Essentials of Genetics (9th Edition) - Standalone book
9th Edition
ISBN: 9780134047799
Author: William S. Klug, Michael R. Cummings, Charlotte A. Spencer, Michael A. Palladino
Publisher: PEARSON
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Chapter 14, Problem 12PDQ
DNA damage brought on by a variety of natural and artificial agents elicits a wide variety of cellular responses. In addition to the activation of DNA repair mechanisms, there can be activation of pathways leading to apoptosis (programmed cell death) and cell-cycle arrest. Why would apoptosis and cell-cycle arrest often be part of a cellular response to DNA damage?
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A cell inherits a mutation in a gene that results in a transcription factor, called NF-kB, constantly being in its active conformation. When active, NF-kB stimulates the expression of cyclins that promote progression of the cell cycle, regardless of other conditions. As a result of this mutation, how would this cell's phenotype be affected by this mutation?
A) This cell would have a cancer phenotype
B) This cell would grow larger in size, but would never divide
C) This cell would likely undergo apoptosis
D) This cell would not duplicate its chromosomes
.
Why is p53 considered a tumor suppressor protein?
Question 12 options:
a)
Because p53 normally detects breaks in DNA.
b)
Because p53 normally causes progression from G1 to S phase to halt until damaged DNA is fully repaired.
c)
Because p53 normally repairs breaks in DNA.
d)
Because p53 normally stimulates transcription of Repair Polymerase.
e)
Because p53 normally reduces the mutation rate of DNA polymerase.
Tumor suppressor proteins can assist in slowing down the cell cycle under
appropriate conditions. In humans, the TP53 gene encodes a tumor suppressor called
p53. Most mutations in the TP53 gene result in a mutant form of p53 that can no
longer function to slow down the cell cycle, which can lead to a cell becoming
cancerous. However, some mutant forms of p53 actually possess the ability to
increase a cell's resistance to anticancer treatments. Which of the following BEST
describes the latter type of mutation?
loss-of-function mutation
gain-of-function mutation
suppressor mutation
reverse mutation
Chapter 14 Solutions
Essentials of Genetics (9th Edition) - Standalone book
Ch. 14 - CASE STUDY| Genetic dwarfism Seven months...Ch. 14 -
CASE STUDY | Genetic dwarfism
Seven months...Ch. 14 -
CASE STUDY| Genetic dwarfism
Seven months...Ch. 14 - CASE STUDY | Genetic dwarfism Seven months...Ch. 14 -
HOW DO WE KNOW?
1. In this chapter, we focused on...Ch. 14 - Review the Chapter Concepts list on page 257....Ch. 14 - What is a spontaneous mutation, and why are...Ch. 14 -
4. Why would a mutation in a somatic cell of a...Ch. 14 - Why is a random mutation more likely to be...Ch. 14 - Most mutations in a diploid organism are...
Ch. 14 - What is meant by a conditional mutation?Ch. 14 -
8. Describe a tautomeric shift and how it may...Ch. 14 - Contrast and compare the mutagenic effects of...Ch. 14 - Why are frameshift mutations likely to be more...Ch. 14 - Why are X rays more potent mutagens than UV...Ch. 14 -
12. DNA damage brought on by a variety of natural...Ch. 14 - Contrast the various types of DNA repair...Ch. 14 -
14. Mammography is an accurate screening...Ch. 14 - Describe how the Ames test screens for potential...Ch. 14 - What genetic defects result in the disorder...Ch. 14 - In a bacterial culture in which all cells are...Ch. 14 - Human equivalents of bacterial DNA mismatch repair...Ch. 14 - A number of different types of mutations in the...Ch. 14 -
