Cknox dna model

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Cknox dna model

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

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