(F) Complex Mutagenic Disorders and Other Cytogenetic Phenomena

Question 1

He is a founder of?

Identify the pointed structure

Answer 1

Eugenics

Question 2

Who is the founder of Eugenics?

Answer 2

Sir Francis Galton

Question 3

the study of the physical and mental improvement of human race

Answer 3

Sir Francis Galton

Eugenics talaga ‘yon mali ko

Question 4

Manual-based

He studied the inheritance of traits and observed what he called “blending” characters which is now known as quantitative traits or continuous variation, referring to gradation in phenotypic expressions wherein the phenotypes do not fall into distinct categories.

Answer 4

Sir Galton

Question 5

manual-based

The quantitative traits or continuous variation, refers to what in phenotypic expressions wherein the phenotypes do not fall into distinct categories.

Answer 5

gradation

Question 6

Manual-based

TOF. Some traits with multifactorial inheritance do not have gradations, “nonblending traits” or traits with discontinuous variation.

Answer 6

T

e.g., human ABO blood antigen system, round or wrinkled peas

Question 7

DISORDERS WITH MULTIFACTORIAL INHERITANCE

It is an interaction between (2)

Answer 7

variant forms of genes and
environmental factors

Question 8

DISORDERS WITH MULTIFACTORIAL INHERITANCE

TOF. It is a combination of genetic, environmental, and lifestyle factors, most of which have not yet been identified.

Answer 8

T

Question 9

TOF. Complex genetic disorders develop when few polymorphisms are inherited, each of which vary minimally.

Answer 9

F

Mutagenics only develop when numerous poly are inherited, each of which vary in significance.

Question 10

DISORDERS WITH MULTIFACTORIAL INHERITANCE

TOF. many polymorphisms, each with a modest effect and high penetrance

Answer 10

F (low penetrance)

u like dat

Question 11

A genetic variant that has at least two alleles and occurs in at least 1% of the population

Answer 11

Polymorphism

Question 12

the individual has a genetic susceptibility to develop a certain disease but does not mean that he is destined to have the disease.

Answer 12

Genetic predisposition

Question 13

Complex Multigenic Disorders/ Multifactorial Inherited Disorders

TOF. Although he has the ability to prevent or eradicate the onset of the disorder.

Answer 13

F (one cannot change his genes, he can delay or prevent the onset of the disorder.)

Alzheimer’s disease, osteoporosis, asthma, multiple sclerosis, Parkinson’s disease, and many more that occuris during aadulthood

Question 14

Multigenic Disorder

TOF. No clear Mendelian pattern of inheritance, occur in isolation, with familial aggregation

Answer 14

T

Question 15

TOF. Environmental influence can increase or decrease the risk of the disease.

Answer 15

T

Question 16

TOF. Concordance rate between monozygotic and dizygotic twins CONTRADICT Mendelian proportion

Answer 16

T

contradicts to the mendelian pattern of inheritance kasi it has no distinct category

Question 17

TOF. Occurs more frequently in one gender than in the other, hence, it is a sex limited trait.

Answer 17

F (but not sex-limited trait)

Question 18

Multigenic Disorders

TOF. Occur rarely in a specific ethnic group

Answer 18

F (more frequently)

Question 19

TOF. The chances of having the disease is highest when a person has no genetic factors but has exposure to the environmental factor for the disease.

Answer 19

F (highest when contains both genetic factors and exposure to the envi factor)

DUHH

Question 20

Set of autosomal recessive disorders that were originally grouped together because of the common finding of chromosome instability or fragility

Answer 20

Breakage Syndromes

Question 21

Breakage Syndromes

DNA repair gene defect -> breakage or increased recombination -> chromosome instability and widespread mutation and defect in DNA sequences -> LEADS TO??

Answer 21

cancer

Question 22

Breakage Syndromes

which does not belong:
A. Ataxia Telangiectasia
B. Cocky Syndrome
C. Bloom Syndrome
D. Fanconi Anemia
E. Xeroderma Pigmentosa

Answer 22

B (Cockayne Syndrome)

Question 23

Breakage Syndromes

Cytogenetic manifestation: Increased chromosome breakage detected by treatment with mitomycin C and diepoxybutane

A. Ataxia Telangiectasia
B. Cockayne Syndrome
C. Bloom Syndrome
D. Fanconi Anemia
E. Xeroderma Pigmentosa

Answer 23

D

Group A: 16q24.3 Group C- 9q22.3 Group D- 3p22-p26 Group E- 6p21-p22 Group B, F, H unmapped

Question 24

Cytogenetic manifestation: Increased sister chromatid exchange in response to UV light or BrdU incorporation

A. Ataxia Telangiectasia
B. Cockayne Syndrome
C. Bloom Syndrome
D. Fanconi Anemia
E. Xeroderma Pigmentosa

Answer 24

C

15q26.1

Question 25

Cytogenetic manifestation: Increase in SCE and chromosome rearrangement in response to UV light

