2. $200 $300 $400 Final Jeopardy $100 $200 $300 $400 $500 $100 $200 $300 $400 $500 $100 $200 $300 $400 $500 $100 $200 $300 $400 $500 $100 Pics ‘n Stuff Super Duper Hard Stuff Inheritance, Shminheritance Generic Genetics Diseases 

3. The type of inheritance shown when a red- flowering plant is crossed with a white-flowering plant to produce pink offspring is _____ C1 $100

4. Incomplete dominance C1? $100

5. A trait controlled by four alleles is said to have ____ C1 $200

6. Multiple alleles C1 $200

7. Humans have 22 pairs of _______ chromosomes C1 $300

8. autosome C1 $300

9. _____ is when the phenotype of the offspring of two homozygous parents is a mix/intermediate color between the two C1 $400

10. Incomplete dominance C1 $400

11. Create a pedigree using the following data: * Generation I: mother affected/father not affected * Generation II: 4 offspring: II-1 is affected (male/married) II-3 is carrier (male/married) II-5 not affected (female/ married), II-7 not affected (female/not married) *Generation III: II-1 and 2 have two female offspring, both carriers, II-3 mated, but has no offspring, II-5 and 6 has one male offspring, affected and one female offspring, not affected, II-7 has not mated, has no offspring Timer C1 final

12. See overhead

13. C2 $100 Eye color in humans is the result of ______ inheritance.

14. C2 $100 polygenic

15. C2 $200 Royal hemophilia is a result of _____ inheritance.

16. C2 $200 Sex-linked

17. C2 $300 Cystic fibrosis and Tay- Sachs disease are typical of recessive disorders concentrated in _____

18. C2 $300 Ethnic groups

19. C2 $400 Most human genetic disorders are caused by the expression of ______

20. C2 $400 Recessive alleles

21. C2 $500 Because the gene for red-green colorblindness is located on the X chromosome, it is not normally possible for a a)Carrier mother to pass the gene to her daughter b) carrier mother to pass the gene on to her son c) Color blind father to pass the gene on to his daughter d) Color blind father to pass the gene on to his son

22. C2 $500 d) Color blind father to pass the gene on to his son

23. C3 $100 If individual III-2 marries a person with the same genotype as individual II-2, what is the chance that their children will be affected with hemophilia?

24. C3 $100 0%

25. C3 $200 What type of inheritance pattern does the trait represented by the shaded symbols illustrate?

26. C3 $200 Sex-linked

27. C3 $300 For the trait in the above pedigree, individuals II-1 and II-4 can be classified as ___________

28. C3 $300 Carriers/heterozygous

29. C3 $400 What is the relationship between individual I-1 and individual III-2?

30. C3 $400 Grandmother and grandson

31. C3 $500 What phenotype is depicted here?

32. C3 $500 B

33. C4 $100 Two healthy parents have a child with a rare genetic disease. What could be the explanation for this?

34. C4 $100 The gene is recessive and is carried by both parents.

35. C4 $200 Which term does not belong with the others: Huntingtons’s disease, cystic fibrosis, Tay-Sach’s disease, PKU. Explain

36. C4 $200 Huntington’s disease does not belong. It is a dominant trait, the others are recessive.

37. C4 $300 Both hemophilia and red- green colorblindness are _______

38. C4 $300 Sex-linked disorders

39. C4 $400 What damage is caused as a result of sickle-cell anemia?

40. C4 $400 Tissue damage as a result of oxygen deprivation

41. C4 $500 The gene for colorblindness is found on the X chromosome. Will the boy of a colorblind father be colorblind? Explain.

42. C4 $500 No, the Y chromosome he received from his father does not carry the trait.

43. C5 $100 When roan cattle are mated, 25% of the offspring are red, 50% are roan and 25% are white. Roan coats consist of both red and white hairs. This trait is one controlled by _________ alleles.

44. C5 $100 codominant

45. C5 $200 A cross between a white rooster and a black hen results in 100% blue Andalusian offspring (codominance). When two of these blue offspring are mated, the probable phenotypic ratio would be _______

46. C5 $200 25% black, 50% blue, 25% white

47. C5 $300 Which of the following disorders can be detected by karyotyping? a)sickle-cell anemia b)Down syndrome c)Tay-Sachs disease d)PKU

48. C5 $300 Down syndrome (3 copies of chromosome 21— trisomy 21)

49. C5 $400 What is the chance that the individual A will have Huntington’s disease?

50. C5 $400 50%

51. C5 $500 A man heterozygous for blood type A has children with a woman heterozygous for blood type B. The chance that their first child will have type O blood is ___

52. C5 $500 25%

53. (Post Credits Here) This Jeopardy template was created by Dr. Robert Pettis, Director An Adventure of the American Mind, University of South Carolina Spartanburg This Jeopardy game was created by (Your Name)