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Mendelian genetics

Mendelian genetics. Gregor Mendel. Father of modern genetics Researched with pea plants. Gregor Mendel. Father of modern genetics Researched with pea plants Developed ideas of dominance and trait segregation. Phenotype. Phenotype Physical characteristics. Genotype. Phenotype

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Mendelian genetics

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  1. Mendelian genetics

  2. Gregor Mendel • Father of modern genetics • Researched with pea plants

  3. Gregor Mendel • Father of modern genetics • Researched with pea plants • Developed ideas of dominance and trait segregation

  4. Phenotype • Phenotype • Physical characteristics

  5. Genotype • Phenotype • Physical characteristics • Genotype • Genes we inherit from our parents

  6. Phenotype • Facial structure Notice the similarities:

  7. Phenotype • Facial structure • Eyes Notice the similarities:

  8. Phenotype • Facial structure • Eyes • Smile Notice the similarities:

  9. Phenotype • Facial structure • Eyes • Smile • Ears Notice the similarities:

  10. Phenotype • Facial structure • Eyes • Smile • Ears • Nose Notice the similarities:

  11. Phenotype • Facial structure • Eyes • Smile • Ears • Nose • Neck Notice the similarities:

  12. Mendelian Genetics • Mendel studied a number of characteristics in pea plants including: • Height - short or TALL

  13. Mendelian Genetics • Mendel studied a number of characteristics in pea plants including: • Height - short or TALL • Seed color - green or YELLOW

  14. Mendelian Genetics • Mendel studied a number of characteristics in pea plants including: • Height - short or TALL • Seed color - green or YELLOW • Seed shape - wrinkled or ROUND

  15. Mendelian Genetics • Mendel studied a number of characteristics in pea plants including: • Height - short or TALL • Seed color - green or YELLOW • Seed shape - wrinkled or ROUND • Seed coat color - white or GRAY

  16. Mendelian Genetics • Mendel studied a number of characteristics in pea plants including: • Height - short or TALL • Seed color - green or YELLOW • Seed shape - wrinkled or ROUND • Seed coat color - white or GRAY • Pod shape - constricted or SMOOTH

  17. Mendelian Genetics • Mendel studied a number of characteristics in pea plants including: • Height - short or TALL • Seed color - green or YELLOW • Seed shape - wrinkled or ROUND • Seed coat color - white or GRAY • Pod shape - constricted or SMOOTH • Pod color - yellow or GREEN

  18. Mendelian Genetics • Mendel studied a number of characteristics in pea plants including: • Height - short or TALL • Seed color - green or YELLOW • Seed shape - wrinkled or ROUND • Seed coat color - white or GRAY • Pod shape - constricted or SMOOTH • Pod color - yellow or GREEN • Flower position - terminal or AXIAL

  19. Mendelian Genetics • We will work with the following three: • Height - short or TALL • Seed color - green or YELLOW • Seed shape - wrinkled or ROUND • Seed coat color - white or GRAY • Pod shape - constricted or SMOOTH • Pod color - yellow or GREEN • Flower position - terminal or AXIAL

  20. Predicting Inheritance To determine the chances of inheriting a given trait, scientists use Punnett squares and symbols to represent the genes. UPPERCASE letters are used to represent dominant genes. lowercase letters are used to represent recessive genes.

  21. Predicting Inheritance For example: T = represents the gene for TALL in pea plants t = represents the gene for short in pea plants So: TT & Tt both result in a TALL plant, because T is dominant over t. t is recessive. tt will result in a short plant. Remember there are two genes for every trait! One from each parent.

  22. Predicting Inheritance For example: T = represents the gene for TALL in pea plants t = represents the gene for short in pea plants So: TT &Ttboth result in a TALL plant, because T is dominant over t. t is recessive. tt will result in a short plant. Remember there are two genes for every trait! Mendels’ Principle of Dominance Some genes (alleles) are dominant and others are recessive. The phenotype (trait) of a dominant gene will be seen when it is paired with a recessive gene.

  23. Predicting Inheritance Let’s cross a totally dominant tall plant (TT) with a short plant (tt). Each plant will give only one of its’ two genes to the offspring or F1 generation. TT x tt T T t t

  24. Predicting Inheritance Let’s cross a totally dominant tall plant (TT) with a short plant (tt). Each plant will give only one of its’ two genes to the offspring or F1 generation. TT x tt Mendels’ “Law” of Segregation Each gene (allele) separates from the other so that the offspring get only one gene from each parent for a given trait. T T t t

  25. Punnett Squares The genes from one parent go here. The genes from the other parent go here.

  26. Punnett Squares

  27. Punnett Squares

  28. Punnett Squares

  29. Punnett Squares

  30. Punnett Squares

  31. Punnett Squares F1 generation

  32. Interpreting the Results The genotype for all the offspring is Tt. The genotype ratio is: Tt - 4/4 The phenotype for all the offspring is tall. The phenotype ratio is: tall - 4/4

  33. Punnett Squares Your Turn!!

  34. Punnett Squares F2 generation

  35. Punnett Squares Next, give the genotype and phenotype ratios of the offspring (F2 generation).

  36. Punnett Squares Genotype ratio: TT - 1

  37. Punnett Squares Genotype ratio: TT - 1, Tt - 2

  38. Punnett Squares Genotype ratio: TT - 1, Tt - 2, tt - 1

  39. Punnett Squares Genotype ratio: TT - 1, Tt - 2, tt - 1 Phenotype ratio: Tall - 3

  40. Punnett Squares Genotype ratio: TT - 1, Tt - 2, tt - 1 Phenotype ratio: Tall - 3, short - 1

  41. Punnett Squares This is a monohybrid cross. We worked with only one trait. The height of the plant.

  42. Punnett Squares This is a monohybrid cross. We worked with only one trait. The height of the plant. two Later we will work with a dihybrid cross, using the height of the plant and either seed color or seed shape.

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