Matching 1. Astrocytes A. Sheet-like cancer of epithelial origin 2. Immortality
ID: 193868 • Letter: M
Question
Matching
1.
Astrocytes
A. Sheet-like cancer of epithelial origin
2.
Immortality
B. Can cause senescence in dividing cells
3.
Squamous carcinoma
C. Increases risk of breast cancer
4.
Metaplasia (example)
D. Decreases risk of breast cancer
5.
Adenocarcinoma
E. Associated with stomach cancer incidence patterns
6.
Having no natural-born children
F. Can affect cell shape, cell adhesion, and cell motility
7.
Over-expression or mis-expression of a receptor on breast cancer cells
G. Supporting cells in the brain
8.
aneuploidy
H. Can cross-link receptors in the membrane of a cell
9.
Helicobacter pylori infection
I. Neoplasm brain tissue origin
10.
Shortening of telomeres
J. Neoplasm of striated muscle cell origin
11.
Leading cause of cancer deaths in women
K. Can lead to activation of cancer-causing genes
12.
Astrocytoma or glioblastoma
L. The lymphatic system
13.
cytoskeletal anaplasia
M. Can have early onset multifocal incidence pattern
14.
Bilateral retinoblastoma
N. Phenotypic characteristic of many cancer cells in culture
15.
Genomic instability and selection
O. Hepatitis B Virus
16.
Onco-fetal gene products
P. Sac-like or glandular neoplasm of epithelial cell origin
17.
Bivalent growth factors
Q. Ewing's sarcoma
18.
Can lead to hepatocellular carcinoma
R. Can lead to drug resistance during treatment
19.
Genetic drift
S. Ciliated epithelium replaced by squamous epithelium
20.
Lower dietary fat and body mass
T. Abnormal number and form of chromosomes
21.
Rhabdomyosarcoma
U. Can happen when cell lines are passaged repeatedly
22.
Fusion protein gene product
V. Often re-expressed in cancer cells
23.
Protease inhibitors
W. Target for Herceptin
24.
Route of metastatic spread
X. Lung cancer
25.
form of bone cancer
Y. Might inhibit invasion
1.
Astrocytes
A. Sheet-like cancer of epithelial origin
2.
Immortality
B. Can cause senescence in dividing cells
3.
Squamous carcinoma
C. Increases risk of breast cancer
4.
Metaplasia (example)
D. Decreases risk of breast cancer
5.
Adenocarcinoma
E. Associated with stomach cancer incidence patterns
6.
Having no natural-born children
F. Can affect cell shape, cell adhesion, and cell motility
7.
Over-expression or mis-expression of a receptor on breast cancer cells
G. Supporting cells in the brain
8.
aneuploidy
H. Can cross-link receptors in the membrane of a cell
9.
Helicobacter pylori infection
I. Neoplasm brain tissue origin
10.
Shortening of telomeres
J. Neoplasm of striated muscle cell origin
11.
Leading cause of cancer deaths in women
K. Can lead to activation of cancer-causing genes
12.
Astrocytoma or glioblastoma
L. The lymphatic system
13.
cytoskeletal anaplasia
M. Can have early onset multifocal incidence pattern
14.
Bilateral retinoblastoma
N. Phenotypic characteristic of many cancer cells in culture
15.
Genomic instability and selection
O. Hepatitis B Virus
16.
Onco-fetal gene products
P. Sac-like or glandular neoplasm of epithelial cell origin
17.
Bivalent growth factors
Q. Ewing's sarcoma
18.
Can lead to hepatocellular carcinoma
R. Can lead to drug resistance during treatment
19.
Genetic drift
S. Ciliated epithelium replaced by squamous epithelium
20.
Lower dietary fat and body mass
T. Abnormal number and form of chromosomes
21.
Rhabdomyosarcoma
U. Can happen when cell lines are passaged repeatedly
22.
Fusion protein gene product
V. Often re-expressed in cancer cells
23.
Protease inhibitors
W. Target for Herceptin
24.
