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Chapter 8 Opener. In-Text Art, Ch. 8, p. 145 Figure 8.1 Mendel’s Monohybrid Experiments.

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Presentation on theme: "Chapter 8 Opener. In-Text Art, Ch. 8, p. 145 Figure 8.1 Mendel’s Monohybrid Experiments."— Presentation transcript:

1 Chapter 8 Opener

2 In-Text Art, Ch. 8, p. 145

3 Figure 8.1 Mendel’s Monohybrid Experiments

4

5 Figure 8.1 Mendel’s Monohybrid Experiments (Part 1)

6 Figure 8.1 Mendel’s Monohybrid Experiments (Part 2)

7 In-Text Art, Ch. 8, p. 147

8 Figure 8.2 Mendel’s Explanation of Inheritance

9

10 Figure 8.2 Mendel’s Explanation of Inheritance (Part 1)

11 Figure 8.2 Mendel’s Explanation of Inheritance (Part 2)

12 Figure 8.3 Meiosis Accounts for the Segregation of Alleles

13

14 Figure 8.3 Meiosis Accounts for the Segregation of Alleles (Part 1)

15 Figure 8.3 Meiosis Accounts for the Segregation of Alleles (Part 2)

16 Figure 8.3 Meiosis Accounts for the Segregation of Alleles (Part 3)

17 Figure 8.4 Homozygous or Heterozygous?

18

19 Figure 8.4 Homozygous or Heterozygous? (Part 1)

20 Figure 8.4 Homozygous or Heterozygous? (Part 2)

21 Figure 8.4 Homozygous or Heterozygous? (Part 3)

22 Figure 8.5 Independent Assortment

23

24 Figure 8.5 Independent Assortment (Part 1)

25 Figure 8.5 Independent Assortment (Part 2)

26 Figure 8.6 Meiosis Accounts for Independent Assortment of Alleles

27

28 Figure 8.7 Using Probability Calculations in Genetics

29

30 Figure 8.8 Pedigree Analysis and Inheritance

31

32 Figure 8.8 Pedigree Analysis and Inheritance (Part 1)

33 Figure 8.8 Pedigree Analysis and Inheritance (Part 2)

34 Figure 8.9 Multiple Alleles for Coat Color in Rabbits

35 Figure 8.10 Incomplete Dominance Follows Mendel’s Laws

36

37 Figure 8.10 Incomplete Dominance Follows Mendel’s Laws (Part 1)

38 Figure 8.10 Incomplete Dominance Follows Mendel’s Laws (Part 2)

39 Figure 8.11 ABO Blood Reactions Are Important in Transfusions

40

41 Apply the Concept, Ch. 8, p. 154

42 In-Text Art, Ch. 8, p. 154

43 Figure 8.12 Genes Interact Epistatically

44

45 Figure 8.13 Some Alleles Do Not Assort Independently

46

47 Figure 8.13 Some Alleles Do Not Assort Independently (Part 1)

48 Figure 8.13 Some Alleles Do Not Assort Independently (Part 2)

49 Figure 8.14 Crossing Over Results in Genetic Recombination

50

51 Figure 8.14 Crossing Over Results in Genetic Recombination (Part 1)

52 Figure 8.14 Crossing Over Results in Genetic Recombination (Part 2)

53 Figure 8.14 Crossing Over Results in Genetic Recombination (Part 3)

54 In-Text Art, Ch. 8, p. 157 (1)

55 In-Text Art, Ch. 8, p. 157 (2)

56 Figure 8.15 Recombination Frequencies

57 Figure 8.15 Recombination Frequencies (Part 1)

58 Figure 8.15 Recombination Frequencies (Part 2)

59 Apply the Concept, Ch. 8, p. 158

60 Figure 8.16 A Gene for Eye Color Is Carried on the Drosophila X Chromosome

61

62 Figure 8.16 A Gene for Eye Color Is Carried on the Drosophila X Chromosome (Part 1)

63 Figure 8.16 A Gene for Eye Color Is Carried on the Drosophila X Chromosome (Part 2)

64 Figure 8.17 Red–Green Color Blindness Is Carried on the Human X Chromosome

65

66 Figure 8.18 Cytoplasmic Inheritance

67 Figure 8.19 Bacterial Conjugation and Recombination

68

69 Figure 8.19 Bacterial Conjugation and Recombination (Part 1)

70 Figure 8.19 Bacterial Conjugation and Recombination (Part 2)

71 Figure 8.20 Gene Transfer by Plasmids

72

73 Figure 8.21 Sex Linkage in Royal Families of Europe

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