1. Welcome to Who Wants to be a Genetic
50:50 15
$1 Million 14
$500,000
Welcome to Who Wants to be a Genetic
Millionaire? 13
$250,000 12
$125,000 11
$64,000 10
$32,000 9
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$1,000 4
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2. 15
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3. He’s the Father of modern genetics15
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$125,000 11
He’s the Father of modern genetics
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A: Neils Bohr
B: Charles Darwin
C: Gregor Mendel
D: Ashley Darwin

4. He’s the Father of modern genetics15
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$125,000 11
He’s the Father of modern genetics
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A: Neils Bohr
B: Charles Darwin
C: Gregor Mendel
D: Ashley Darwin

5. 15
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6. Darwin lived in this European country15
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Darwin lived in this European country 11
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A: Scotland
B: Austria
C: Denmark
D: Germany

7. Darwin lived in this European country15
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$125,000
Darwin lived in this European country 11
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A: Scotland
B: Austria
C: Denmark
D: Germany

8. 15
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9. The letter combination that represents a trait15
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$125,000
The letter combination that represents a trait 11
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A: Genotype
B: Phenotype
C: Pedigree
D: Stereotype

10. The letter combination that represents a trait15
$1 Million 14
$500,000 13
$250,000 12
$125,000
The letter combination that represents a trait 11
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A: Genotype
B: Phenotype
C: Pedigree
D: Stereotype

11. 15
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12. The phase of mitosis where centrioles first appear15
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$250,000 12
The phase of mitosis where centrioles first appear
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A: Telophase
B: Metaphase
C: Anaphase
D: Prophase

13. The phase of mitosis where centrioles first appear15
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$500,000 13
$250,000 12
$125,000
The phase of mitosis where centrioles first appear 11
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A: Telophase
B: Metaphase
C: Anaphase
D: Prophase

14. 15
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15. The fraction of round, green peas in Mendel’s F2 generation15
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$500,000
The fraction of round, green peas in Mendel’s F2 generation 13
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A: 9/16
B: 1/4
C: 1/16
D: 3/16

16. The fraction of round, green peas in Mendel’s F2 generation15
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$500,000
The fraction of round, green peas in Mendel’s F2 generation 13
$250,000 12
$125,000 11
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A: 9/16
B: 1/4
C: 1/16
D: 3/16

17. You’ve Reached the $1,000 Milestone! Congratulations! Congratulations!

18. 15
$1 Million 14
$500,000 13
$250,000 12
$125,000 11
$64,000 10
$32,000 9
$16,000 8
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$1,000 4
$500 3
$300 2
$200 1
$100

19. 15
$1 Million 14
$500,000 13
$250,000
The probable blood type of the child of a heterozygous Type A father and Type AB mother 12
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A: Type AB
B: Type A
C: Type O
D: Type B

20. 15
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$500,000
The most likely blood type of the child of a heterozygous Type A father and Type AB mother 13
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A: Type AB
B: Type A
C: Type O
D: Type B

21. 15
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22. Which of the following is not a single gene defect?15
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$125,000
Which of the following is not a single gene defect? 11
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A: Sickle cell anemia
B: Huntington’s disease
C: Down’s Syndrome
D: Muscular dystrophy

23. Which of the following is not a single gene defect?15
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$500,000
Which of the following is not a single gene defect? 13
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A: Sickle cell anemia
B: Huntington’s disease
C: Down Syndrome
D: Muscular dystrophy

24. 15
$1 Million 14
$500,000 13
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$1,000 4
$500 3
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$100

25. Which is not required for DNA testing?15
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Which is not required for DNA testing? 11
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A: Gel paper
B: Power source
C: Agarose gel
D: Restriction enzymes

26. Which is not required for DNA testing?15
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$500,000 13
$250,000 12
$125,000
Which is not required for DNA testing? 11
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A: Gel paper
B: Power source
C: Agarose gel
D: Restriction enzymes

27. 15
$1 Million 14
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$250,000 12
$125,000 11
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$32,000 9
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$8,000 7
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28. Errors in meiosis usually occur during which phase?15
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Errors in meiosis usually occur during which phase? 13
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A: Anaphase II
B: Prophase I
C: Anaphase I
D: Prophase II

29. Errors in meiosis usually occur during which phase?15
$1 Million 14
$500,000
Errors in meiosis usually occur during which phase? 13
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A: Anaphase II
B: Prophase I
C: Anaphase I
D: Prophase II

30. 15
$1 Million 14
$500,000 13
$250,000 12
$125,000 11
$64,000 10
$32,000 9
$16,000 8
$8,000 7
$4,000 6
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$1,000 4
$500 3
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$100

31. A person with an improperly constructed larynx likely has this:15
$1 Million 14
$500,000
A person with an improperly constructed larynx likely has this: 13
$250,000 12
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A: Huntington’s disease
B: Cri-du-chat syndrome
C: Turner syndrome
D: Achondroplasia

