1. Student Impact! High Fives: What did you like about the genetics unit? What would you like to do again? Anything that you would like me to know Nudges For Next Time: What would you change? What didn’t you like? What would you suggest we do in the next unit? Any other things you want to mention

2. INCOMPLETE DOMINANCE, CODOMINANCE, MULTIPLE ALLELES, POLYGENIC TRAITS

3. DOMINANT? RECESSIVE? NEITHER? NOT ALL GENES SHOW SIMPLE PATTERNS OF DOMINANT AND RECESSIVE ALLELES. IN MOST ORGANISMS, GENETICS IS MORE COMPLICATED, BECAUSE THE MAJORITY OF GENES HAVE MORE THAN TWO ALLELES. MANY IMPORTANT TRAITS ARE CONTROLLED BY MORE THAN ONE GENE.

4. INCOMPLETE DOMINANCE PAIRS OF ALLELES PRODUCE A HETEROZYGOUS PHENOTYPE THAT RESULTS IN AN APPEARANCE IN BETWEEN THE PHENOTYPES OF THE TWO PARENTAL VARIETIES. EXAMPLE: SNAPDRAGON COLOR

5. INCOMPLETE DOMINANCE With incomplete dominance, a cross between organisms with two different phenotypes produces offspring with a third phenotype that is a blending of the parental traits.

6. INCOMPLETE DOMINANCE - SNAPDRAGONS

7. INCOMPLETE DOMINANCE – Humans HYPERCHOLESTEROLEMIA – DANGEROUSLY HIGH LEVELS OF CHOLESTEROL IN THE BLOOD NORMAL INDIVIDUALS ARE HH HETEROZYGOTES ARE Hh (1 IN 500) HOMOZYGOUS INDIVIDUALS WITH hh (1 IN 1,000,000) 5X NORMAL CHOLESTEROL LEVEL

8. INCOMPLETE DOMINANCE PROBLEMS YELLOW GUINEA PIGS CROSSED WITH WHITE GUINEA PIGS ALWAYS PRODUCE CREAM COLORED GUINEA PIGS.  A. COMPLETE THE PUNNETT SQUARE FOR THE CROSS BETWEEN A WHITE GUINEA PIG AND A YELLOW GUINEA PIG.  B. COMPLETE THE PUNNETT SQUARE FOR THE CROSS BETWEEN TWO CREAM-COLORED GUINEA PIGS.  C. GIVE THE PHENOTYPIC AND GENOTYPIC RATIO FOR THE OFFSPRING IN A AND B.

9. CODOMINANCE BOTH ALLELES CONTRIBUTE TO THE PHENOTYPE OF THE ORGANISM EXAMPLE: IN HORSES, THE ALLELE FOR RED HAIR IS CODOMINANT WITH THE ALLELE FOR WHITE HAIR. HORSES WITH BOTH ALLELES ARE ROAN BECAUSE THEIR COATS ARE A MIXTURE OF BOTH RED AND WHITE HAIRS

10. CODOMINANCE With codominance, a cross between organisms with two different phenotypes produces offspring with a third phenotype in which both of the parental traits appear together.

11. CODOMINANCE PROBLEMS 1.WHEN A RED BULL IS BRED TO A WHITE COW, THE COLOR OF THE CALF IS ROAN.  A. COMPLETE THE PUNNETT SQUARE FOR THE CROSS BETWEEN A RED BULL AND A WHITE COW  B. GIVE THE GENOTYPIC RATIO AND PHENOTYPIC RATIO OF THE OFFSPRING.  C. A ROAN BULL AND A ROAN COW ARE BRED. GIVE THE GENOTYPIC RATIO AND PHENOTYPIC RATIO OF THIS CROSS.

12. What type of inheritance are each of these examples?

13. MULTIPLE ALLELES MORE THAN TWO POSSIBLE ALLELES EXIST IN A POPULATION EX. COAT COLOR IN RABBITS – DETERMINED BY A SINGLE GENE WITH AT LEAST 4 DIFFERENT ALLELES THAT CAN PRODUCE 4 POSSIBLE COAT COLORS EX. HUMAN GENE FOR EYE COLOR

14. Multiple Alleles

15. MULTIPLE ALLELES HUMAN BLOOD TYPES – CHROMOSOME 9 ONE GENE, THREE ALLELES, PRODUCE 4 PHENOTYPES A PERSON’S BLOOD GROUP MAY BE O, A, B OR AB THESE LETTERS REFER TO 2 CARBOHYDRATES THAT MAY BE FOUND ON THE SURFACE OF RED BLOOD CELLS (RBC)

16. ABO BLOOD GROUPS

17. Blood Types: What do they look like?

18. ABO BLOOD GROUPS Blood TypeGenotypes ABO Enzymes Present RBC Antigens Present Serum Antibodies "A"AA, Ai"H", "A"A, Hanti-B "B"BB, Bi"H", "B"B, Hanti-A "AB"AB "H", "A", "B" A, B, Hnone "O"ii"H"H anti-A, anti-B

19. ABO BLOOD GROUP PROBLEMS COMPLETE A PUNNETT SQUARE FOR: 1.HOMOZYGOUS TYPE A x TYPE O 2.HETEROZYGOUS TYPE A x TYPE O 3.HOMOZYGOUS TYPE A x HOMOZYGOUS TYPE B 4.HETEROZYGOUS TYPE B x HOMOZYGOUS TYPE A 5.HETEROZYGOUS TYPE A x HETEROZYGOUS TYPE B 6.HETROZYGOUS TYPE B x TYPE O

20. Practice problems A TYPE AB MALE MARRIES A TYPE O FEMALE.  WHAT ARE THEIR GENOTYPES?  COMPLETE A PUNNETT SQUARE TO SHOW THE POSSIBLE GENOTYPES OF THEIR CHILDREN.