Route of metastatic spread
X. Lung cancer
25.
form of bone cancer
Y. Might inhibit invasion
Explanation / Answer
1.
Astrocytes
G. Supporting cells in the brain.
2.
Immortality
N. Phenotypic characteristic of many cancer cells in culture
3.
Squamous carcinoma
A. Sheet-like cancer of epithelial origin
4.
Metaplasia (example)
S. Ciliated epithelium replaced by squamous epithelium
5.
Adenocarcinoma
P. Sac-like or glandular neoplasm of epithelial cell origin
6.
Having no natural-born children
C. Increases risk of breast cancer
7.
Over-expression or mis-expression of a receptor on breast cancer cells
W. Target for Herceptin
8.
aneuploidy
T. Abnormal number and form of chromosomes
9.
Helicobacter pylori infection
10.
Shortening of telomeres
B. Can cause senescence in dividing cells
11.
Leading cause of cancer deaths in women
X. Lung cancer
12.
Astrocytoma or glioblastoma
I. Neoplasm brain tissue origin
13.
cytoskeletal anaplasia
F. Can affect cell shape, cell adhesion, and cell motility
14.
Bilateral retinoblastoma
M. Can have early onset multifocal incidence pattern
15.
Genomic instability and selection
K. Can lead to activation of cancer-causing genes
16.
Onco-fetal gene products
R. Can lead to drug resistance during treatment
17.
Bivalent growth factors
H. Can cross-link receptors in the membrane of a cell
18.
Can lead to hepatocellular carcinoma
O. Hepatitis B Virus
19.
Genetic drift
U. Can happen when cell lines are passaged repeatedly
20.
Lower dietary fat and body mass
D. Decreases risk of breast cancer
21.
Rhabdomyosarcoma
J. Neoplasm of striated muscle cell origin
22.
Fusion protein gene product
V. Often re-expressed in cancer cells
23.
Protease inhibitors
Y. Might inhibit invasion
24.
Route of metastatic spread
L. The lymphatic system
25.
form of bone cancer
Q. Ewing's sarcoma
1.
Astrocytes
G. Supporting cells in the brain.
2.
Immortality
N. Phenotypic characteristic of many cancer cells in culture
3.
Squamous carcinoma
A. Sheet-like cancer of epithelial origin
4.
Metaplasia (example)
S. Ciliated epithelium replaced by squamous epithelium
5.
Adenocarcinoma
P. Sac-like or glandular neoplasm of epithelial cell origin
6.
Having no natural-born children
C. Increases risk of breast cancer
7.
Over-expression or mis-expression of a receptor on breast cancer cells
W. Target for Herceptin
8.
aneuploidy
T. Abnormal number and form of chromosomes
9.
Helicobacter pylori infection
E. Associated with stomach cancer incidence patterns10.
Shortening of telomeres
B. Can cause senescence in dividing cells
11.
Leading cause of cancer deaths in women
X. Lung cancer
12.
Astrocytoma or glioblastoma
I. Neoplasm brain tissue origin
13.
cytoskeletal anaplasia
F. Can affect cell shape, cell adhesion, and cell motility
14.
Bilateral retinoblastoma
M. Can have early onset multifocal incidence pattern
15.
Genomic instability and selection
K. Can lead to activation of cancer-causing genes
16.
Onco-fetal gene products
R. Can lead to drug resistance during treatment
17.
Bivalent growth factors
H. Can cross-link receptors in the membrane of a cell
18.
Can lead to hepatocellular carcinoma
O. Hepatitis B Virus
19.
Genetic drift
U. Can happen when cell lines are passaged repeatedly
20.
Lower dietary fat and body mass
D. Decreases risk of breast cancer
21.
Rhabdomyosarcoma
J. Neoplasm of striated muscle cell origin
22.
Fusion protein gene product
V. Often re-expressed in cancer cells
23.
Protease inhibitors
Y. Might inhibit invasion
24.
Route of metastatic spread
L. The lymphatic system
25.
form of bone cancer
Q. Ewing's sarcoma