20. Some mutations that lead to diseases such as...Ch. 14 - In maize, a Ds or Ac transposon can cause...Ch. 14 -
22. Presented here are hypothetical findings from...Ch. 14 -
23. Cystic fibrosis (CF) is a severe autosomal...Ch. 14 -
24. Electrophilic oxidants are known to create...Ch. 14 - Skin cancer carries a lifetime risk nearly equal...Ch. 14 -
26. The initial discovery of IS elements in...Ch. 14 -
27. It is estimated that about 0.2 percent of...Ch. 14 -
28. It has been noted that most transposons in...Ch. 14 - Two related forms of muscular dystrophy–Duchenne...
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- What separates cancer cells from normal cells? Describe one form of mutation that can increase the risk of a normal cell being cancerous.arrow_forwardThe p53 pathway is important for regulating the cell cycle. In a normal cell, there is a protein called mdm2 that can bind to p53 and deactivate it. A diseased individual has amutation in the gene that codes for mdm2, resulting in an mdm2 protein that is less able to bind to p53. Will this mutation increase, decrease, or cause no change in the rate of cell death? Explain.arrow_forwardD) The level of carbon dioxide increases with the level of available oxygen. 60) The TP53 gene provides instructions for making a protein called tumor protein p53. Known as the guardian of the genome, this protein acts as a tumor suppressor, which means that it regulates cell division by keeping cells from growing and dividing too fast or in an uncontrolled way. The p53 protein is located in the nucleus of cells throughout the body, where it attaches directly to DNA and plays a critical role in determining whether the DNA will be repaired or the damaged cell will self- destruct (undergo apoptosis). If the DNA can be repaired, p53 activates other genes to fix the damage. If the DNA cannot be repaired, this protein prevents the cell from dividing and signals it to undergo apoptosis. eg Suppose chromosomes in a skin cell are damaged by ultraviolet radiation. If the damaged genes do not affect p53, which choice correctly predict if the cell will become cancerous and why? No, the cell will…arrow_forward
- During cell division cycle, cells need to monitor the process of DNA replication and segregation of replicated DNA so that these processes are error-free. Some potential errors that could occur include incomplete DNA replication, DNA damage in genome, and uneven separation of replicated genome. These mechanisms that cells used to monitor these processes are referred as the "cell cycle checkpoint, which can control specific Cdk activity to regulate the progression of cell cycle. For the following checkpoint mechanisms, indicate which Cdk activity is attenuated? Also indicate one of the key proteins or protein complexes involved in the following checkpoints. a) DNA damage checkpoint during S-phase b) Mitotic checkpoint during M-phasearrow_forwardCellular levels of tumor suppressor protein p53 is maintained by a ubiquitin ligase protein, called Mdm2. Over expression of Mdm2 destabilizes p53. Another protein p19ARF inhibits the activity of Mdm2, thus stabilizing p53. Loss of p19ARF function converts normal cells into cancer cells With the above information, which of the following statements are true? Mdm2 is a tumor suppressor gene but p19ARF is an oncogene Both Mdm2 & P19ARF are oncogenes Both Mdm2 & P19ARF are tumor suppressor genes O Mdm2 is an oncogene but p19ARF is a tumor suppressor genearrow_forwardWhat is a possible outcome of the addition of a transcription factor such as Myod to the nucleus of a cell? Assume that there are no other factors to either activate or prevent the response of the cell. Group of answer choices A) Production of mRNA from genes that were previously not expresed B)adding methyl groups to DNA C)prevention of protein synthesis D)uncoiling of the chromatin to allow transcriptionarrow_forward
- One important biological effect of a large dose of ionizing radiation is to halt cell division. What might be the effects of such a mutation if the cell is not irradiated?arrow_forwardD) The level of carbon dioxide increases with the level of available oxygen. 60) The TPS3 gene provides instructions for making a protein called tumor protein p53. Known as the guardlan of the genome, this protein acts as a tumor suppressor, which means that it regulates cell division by keeping cells from growing and dividing t0o fast or in an uncontrolled way. The p53 protein is located in the nucleus of cells throughout the body, where it attaches directly to DNA and plays a critical role in determining whether the DNA will be repaired or the damaged cell will self- destruct (undergo apoptosis). If the DNA can be repaired, p53 activates other genes to fix the damage. If the DNA cannot be repaired, this protein prevents the cell from dividing and signals it to undergo apoptosis. Suppose chromosomes in a skin cell are damaged by ultraviolet radiation. If the damaged genes do not affect p53, which choice correctly predict if the cell will become cancerous and why? No, the cell will not…arrow_forwardIdentify and list the functions of the three general classes of proteins that control cell death.arrow_forward
- Human cells are highly resistant to transformation. Experiments have shown that 5 regulatory circuits (pathways) have to be altered before human cells can grow as tumor cells in immunocompromised mice. State each of these circuits. Explain how the alteration of the protein of that particular circuit leads to uncontrolled growth. the mitogenic signaling pathway controlled by Ras. the cell cycle checkpoint controlled by pRb. the alarm pathway controlled by p53. the telomere maintenance pathway controlled by hTERT. the signaling pathways are controlled by protein phosphatase 2A, which modulates the activity of the mTOR, Myc, β-catenin, and PKB/ Akt signaling proteins.arrow_forwardOverexpression of the Myc protein is a common feature of many types of cancer cells, contributing to their excessive cell growth and proliferation. By contrast, when Myc is overexpressed in most normal cells, the result is not excessive proliferation, but cell-cycle arrest or apoptosis.Which one of the following statements provides the most likely explanation for why overexpression of Myc can have such different outcomes in normal cells and in cancer cells? A. Normal cells contain checks and balances that prevent Myc-induced proliferation. B. In normal cells, Myc protein acts as a mediator in cell-cycle arrest and apoptosis. C. The target protein for Myc-induced proliferation is missing from most normal cells. D. In normal cells, when Myc is overexpressed, the excess Myc protein precipitates.arrow_forwardThe retinoblastoma protein (RB) suppresses human cell division by arresting cells in the G₁ phase of the cell cycle and preventing progression to the next phase. It accomplishes this task by binding to another protein, E2F, a transcription factor needed for further progression through the cell cycle. Normal progression through the cell cycle is accomplished when cyclin-dependent kinases (CDKs) phosphorylate RB, preventing its binding to E2F. Many viruses can induce abnormal exit from G, using viral proteins that bind to RB at a motif at the N-terminal called LXCXE. An example is the E7 papilloma protein, which causes the excessive proliferation of cells in warts. The site at which LXCXE proteins bind is called the pocket domain and is highly conserved on RB and related proteins in plants and animals. The configuration of the pocket domain is well established. Mutant experimental RB proteins are available with alterations in the conserved amino acids of the pocket domain. A simple…arrow_forward
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