA helicase.
Cytosine
Glycine
Adenine
Thymine
DNA
Helicase
7. In DNA replication the lagging strand and
the leading strand start to separate this is
because of the DNA helicase.
Cytosine
Glycine
Adenine
Thymine
DNA
Helicase
8. In DNA replication the lagging strand and
the leading strand start to separate this is
because of the DNA helicase.
Cytosine
Glycine
Adenine
Thymine
DNA
Helicase
9. In DNA replication the lagging strand and
the leading strand start to separate this is
because of the DNA helicase.
Cytosine
Glycine
Adenine
Thymine
DNA
Helicase
10. In DNA replication the lagging strand and
the leading strand start to separate this is
because of the DNA helicase.
Cytosine
Glycine
Adenine
Thymine
DNA
Helicase
11. In DNA replication the lagging strand and
the leading strand start to separate this is
because of the DNA helicase.
Cytosine
Glycine
Adenine
Thymine
DNA
Helicase
12. In DNA replication the lagging strand and
the leading strand start to separate this is
because of the DNA helicase.
Cytosine
Glycine
Adenine
Thymine
DNA
Helicase
13. In DNA replication the lagging strand and
the leading strand start to separate this is
because of the DNA helicase.
Cytosine
Glycine
Adenine
Thymine
DNA
Helicase
14. In DNA replication the lagging strand and
the leading strand start to separate this is
because of the DNA helicase.
Cytosine
Glycine
Adenine
Thymine
DNA
Helicase
15. In DNA replication the lagging strand and
the leading strand start to separate this is
because of the DNA helicase.
Cytosine
Glycine
Adenine
Thymine
DNA
Helicase
16. In DNA replication the lagging strand and
the leading strand start to separate this is
because of the DNA helicase.
Cytosine
Glycine
Adenine
Thymine
DNA
Helicase
17. In DNA replication the lagging strand and
the leading strand start to separate this is
because of the DNA helicase.
Cytosine
Glycine
Adenine
Thymine
DNA
Helicase
18. In DNA replication the lagging strand and
the leading strand start to separate this is
because of the DNA helicase.
Cytosine
Glycine
Adenine
Thymine
DNA
Helicase
19. In DNA replication the lagging strand and
the leading strand start to separate this is
because of the DNA helicase.
Cytosine
Glycine
Adenine
Thymine
DNA
Helicase
20. In DNA replication the lagging strand and
the leading strand start to separate this is
because of the DNA helicase.
Cytosine
Glycine
Adenine
Thymine
DNA
Helicase
21. After the DNA helicase has split apart the
lagging strand and the leading strand.
Another strand of DNA identical to that
one forms and the same with the lagging
strand. They both form other sides and
that doubles the DNA.
Cytosine
Glycine
Adenine
Thymine
DNA
Helicase
22. After the DNA helicase has split apart the
lagging strand and the leading strand.
Another strand of DNA identical to that
one forms and the same with the lagging
strand. They both form other sides and
that doubles the DNA.
Cytosine
Glycine
Adenine
Thymine
DNA
Helicase
23. After the DNA helicase has split apart the
lagging strand and the leading strand.
Another strand of DNA identical to that
one forms and the same with the lagging
strand. They both form other sides and
that doubles the DNA.
Cytosine
Glycine
Adenine
Thymine
DNA
Helicase
24. After the DNA helicase has split apart the
lagging strand and the leading strand.
Another strand of DNA identical to that
one forms and the same with the lagging
strand. They both form other sides and
that doubles the DNA.
Cytosine
Glycine
Adenine
Thymine
DNA
Helicase
25. After the DNA helicase has split apart the
lagging strand and the leading strand.
Another strand of DNA identical to that
one forms and the same with the lagging
strand. They both form other sides and
that doubles the DNA.
Cytosine
Glycine
Adenine
Thymine
DNA
Helicase
26. After the DNA helicase has split apart the
lagging strand and the leading strand.