A. Ataxia Telangiectasia
B. Cockayne Syndrome
C. Bloom Syndrome
D. Fanconi Anemia
E. Xeroderma Pigmentosa

Answer 25

E

Incidence: 1:250,000
A: 9q22.3
C: 653p25
D: 19q13.2-q13.3
E: 11p11-p12
F:others

Question 26

Cytogenetic manifestation: Increased spontaneous breakage, increased rings, triradials, and translocations, particularly with 7 and 14, induced with bleomycin or ionizing radiation

A. Ataxia Telangiectasia
B. Cockayne Syndrome
C. Bloom Syndrome
D. Fanconi Anemia
E. Xeroderma Pigmentosa

Answer 26

A

11q22.3

Question 27

A. Ataxia Telangiectasia
B. Cockayne Syndrome
C. Bloom Syndrome
D. Fanconi Anemia
E. Xeroderma Pigmentosa

Answer 27

sakit mo yung pinili mo

Question 28

Cytogenetic manifestation: UV sensitivity

A. Ataxia Telangiectasia
B. Cockayne Syndrome
C. Bloom Syndrome
D. Fanconi Anemia
E. Xeroderma Pigmentosa

Answer 28

B

Question 29

Type of cancer: Increased risk of AML, and progressive bone marrow failure

Clinical features: Pancytopenia, pre-or postnatal growth retardation, hypoplastic or missing thumbs, possible arm deformation, brownish pigmentation of skin

A. Ataxia Telangiectasia
B. Cockayne Syndrome
C. Bloom Syndrome
D. Fanconi Anemia
E. Xeroderma Pigmentosa

Answer 29

D (Gene locus: various; FANCA-G gene)

Question 30

Defect: Abnormal DNA ligase 1 activity

Clinical features: Growth retardation, butterfly rash on face, possible malignancy

Type of cancer: various

Miscellaneous: High frequency in Ashkenazi Jewish population;1:110 carrier frequency

A. Ataxia Telangiectasia
B. Cockayne Syndrome
C. Bloom Syndrome
D. Fanconi Anemia
E. Xeroderma Pigmentosa

Answer 30

C (Gene locus: 15q26.1, BLM gene)

Question 31

Clinical features: Ataxia with degeneration of CNS, telangiectasia on face, deficiency in cellular immunity, degenerative, growth retardation

Type of cancer: Various leukemias and solid tumors

A. Ataxia Telangiectasia
B. Cockayne Syndrome
C. Bloom Syndrome
D. Fanconi Anemia
E. Xeroderma Pigmentosa

Answer 31

A (Gene locus: 11q22.3; ATM gene)

Question 32

DNA Repair Defect: 1) lack of excision of thymine dimers; 2) Postreplication repair defect

Clinical features: Sensitivity to sun, neurological abnormalities, ataxia and spasticity

Type of cancer: Increased incidence of skin cancer

A. Ataxia Telangiectasia
B. Cockayne Syndrome
C. Bloom Syndrome
D. Fanconi Anemia
E. Xeroderma Pigmentosa

Answer 32

E (Gene locus: Incidence: 1:250,000; XPA-G & POLH gene)

Question 33

Defect: possible DNA ligase deficiency or defect of transcription coupled repair

Clinical features: dwarfism, premature aging, microcephaly, neurologic deficit, pigmentary degeneration, deafness, sensitivity to sunlight, MR

Type of cancer: increased incidence of skin cancer

A. Ataxia Telangiectasia
B. Cockayne Syndrome
C. Bloom Syndrome
D. Fanconi Anemia
E. Xeroderma Pigmentosa

Answer 33

B (Gene locus: chromosome 5)

Question 34

Fanconi Anemia

Current therapy:

Answer 34

bone marrow transplantation

Question 35

Cytogenetics and Genome Research

what has cytogenetic technology newly uncovered?

Answer 35

microdeletions

Question 36

method of syndrome identification is currently undergoing exciting development because of cytogenetic arrays (whole genome cytogenetic arrays)

Answer 36

“genotype first”

Question 37

Cytogenetics and Genome Research

TOF. can be used for children with unexplained developmental abnormalities.

Answer 37

T

Question 38

Cytogenetics and Genome Research

Tailored approaches to preventing and treating complex disorders based on genetic personalization of drug is done through the study of?

Answer 38

pharmacogenetics (single-drug interactions) and pharmacogenomics (study of many genes and their interactions with drugs)

Question 39

Molecular Cytogenetics

This diagnositic may become the most powerful tool for the diagnosis and screening of human diseases.

TOF

Answer 39

T

Question 40

This can predict which patients will response to certain drug and not, and who will manifest adverse effects are looked for.

Answer 40

Biomarkers

Question 41

Molecular Cytogenetics

TOF. its ability to diagnose disease both prenatally and pre- symptomatically confers it a secondary role in preventive medicine.

Answer 41

F (primary)

Question 42

CONGRATS TAPOS KA NA

Answer 42

pero assess mo muna sarili mo, labyu pa rin so proud!