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Legend: Adenine Thymine Cytosine Guanine Strand 1 Strand 2 DNA Strand Helicase

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Page 1: Animation dna

Legend: Adenine Thymine

Cytosine GuanineStrand 1

Strand 2

DNA StrandHelicase

Page 2: Animation dna

The Helicase comes in and unravels and splits the DNA.

Page 3: Animation dna

The Helicase comes in and unravels and splits the DNA.

Page 4: Animation dna

The Helicase comes in and unravels and splits the DNA.

Page 5: Animation dna

The Helicase comes in and unravels and splits the DNA.

Page 6: Animation dna

The Helicase comes in and unravels and splits the DNA.

Page 7: Animation dna

The Helicase comes in and unravels and splits the DNA.

Page 8: Animation dna

The Helicase comes in and unravels and splits the DNA.

Page 9: Animation dna

The Helicase comes in and unravels and splits the DNA.

Page 10: Animation dna

The Helicase comes in and unravels and splits the DNA.

Page 11: Animation dna

The Helicase comes in and unravels and splits the DNA.

Page 12: Animation dna

The Helicase comes in and unravels and splits the DNA.

Page 13: Animation dna

The Helicase comes in and unravels and splits the DNA.

Page 14: Animation dna

The Helicase comes in and unravels and splits the DNA.

Page 15: Animation dna

The Helicase comes in and unravels and splits the DNA.

Page 16: Animation dna

The Helicase comes in and unravels and splits the DNA.

Page 17: Animation dna

The Helicase comes in and unravels and splits the DNA.

Page 18: Animation dna

The Helicase comes in and unravels and splits the DNA.

Page 19: Animation dna

The Helicase comes in and unravels and splits the DNA.

Page 20: Animation dna

The Helicase comes in and unravels and splits the DNA.

Page 21: Animation dna

The Helicase comes in and unravels and splits the DNA.

Page 22: Animation dna

The Helicase comes in and unravels and splits the DNA.

Page 23: Animation dna

The Helicase comes in and unravels and splits the DNA.

Page 24: Animation dna

Page 25: Animation dna

Page 26: Animation dna

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Page 29: Animation dna

DNA polymerase comes in and gives the first strand matching pairs of bases.

Page 30: Animation dna

DNA polymerase comes in and gives the first strand matching pairs of bases.

Page 31: Animation dna

DNA polymerase comes in and gives the first strand matching pairs of bases.

Page 32: Animation dna

DNA polymerase comes in and gives the first strand matching pairs of bases.

Page 33: Animation dna

DNA polymerase comes in and gives the first strand matching pairs of bases.

Page 34: Animation dna

DNA polymerase comes in and gives the first strand matching pairs of bases.

Page 35: Animation dna

DNA polymerase comes in and gives the first strand matching pairs of bases.

Page 36: Animation dna

DNA polymerase comes in and gives the first strand matching pairs of bases.

Page 37: Animation dna

DNA polymerase comes in and gives the first strand matching pairs of bases.

Page 38: Animation dna

DNA polymerase comes in and gives the first strand matching pairs of bases.

Page 39: Animation dna

DNA polymerase comes in and gives the first strand matching pairs of bases.

Page 40: Animation dna

DNA polymerase comes in and gives the first strand matching pairs of bases.

Page 41: Animation dna

DNA polymerase comes in and gives the first strand matching pairs of bases.

Page 42: Animation dna

DNA polymerase comes in and gives the first strand matching pairs of bases.

Page 43: Animation dna

Page 44: Animation dna

Page 45: Animation dna

Page 46: Animation dna

An RNA primer starts the right strand and Okazaki fragments can then match up with the bases.

Page 47: Animation dna

An RNA primer starts the right strand and Okazaki fragments can then match up with the bases.

Page 48: Animation dna

An RNA primer starts the right strand and Okazaki fragments can then match up with the bases.

Page 49: Animation dna

An RNA primer starts the right strand and Okazaki fragments can then match up with the bases.

Page 50: Animation dna

An RNA primer starts the right strand and Okazaki fragments can then match up with the bases.

Page 51: Animation dna

An RNA primer starts the right strand and Okazaki fragments can then match up with the bases.

Page 52: Animation dna

An RNA primer starts the right strand and Okazaki fragments can then match up with the bases.

Page 53: Animation dna

An RNA primer starts the right strand and Okazaki fragments can then match up with the bases.

Page 54: Animation dna

An RNA primer starts the right strand and Okazaki fragments can then match up with the bases.

Page 55: Animation dna

An RNA primer starts the right strand and Okazaki fragments can then match up with the bases.

Page 56: Animation dna

An RNA primer starts the right strand and Okazaki fragments can then match up with the bases.

Page 57: Animation dna

An RNA primer starts the right strand and Okazaki fragments can then match up with the bases.

Page 58: Animation dna

An RNA primer starts the right strand and Okazaki fragments can then match up with the bases.

Page 59: Animation dna

An RNA primer starts the right strand and Okazaki fragments can then match up with the bases.

Page 60: Animation dna

An RNA primer starts the right strand and Okazaki fragments can then match up with the bases.

Page 61: Animation dna

An RNA primer starts the right strand and Okazaki fragments can then match up with the bases.

Page 62: Animation dna

An RNA primer starts the right strand and Okazaki fragments can then match up with the bases.

Page 63: Animation dna

An RNA primer starts the right strand and Okazaki fragments can then match up with the bases.

Page 64: Animation dna

An RNA primer starts the right strand and Okazaki fragments can then match up with the bases.

Page 65: Animation dna

An RNA primer starts the right strand and Okazaki fragments can then match up with the bases.

Page 66: Animation dna

An RNA primer starts the right strand and Okazaki fragments can then match up with the bases.

Page 67: Animation dna

An RNA primer starts the right strand and Okazaki fragments can then match up with the bases.

Page 68: Animation dna

An RNA primer starts the right strand and Okazaki fragments can then match up with the bases.

Page 69: Animation dna

An RNA primer starts the right strand and Okazaki fragments can then match up with the bases.

Page 70: Animation dna

An RNA primer starts the right strand and Okazaki fragments can then match up with the bases.

Page 71: Animation dna

Page 72: Animation dna

• Telomeres- A compound structure at the end of a chromosome.• Okazaki fragments- a section of complementary strand• DNA ligase-It plays a role in repairing single-strand breaks in

duplex DNA in living organisms• Telomerase- an enzyme that adds telomere repeat sequences to

the 3' end of DNA strands• Cancer- The disease caused by an uncontrolled division of

abnormal cells in a part of the body• Transplanted cells-a procedure that replaces unhealthy stem cells

with healthy ones.• Cloning-a procedure for producing multiple copies of genetically

identical organisms or cells or of individual genes. • Aging-a consequence of unrepaired accumulation of naturally

occurring DNA damages.• DNA replication happens in the synthesis stage, or the third

stage.

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