Another strand of DNA identical to that
one forms and the same with the lagging
strand. They both form other sides and
that doubles the DNA.
Cytosine
Glycine
Adenine
Thymine
DNA
Helicase
27. After the DNA helicase has split apart the
lagging strand and the leading strand.
Another strand of DNA identical to that
one forms and the same with the lagging
strand. They both form other sides and
that doubles the DNA.
Cytosine
Glycine
Adenine
Thymine
DNA
Helicase
28. After the DNA helicase has split apart the
lagging strand and the leading strand.
Another strand of DNA identical to that
one forms and the same with the lagging
strand. They both form other sides and
that doubles the DNA.
Cytosine
Glycine
Adenine
Thymine
DNA
Helicase
29. After the DNA helicase has split apart the
lagging strand and the leading strand.
Another strand of DNA identical to that
one forms and the same with the lagging
strand. They both form other sides and
that doubles the DNA.
Cytosine
Glycine
Adenine
Thymine
DNA
Helicase
30. After the DNA helicase has split apart the
lagging strand and the leading strand.
Another strand of DNA identical to that
one forms and the same with the lagging
strand. They both form other sides and
that doubles the DNA.
Cytosine
Glycine
Adenine
Thymine
DNA
Helicase
31. After the DNA helicase has split apart the
lagging strand and the leading strand.
Another strand of DNA identical to that
one forms and the same with the lagging
strand. They both form other sides and
that doubles the DNA.
Cytosine
Glycine
Adenine
Thymine
DNA
Helicase
32. After the DNA helicase has split apart the
lagging strand and the leading strand.
Another strand of DNA identical to that
one forms and the same with the lagging
strand. They both form other sides and
that doubles the DNA.
Cytosine
Glycine
Adenine
Thymine
DNA
Helicase
33. After the DNA helicase has split apart the
lagging strand and the leading strand.
Another strand of DNA identical to that
one forms and the same with the lagging
strand. They both form other sides and
that doubles the DNA.
Cytosine
Glycine
Adenine
Thymine
DNA
Helicase
34. After the DNA helicase has split apart the
lagging strand and the leading strand.
Another strand of DNA identical to that
one forms and the same with the lagging
strand. They both form other sides and
that doubles the DNA.
Cytosine
Glycine
Adenine
Thymine
DNA
Helicase
35. After the DNA helicase has split apart the
lagging strand and the leading strand.
Another strand of DNA identical to that
one forms and the same with the lagging
strand. They both form other sides and
that doubles the DNA.
Cytosine
Glycine
Adenine
Thymine
DNA
Helicase
36. After the DNA helicase has split apart the
lagging strand and the leading strand.
Another strand of DNA identical to that
one forms and the same with the lagging
strand. They both form other sides and
that doubles the DNA.
Cytosine
Glycine
Adenine
Thymine
DNA
Helicase
37. After the DNA helicase has split apart the
lagging strand and the leading strand.
Another strand of DNA identical to that
one forms and the same with the lagging
strand. They both form other sides and
that doubles the DNA.
Cytosine
Glycine
Adenine
Thymine
DNA
Helicase
38. After the DNA helicase has split apart the
lagging strand and the leading strand.
Another strand of DNA identical to that
one forms and the same with the lagging
strand. They both form other sides and
that doubles the DNA.
Cytosine
Glycine
Adenine
Thymine
DNA
Helicase
39. After the DNA helicase has split apart the
lagging strand and the leading strand.
Another strand of DNA identical to that
one forms and the same with the lagging
strand. They both form other sides and
that doubles the DNA.
Cytosine
Glycine
Adenine
Thymine
DNA
Helicase
40. After the DNA helicase has split apart the
lagging strand and the leading strand.
Another strand of DNA identical to that
one forms and the same with the lagging
strand. They both form other sides and
that doubles the DNA.
Cytosine
Glycine
Adenine
Thymine
DNA
Helicase