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Deck 16: The Genetics of Cancer
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Deck 16: The Genetics of Cancer
1
Chronic myelogenous leukemia appears to be associated with a chromosomal
rearrangement. Which chromosome(s) is(are) involved, and what is the name of the rearrangement?
rearrangement. Which chromosome(s) is(are) involved, and what is the name of the rearrangement?
Chromosomes 9 and 22 are involved in a translocation. This combination of chromosomal material is referred to as the Philadelphia chromosome.
2
Name two classes of proteins that combine to directly control progression through the cell cycle.
protein kinases, cyclins
3
What is the significance of CDK?
CDK symbolizes a class of protein kinases, which, when activated, selectively phosphorylate target proteins. Many of these phosphorylated proteins are involved in cell -cycle control.
4
Which three stages or transitions in the cell cycle seem to serve as points of control (checkpoints)?
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5
Describe two classes of proteins known to be involved in the regulation of the cell cycle.
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6
Which of the following three general mechanisms appear to be involved in the conversion of proto -oncogenes to oncogenes?
A) suppression, tabulation, projection
B) point mutations, translocations, overexpression
C) familial, sporadic, phosphorylation
D) inversions, translocations, methylation
E) transdetermination, mutation, allosteric interactions
A) suppression, tabulation, projection
B) point mutations, translocations, overexpression
C) familial, sporadic, phosphorylation
D) inversions, translocations, methylation
E) transdetermination, mutation, allosteric interactions
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7
A protein that functions as a cell -cycle regulator causes cell death (apoptosis) under high sunlight exposure. Which symbol given to this protein?
A) p53
B) phosphokinase
C) cyclin
D) p102
E) p34
A) p53
B) phosphokinase
C) cyclin
D) p102
E) p34
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8
Which protein appears to regulate the entry of cells into an S phase? This protein is also known as the "guardian of the genome."
A) cyclin
B) p53
C) p34
D) p102
E) phosphokinase
A) cyclin
B) p53
C) p34
D) p102
E) phosphokinase
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9
The retinoblastoma protein (pRB), like p53, serves as a(n) ________ in regulating the cell cycle.
A) up regulator
B) pseudooncogene
C) tumor enhancer
D) oncogene
E) tumor suppressor
A) up regulator
B) pseudooncogene
C) tumor enhancer
D) oncogene
E) tumor suppressor
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10
In sporadic cases of retinoblastoma, how many gene mutations are thought to be necessary in the same cell for a tumor to develop?
A) one
B) two
C) four
D) six
E) insufficient information to answer this question
A) one
B) two
C) four
D) six
E) insufficient information to answer this question
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11
Describe the general relationship that may exist between mutations and cancer.
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12
What functional differences exist between various cyclins?
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13
Driver mutations provide a growth advantage to a tumor cell. Which type of mutation is known to accumulate in cancer cells but has no direct contribution to the cancer phenotype?
A) carrier mutations
B) passenger mutations
C) alteration mutations
D) indirect mutations
E) induced mutations
A) carrier mutations
B) passenger mutations
C) alteration mutations
D) indirect mutations
E) induced mutations
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14
Why do cancer researchers study molecular events associated with mitosis?
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15
Mutant versions of genes that are normally involved in promoting the cell cycle are known as ________.
A) attenuators
B) proto -oncogenes
C) oncogenes
D) tumor suppressors
E) malignant genes
A) attenuators
B) proto -oncogenes
C) oncogenes
D) tumor suppressors
E) malignant genes
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16
Define cancer at the anatomical level.
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17
Describe the major cellular and molecular events that mark the entry of mitosis from G2.
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18
Chronic myelogenous leukemia appears to be associated with a chromosomal
rearrangement. How would a chromosomal rearrangement be responsible for this disease?
rearrangement. How would a chromosomal rearrangement be responsible for this disease?
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19
Define cancer at the genetic level.
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20
Which protein combines with cyclins to exert local control of the cell cycle?
A) cyclin -dependent kinase
B) phosphatase
C) hexokinase
D) integrase
E) ATPase
A) cyclin -dependent kinase
B) phosphatase
C) hexokinase
D) integrase
E) ATPase
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21
In what way can loss of heterozygosity lead to cancer?
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22
What is retinoblastoma, and what is its supposed genetic basis?
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23
Provide a simple definition of a carcinogen.
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24
Name three human cancers with a genetic predisposition. What appears to be the genetic cause of each?
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25
The familial form of retinoblastoma is characterized by cancer appearing in both eyes relatively early in life. In contrast, the sporadic form is usually unilateral and appears later. What accounts for the difference?
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26
List three general categories of genetic changes that lead to the formation of oncogenes.
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27
Describe three genetic mechanisms whereby proto -oncogenes can become overexpressed.
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28
As more is learned about cancer, it has become clear that cancer, with few exceptions, has no genetic basis.
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29
Differentiate among the following types of genes: tumor -suppressor gene, proto -oncogene, and oncogene.
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30
List at least three environmental agents or factors that are known to cause cancer.
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31
Describe the cellular and molecular function of the ras gene family and the consequences of mutations in ras.
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32
In what way might a virus contribute to cancer formation?
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33
The genetic difference between familial retinoblastoma and sporadic retinoblastoma
appears to be based on those with the familial form starting out being whereas those with the sporadic form start out being _.
________,
appears to be based on those with the familial form starting out being whereas those with the sporadic form start out being _.
________,
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34
If someone has a predisposition to cancer, what genetic circumstance likely exists?
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35
What is the name of a normal gene that serves to promote cellular division?
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36
Much has been written about p53 in terms of cancer biology. What is p53, and what is its significance?
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37
Describe the molecular nature of mutation, as related to cancer, in a ras gene.
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38
(a) What is a tumor -suppressor gene?
a() What are oncogenes?
b() What is the normal (nonmutant) cellular version of an oncogene called?
a() What are oncogenes?
b() What is the normal (nonmutant) cellular version of an oncogene called?
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39
The genome of humans is remarkably stable, so much so that there are no cancers known to result from genomic instability.
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40
What two properties do various types of cancer cells share?
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41
There are several checkpoints in the mitotic cell cycle. All occur in the S phase.
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42
A tumor -suppressor gene normally functions to suppress cell division.
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43
The gene p53 is called the "guardian of the genome" because it corrects mutations in the spindle apparatus before nondisjunction can occur.
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44
A retrovirus uses reverse transcriptase to make a DNA copy of RNA.
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45
True or False: There are two types of retinoblastoma, familial and sporadic. In the familial form, a defective gene is generally inherited from one parent.
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46
When the normal retinoblastoma protein is dephosphorylated, it acts to suppress cell division by binding to and inactivating the E2F transcription factor.
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47
Any agent that causes damage to DNA is a potential carcinogen.
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48
When referring to tumor -suppressor genes and cancer, loss of heterozygosity is likely to suppress cancer formation.
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