21. Practice problems A TYPE A MALE MARRIES A TYPE B FEMALE. THEY HAVE TWO CHILDREN. ONE CHILD IS TYPE AB AND THE OTHER CHILD IS TYPE O.  WHAT ARE THE GENOTYPES OF THE PARENTS?  COMPLETE A PUNNETT SQUARE TO SHOW THE GENOTYPES OF THESE TWO CHILDREN AND FOR ANY FUTURE CHILDREN.

22. Practice problems A TYPE A MALE IS MARIED TO A TYPE O FEMALE. USING PUNNETT SQUARES, EXPLAIN HOW IT WOULD BE POSSIBLE FOR THEM TO HAVE A:  TYPE A CHILD.  TYPE B CHILD.  TYPE O CHILD.

23. Practice problems A TYPE AB MALE MARRIES A TYPE B FEMALE. USING PUNNETT SQUARES, EXPLAIN HOW IT WOULD BE POSSIBLE FOR THEM TO HAVE A:  TYPE AB CHILD  TYPE A CHILD  TYPE O CHILD  TYPE B CHILD

24. Practice problems A TYPE AB MALE MARRIES A TYPE AB FEMALE. USING PUNNETT SQUARES, EXPLAIN HOW IT WOULD BE POSSIBLE FOR THEM TO HAVE A:  TYPE AB CHILD  TYPE A CHILD  TYPE B CHILD  TYPE O CHILD

25. Practice problems A TYPE O MALE MARRIES A TYPE O FEMALE.  WHAT ARE THE POSSIBLE GENOTYPES OF THEIR CHILDREN?

26. Practice problems A TYPE A MALE, WHOSE FATHER IS TYPE O, MARRIES A TYPE O FEMALE. WHAT ARE THE POSSIBLE GENOTYPES OF THEIR CHILDREN? THE MALE FROM THE PREVIOUS PROBLEM HAS A BROTHER WHO IS TYPE B. WHAT IS THEIR MOTHER’S BLOOD TYPE? THE BROTHERS IN THE ABOVE PROBLEMS HAVE A SISTER WHOSE BLOOD TYPE IS O. IS THIS POSSIBLE?

27. POLYGENIC TRAITS TRAITS CONTROLLED BY TWO OR MORE GENES EX. 3 GENES INVOLVED MAKING THE REDDISH-BROWN PIGMENT IN THE EYES OF FRUIT FLIES EX. WIDE RANGE OF HUMAN SKIN COLOR DUE TO MORE THAN 4 DIFFERENT GENES CONTROLLING THE TRAIT

28. POLYGENIC TRAIT – COAT COLOR IN MICE

29. POLYGENIC TRAIT VIDEO Polygenic Traits

30. SEX-LINKED TRAITS IN HUMANS, SEX IS DETERMINED BY THE 23 RD PAIR OF CHROMOSOMES – THE SEX CHROMOSOMES! THE SEX CHROMOSOMES ARE THE X AND THE Y CHROMOSOMES  XX – FEMALE  XY – MALE

31. SEX-LINKED TRAITS MOST SEX-LINKED GENES ARE X-LINKED GENES. WHY? THE X CHROMOSOMES ARE LONGER AND CONTAINS THOUSANDS MORE GENES THAN THE Y CHROMOSOME. X CHROMOSOME CONTAINS 1098 GENES. Y CHROMOSOME CONTAINS 26 GENES.

32. KARYOTYPE

33. SEX-LINKED TRAITS FOR EACH GENE EXCLUSIVELY ON THE X CHROMOSOME, THERE ARE TWO ALLELES OF EACH GENE MALES, XY, HAVE ONLY ONE ALLELE A MALE, XY, WITH A RECESSIVE ALLELE ON THE X CHROMOSOME, WILL ALWAYS EXHIBIT THAT RECESSIVE TRAIT BECAUSE THERE IS NO CORRESPONDING ALLELE ON THE Y CHROMOSOME.

34. EXAMPLES OF SEX-LINKED TRAITS IN HUMANS:  Red-Green Color Blindness  Hemophilia  Duchenne Muscular Dystrophy IN CATS  Calico coat color IN FRUIT FLIES:  Eye Color

35. WORKING PUNNETT SQUARES IDENTIFY EACH INDIVIDUAL AS MALE OR FEMALE ACCORDING TO THEIR SEX CHROMOSOMES  EX. XX or XY THE LETTERS REPRESENTING THE TRAIT ARE PLACED AS SUPERSCRIPTS ABOVE THE X CHROMOSOME  EXAMPLE: X R or X r

36. EYE COLOR IN FRUIT FLIES THE GENE FOR EYE COLOR IS ON THE X CHROMOSOME. THE ALLELE FOR RED EYES IS DOMINANT OVER WHITE EYES PROBLEM:  IF A WHITE-EYED FEMALEFRUIT FLY IS MATED WITH A RED-EYED MALE, PREDICT THE POSSIBLE OFFSPRING

37. SEX-LINKED TRAITS VIDEO SEX-LINKED TRAITS VIDEO

38. COAT COLOR IN CATS Coat color in cats is an X-linked gene, with alleles for black and orange-brown  X B X B and X B Y cats will have a black coat  X O X O and X O Y will have an orange-brown coat  female cats with X B X O are Calico!!