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Section 2: Replication of DNA

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1 Section 2: Replication of DNA
Preview Bellringer Key Ideas DNA Replication Replication Proteins Prokaryotic and Eukaryotic Replication Summary

2 Bellringer DNA is considered to be a relatively stable molecule. What gives it this stability, even though the hydrogen bonds between the nitrogen bases are easily broken? Hint: Look at Figure 4 in your book. Write out your answer, then share and compare your ideas with other students.

3 Key Ideas How does DNA replicate, or make a copy of itself?
What are the roles of proteins in DNA replication? How is DNA replication different in prokaryotes and eukaryotes?

4 DNA Replication Because DNA is made of two strands of complementary base pairs, if the strands are separated then each strand can serve as a pattern to make a new complementary strand. The process of making a copy of DNA is called DNA replication. In DNA replication, the DNA molecule unwinds, and the two sides split. Then, new bases are added to each side until two identical sequences result.

5 DNA Replication, continued
As the double helix unwinds, the two complementary strands of DNA separate from each other and form Y shapes. These Y-shaped areas are called replication forks. At the replication fork, new nucleotides are added to each side and new base pairs are formed according to the base-pairing rules. Each double-stranded DNA helix is made of one new strand of DNA and one original strand of DNA.

6 DNA Replication Click to animate the image.

7 Replication Proteins The replication of DNA involves many proteins that form a machinelike complex of moving parts. Each protein has a specific function. Proteins called DNA helicases unwind the DNA double helix during DNA replication. These proteins wedge themselves between the two strands of the double helix and break the hydrogen bonds between the base pairs. Proteins called DNA polymerases catalyze the formation of the DNA molecule by moving along each strand and adding nucleotides that pair with each base.

8 Replication Proteins, continued
DNA polymerases also have a “proofreading” function. During DNA replication, errors sometime occur and the wrong nucleotide is added to the new strand. If a mismatch occurs, the DNA polymerase can backtrack, remove the incorrect nucleotide, and replace it with the correct one.

9 Visual Concept: DNA Replication
Click above to play the video.

10 Prokaryotic and Eukaryotic Replication
All cells have chromosomes, but eukaryotes and prokaryotes replicate their chromosomes differently. In prokaryotic cells, replication starts at a single site. In eukaryotic cells, replication starts at many sites along the chromosome. Prokaryotic cells usually have a single chromosome which is a closed loop attached to the inner cell membrane. Replication in prokaryotes begins at one place along the loop. This site is called the origin of replication.

11 Prokaryotic and Eukaryotic Replication, continued
Two replication forks begin at the origin of replication in prokaryotes. Replication occurs in opposite directions until the forks meet on the opposite side of the loop. Eukaryotic cells often have several chromosomes which are linear and contain both DNA and protein. Replication starts at many sites along the chromosome. This process allows eukaryotic cells to replicate their DNA faster than prokaryotes.

12 Prokaryotic and Eukaryotic Replication, continued
Two distinct replication forks form at each start site, and replication occurs in opposite directions. This process forms replication “bubbles” along the DNA molecule. Replication bubbles continue to get larger as more of the DNA is copied.

13 Prokaryotic and Eukaryotic Replication
Click to animate the image. A C E B G F D

14 Prokaryotic and Eukaryotic Replication, continued

15 Prokaryotic and Eukaryotic Replication, continued
The smallest eukaryotic chromosomes are often 10 times the size of a prokaryotic chromosome. Eukaryotic chromosomes are so long that it would take 33 days to replicate a typical human chromosome if there were only one origin of replication. Human chromosomes are replicated in about 100 sections that are 100,000 nucleotides long, each section with its own starting point. Because eukaryotic cells have multiple replication forks working at the same time, an entire human chromosome can be replicated in about 8 hours.

16 Summary In DNA replication, the DNA molecule unwinds, and the two sides split. Then, new bases are added to each side until two identical sequences result. The replication of DNA involves many proteins that form a machinelike complex of moving parts. In prokaryotic cells, replication starts at a single site. In eukaryotic cells, replication starts at many sites along the chromosome.

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