Lecture 22: Review of DNA replication
(Old Lecture 21)

1. Describe an experiment that was used to verify semiconservative replication of DNA.

2. DNA synthesis is a complex process:

A. How are new nucleotides added to a growing strand of DNA?

B. What special problems does the pattern of growth described in part A) present for the replication of double stranded DNA?

C. How are the problems that you identified in part B solved during DNA replication?

D. How is the synthesis of a new strand of DNA primed and what is the nature of the primer?

E. How is the primer ultimately removed?

3. Identify the enzymes and other proteins that are needed for DNA synthesis and describe the temporal sequence in which they function.

4. What features characterize origins of replication in bacterial cells and how are they recognized by the replication machinery.

4. What role does helicase play in the replication of DNA. What problems would be encountered in its absence?

5. Distinguish between leading strand and lagging strand in a manner that makes it clear you know what each is and how they differ.

6. What is an Okazaki fragment and what is its biological significance?

7. Which of the bacterial DNA polymerases is believed to be responsible for the bulk of the DNA synthetic activity?

8. What enzyme is responsible for removal of the primer and what catalytic activities are needed for the removal?

9. Why does DNA polymerase I carry the number one when it is not the enzyme that performs the bulk of the DNA synthesis?

10. What type of enzymatic activity is needed for proofreading and error correction?

11. What is a replicon and what is its significance?

12. What is telomerase and what is its primary function.

13. Why is telomerase needed for linear chromosomes, but not for circular chromosomes?

14. Identify the protein or enzymne that is needed for each of the following functions:

A. Final separation of the completely replicated bacterial chromosomes.

B. Closing of the gap left after removal of the last nucleotide of the primer and its replacement with a deoxynucleotide.

C. Recognition of the origin of replication.

D. The initial opening of the DNA double helix at the origin.

E. Relief from the twisting strain that develops in the double-stranded DNA as the strands are separated.

15. Speculate on why there might be a separate DNA polymerase for the synthesis of mitochondrial DNA. Your answer will be judged on the basis of what I think you should know about this topic from various times during the semester.

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