animation dna
TRANSCRIPT
Legend: Adenine Thymine
Cytosine GuanineStrand 1
Strand 2
DNA StrandHelicase
The Helicase comes in and unravels and splits the DNA.
The Helicase comes in and unravels and splits the DNA.
The Helicase comes in and unravels and splits the DNA.
The Helicase comes in and unravels and splits the DNA.
The Helicase comes in and unravels and splits the DNA.
The Helicase comes in and unravels and splits the DNA.
The Helicase comes in and unravels and splits the DNA.
The Helicase comes in and unravels and splits the DNA.
The Helicase comes in and unravels and splits the DNA.
The Helicase comes in and unravels and splits the DNA.
The Helicase comes in and unravels and splits the DNA.
The Helicase comes in and unravels and splits the DNA.
The Helicase comes in and unravels and splits the DNA.
The Helicase comes in and unravels and splits the DNA.
The Helicase comes in and unravels and splits the DNA.
The Helicase comes in and unravels and splits the DNA.
The Helicase comes in and unravels and splits the DNA.
The Helicase comes in and unravels and splits the DNA.
The Helicase comes in and unravels and splits the DNA.
The Helicase comes in and unravels and splits the DNA.
The Helicase comes in and unravels and splits the DNA.
The Helicase comes in and unravels and splits the DNA.
DNA polymerase comes in and gives the first strand matching pairs of bases.
DNA polymerase comes in and gives the first strand matching pairs of bases.
DNA polymerase comes in and gives the first strand matching pairs of bases.
DNA polymerase comes in and gives the first strand matching pairs of bases.
DNA polymerase comes in and gives the first strand matching pairs of bases.
DNA polymerase comes in and gives the first strand matching pairs of bases.
DNA polymerase comes in and gives the first strand matching pairs of bases.
DNA polymerase comes in and gives the first strand matching pairs of bases.
DNA polymerase comes in and gives the first strand matching pairs of bases.
DNA polymerase comes in and gives the first strand matching pairs of bases.
DNA polymerase comes in and gives the first strand matching pairs of bases.
DNA polymerase comes in and gives the first strand matching pairs of bases.
DNA polymerase comes in and gives the first strand matching pairs of bases.
DNA polymerase comes in and gives the first strand matching pairs of bases.
An RNA primer starts the right strand and Okazaki fragments can then match up with the bases.
An RNA primer starts the right strand and Okazaki fragments can then match up with the bases.
An RNA primer starts the right strand and Okazaki fragments can then match up with the bases.
An RNA primer starts the right strand and Okazaki fragments can then match up with the bases.
An RNA primer starts the right strand and Okazaki fragments can then match up with the bases.
An RNA primer starts the right strand and Okazaki fragments can then match up with the bases.
An RNA primer starts the right strand and Okazaki fragments can then match up with the bases.
An RNA primer starts the right strand and Okazaki fragments can then match up with the bases.
An RNA primer starts the right strand and Okazaki fragments can then match up with the bases.
An RNA primer starts the right strand and Okazaki fragments can then match up with the bases.
An RNA primer starts the right strand and Okazaki fragments can then match up with the bases.
An RNA primer starts the right strand and Okazaki fragments can then match up with the bases.
An RNA primer starts the right strand and Okazaki fragments can then match up with the bases.
An RNA primer starts the right strand and Okazaki fragments can then match up with the bases.
An RNA primer starts the right strand and Okazaki fragments can then match up with the bases.
An RNA primer starts the right strand and Okazaki fragments can then match up with the bases.
An RNA primer starts the right strand and Okazaki fragments can then match up with the bases.
An RNA primer starts the right strand and Okazaki fragments can then match up with the bases.
An RNA primer starts the right strand and Okazaki fragments can then match up with the bases.
An RNA primer starts the right strand and Okazaki fragments can then match up with the bases.
An RNA primer starts the right strand and Okazaki fragments can then match up with the bases.
An RNA primer starts the right strand and Okazaki fragments can then match up with the bases.
An RNA primer starts the right strand and Okazaki fragments can then match up with the bases.
An RNA primer starts the right strand and Okazaki fragments can then match up with the bases.
An RNA primer starts the right strand and Okazaki fragments can then match up with the bases.
• 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.