32. A person with an improperly constructed larynx likely has this:15
$1 Million 14
$500,000
A person with an improperly constructed larynx likely has this: 13
$250,000 12
$125,000 11
$64,000 10
$32,000 9
$16,000 8
$8,000 7
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A: Huntington’s disease
B: Cri-du-chat syndrome
C: Turner syndrome
D: Achondroplasia

33. You’ve Reached the $32,000 Milestone! Congratulations!

34. 15
$1 Million 14
$500,000 13
$250,000 12
$125,000 11
$64,000 10
$32,000 9
$16,000 8
$8,000 7
$4,000 6
$2,000 5
$1,000 4
$500 3
$300 2
$200 1
$100

35. 15
$1 Million 14
$500,000
If a heterozygous couple has a normal child but has two grandchildren: a normal granddaughter and a grandson with a recessive disorder, it is likely due to what kind of inheritance? 13
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A: X-linked
B: Co-dominant
C: Autosomal dominant
D: Autosomal recessive

36. 15
$1 Million
If a heterozygous couple has a normal child but has two grandchildren: a normal granddaughter and a grandson with a recessive disorder, it is likely due to what kind of inheritance? 14
$500,000 13
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A: X-linked
B: Co-dominant
C: Autosomal dominant
D: Autosomal recessive

37. 15
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38. Which organism has the greatest number of chromosomes?15
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Which organism has the greatest number of chromosomes? 13
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A: Fruit fly
B: Mouse
C: Yeast
D: Human

39. Which organism has the greatest number of chromosomes?15
$1 Million 14
$500,000
Which organism has the greatest number of chromosomes? 13
$250,000 12
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A: Fruit fly
B: Mouse
C: Yeast
D: Human

40. 15
$1 Million 14
$500,000 13
$250,000 12
$125,000 11
$64,000 10
$32,000 9
$16,000 8
$8,000 7
$4,000 6
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$1,000 4
$500 3
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$100

41. A karyotype would not adequately show…15
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$500,000 13
$250,000 12
$125,000
A karyotype would not adequately show… 11
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A: Trisomy 21
B: Fragile ‘X’ syndrome
C: Klinefelter syndrome
D: Tay-Sachs disease

42. A karyotype would not adequately show…15
$1 Million 14
$500,000 13
$250,000 12
$125,000
A karyotype would not adequately show… 11
$64,000 10
$32,000 9
$16,000 8
$8,000 7
$4,000 6
$2,000 5
$1,000 4
$500 3
$300 2
$200
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A: Trisomy 21
B: Fragile ‘X’ syndrome
C: Klinefelter syndrome
D: Tay-Sachs disease

43. 15
$1 Million 14
$500,000 13
$250,000 12
$125,000 11
$64,000 10
$32,000 9
$16,000 8
$8,000 7
$4,000 6
$2,000 5
$1,000 4
$500 3
$300 2
$200 1
$100

44. 15
$1 Million 14
$500,000
For autosomal dominant inheritance, which is not possible of the F2 generation of Dd and DD parents? 13
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A: 50% Dd; 50% dd
B: 50% DD; 50% Dd
D: 25% DD; 25% dd
C: 100% DD

45. 15
$1 Million 14
$500,000
For autosomal dominant inheritance, which is not possible of the F2 generation of Dd and DD parents? 13
$250,000 12
$125,000 11
$64,000 10
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A: 50% Dd; 50% dd
B: 50% DD; 50% Dd
D: 25% DD; 25% dd
C: 100% DD

46. 15
$1 Million 14
$500,000 13
$250,000 12
$125,000 11
$64,000 10
$32,000 9
$16,000 8
$8,000 7
$4,000 6
$2,000 5
$1,000 4
$500 3
$300 2
$200 1
$100

47. Study the following pedigree…

48. This pedigree demonstrates the following inheritance pattern:15
$1 Million 14
$500,000 13
$250,000
This pedigree demonstrates the following inheritance pattern: 12
$125,000 11
$64,000 10
$32,000 9
$16,000 8
$8,000 7
$4,000 6
$2,000 5
$1,000 4
$500 3
$300 2
$200
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$100
A: X-linked recessive
B: X-linked dominant
C: Autosomal dominant
D: Autosomal recessive

49. This pedigree demonstrates the following inheritance pattern:15
$1 Million 14
$500,000 13
$250,000
This pedigree demonstrates the following inheritance pattern: 12
$125,000 11
$64,000 10
$32,000 9
$16,000 8
$8,000 7
$4,000 6
$2,000 5
$1,000 4
$500 3
$300 2
$200
50:50 1
$100
A: X-linked recessive
B: X-linked dominant
C: Autosomal dominant
D: Autosomal recessive

50. YOU WIN $1 MILLION DOLLARS!