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MIT 7 013 - Problem Set 8

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MIT Department of Biology 7.013: Introductory Biology - Spring 2004 Instructors: Professor Hazel Sive, Professor Tyler Jacks, Dr. Claudette Gardel 7.013 Problem Set 8 FRIDAY May 7th 2004 Problem 1 Exposure to mutagenic substances increases the risk of cancer. These substances can be found in some foods, dyes, cigarette smoke and industrial pollutants. You suspect that a this food additive, “Spicyo’s” that upsets your stomach may be causing cancer. In order to gather more data, you decide to examine the mutagenicity of “Spicyo’s”. One of the commonly used tests for mutagenicity is the Ames test, in which a bacterial strain (His-) cannot grow if there is no histidine in the medium. This bacterium cannot make its own histidine because the gene coding for a protein in the histidine biosynthesis pathway has a premature stop codon. If one were to mutate the stop codon back to the normal codon, the bacterium would now be able to make its own histidine and grow on medium lacking histidine. a) First, you plate His-bacteria on media with or without histidine. How many colonies would you expect on each plate? (none, very few, moderate, many) Medium with histidine __________ Medium without histidine __________ b) When you plate His- bacteria on medium without histidine, you occasionally see colonies come up with a low but constant frequency. You reason that these few colonies must have new mutations in their already mutant hisgene that reverted them back to wildtype (changed the premature stop codon to a normal codon). How does this happen? What may be the mechanism by which these bacteria get mutations so that they revert back to wildtype with a low constant frequency? c) Now to test the mutagenicity of Spicyo’s! You mix it with His- bacteria and plate on both kinds of plates. How many colonies would you expect on each plate if Spicyo’s is highly mutagenic? (none, very few, moderate, many) Medium with histidine __________ Medium without histidine __________Problem 2 You are a physician treating several patients with cancer. You would like to know which mutations caused the tumors in two patients A and B. You isolate tumor cells from these patients and grow the cells in culture. The tumor cell lines, A and B, divide rapidly in culture. You carry out cell fusion experiments in which you fuse each of the tumor cells with a normal cell and examine whether the fused cells behave like tumor cells. Experiment 1. 2. Normal cell Tumor cell B Normal cell phenotype Normal cell Tumor cell A Tumor cell phenotype a) Based on these experiments, indicate whether each tumor cell (A and B) has a mutation in a tumor-suppressor gene or a mutation in a proto-oncogene, and what kind of mutation (activating, inactivating, dominant and/or recessive) produced the mutant phenotype of the tumor cell? b) You would like to know if the tumors from two other patients C and D respond to radiation therapy. You irradiate the tumor cell growing in culture and observe whether the cells are killed by treatment. Tumor cells taken from patient C do not seem to be affected by the treatment, but the cells from patient D, like normal cells, stop dividing and then die by apoptosis (programmed cell death). Briefly explain how radiation treatment of cells inhibit cell growth and induces apoptosis.c) Based on the results from the radiation treatment, would you expect p53 to be functional in tumor cells from patients C and D? Explain you reasoning. Problem 3 Retinoblastoma is a tumor that forms in the eye and is caused by mutations in the Rb gene. Children that have inherited one defective copy of the gene from their parents develop tumors in both eyes, whereas other children who develop retinoblastoma but don’t inherit a defective copy only develop the tumor in one eye. a) What class of cancer causing gene is the Rbgene? b) Why do heterozygous children are much more likely to develop tumors in both eyes? c) Many other types of cancers also contain mutations in the Rbgene. Since you know this you decide to sequence the Rbgene from a panel of tumors. Interestingly you do not find any mutations in the Rbgene in these tumors. You then look at the Rb protein in cell from these tumors and find that it is fully phoshorylated in all phases of the cell cycle. Briefly explain why the constitutive phosphorylation of the Rb protein would lead to tumor formation?Problem 4 HIV is a retrovirus that infects TH cells of the immune system thereby causing AIDS. HIV genome is a single stranded RNA molecule. Two copies of this RNA genome are packaged with two molecules of the retroviral enzyme, reverse transcriptase within a protein capsid. This capsid is further packaged into an envelope derived from the plasma membrane of the host cell in which the virus was formed. The surface of the envelope is covered with an envelope glycoprotein called gp120. a) HIV specifically infects specifically the helper T cells of the immune system. If the virus must bind to a cell surface receptor on the T helper cells in order to gain entry into them, what protein on T helper would you predict serves as a receptor for the virus? b) Once infection takes place the RNA genome has to be made into double-stranded DNA. This process is mediated by reverse transcriptase. Once a double stranded DNA copy of the HIV genome is made, it is integrated into the host cell genome. What are the three steps required to produce double stranded DNA form the single strand RNA genome? c) The central dogma states that DNA RNA Protein Which one of these steps of the central dogma does the reverse transcriptase goes against? d) The drug that was most commonly used to combat AIDS was Azidothymidine (AZT). The structure of AZT is very similar to thymidine except that in AZT that in AZT the 3’ hydroxyl has been replaced by an azido (N3) group. Which process in the life cycle of HIV do you think AZT inhibits? e) AZT resistant forms of HIV have been isolated. These mutant viruses have mutations in one of the viral genes. In which viral gene do you think the mutations are most likely to be found?Problem 5 A schwannoma (a tumor of the scwhann cells in the nervous system) is surgically removed from a person with one germline mutation neurofibromatosis type 2 (NF2) gene (heterozygous for NF2gene). DNA is isolated from the tumor, cut with a restriction enzyme, and hybridized with a polymorphic DNA probe closely linked to the NF2 locus. The following Southern blot pattern is seen,


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MIT 7 013 - Problem Set 8

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