Genetics Notes: Multiple Alleles Blood Typing

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Name: Per: Date: Genetics Notes: Multiple Alleles Blood Typing Inheriting Blood Type: Many traits, other than blood, have more than two different alleles for the trait. This situation is referred to as. Geneticists probably know more about the inheritance of type than any inherited human trait. It is inherited from your parents. In the ABO blood group, there are blood types. These blood types are,,,. Blood Antigens These basic blood types are determined by the presence or absence of the (surface proteins) on the red blood cell membrane. The gene for blood type is. There are 3 different alleles:,, and in the human population. codes for the production of the A antigen on the RBC surface. codes for the production of the B antigen on the RBC surface. i codes for neither antigen. Blood Alleles Both and are co-dominant and i is recessive. This means that both A and B antigens will be when they are together. Both I A and I B are dominant to i. Any individual only has 2 of these alleles, one from each, and they may be the same or they may be different. Blood Types: There are types of blood due to the surface molecules present. These surface molecules are called. (They are made of protein and indicated by spikes on the red blood cell diagrams below) The four types are: A, B, AB, and O Draw them here: Red Blue Red & Blue no spikes 1

The Genotypes and Phenotypes of Blood Groups Genotype(s) Phenotype Diagram of Red Blood Cell (homozygous) A (red) or (heterozygous) (homozygous) B (blue) or (heterozygous) AB (red & blue) O (none) Importance: Why do we need to know our blood type? - / Organ transplants -Incompatible blood types could clump together and result in death. -Cases of disputed Blood Compatibility Type Can Give To Can Receive From A, AB, B, AB, AB,,, A, B, AB, O Universals: Universal Donor: Type Can donate blood to any blood type Universal Recipient: Type Can receive blood from any blood type More about Blood Compatibility As mentioned earlier, one type of protein, the antigens, are present on the surface of red blood cells. Another type of protein is present in the or liquid component of the blood. These types are called. The two types of protein will react with each other when they come into contact so the antibodies are called anti- and anti-. 2

If A antigen and anti- A come into contact, the blood will. People with A antigen have anti- B in their plasma so clotting does not occur. B antigen is compatible with anti- A. Rh Factor: What does + and mean? The factor is also a that is inherited from our parents, but it is inherited independently of the ABO blood type alleles. There are 2 different alleles for the Rh factor known as Rh+ and Rh-. Someone who is "Rh positive" has at least one Rh+ allele, but could have two. The alleles for the Rh factor are D or d. Genotype for Rh Positive: or Genotype for Rh negative: If someone is Rh positive, then they produce the protein and it is carried in the plasma (liquid portion) of blood. If someone is Rh negative, they do not produce the protein. The importance of the Rh factor, aside from causing problems during transfusions, is during the of human babies. Pregnancy and the Rh factor: If an Rh mother is pregnant with an Rh baby, the child could die. This is due to created by the mother s blood to stop the invasion of their system with the detrimental Rh positive blood of her unborn child. Small amounts of fetal blood cross the placenta and come in contact with the mother s immune system usually late in pregnancy or during delivery, and this stimulates the production of antibodies to the Rh factor. Although death of a child during the first pregnancy is rare, the possibility for death becomes greater with each succeeding pregnancy. A vaccination is administered to an Rh negative mother who is giving birth to an Rh positive child to prevent the problem in future pregnancies. 3

Blood Group Practice Problems: Example 1:homozygous maletype B ( ) x heterozygous female Type A ( ) I B I B I A i Genotypes:, Genotypic Ratio: : Phenotypes: Type, Type Phenotypic ratio: : Example 2: male Type O ( ) x female type AB ( ) i i I A I B Genotypes:, Genotypic Ratio: : Phenotypes: Type, Type Phenotypic ratio: : Example 3: Mom is heterozygous for type B blood. Dad is heterozygous for type A blood. What are the possible blood types for their children? P 1 generation: x Genotypes:,,, Genotypic Ratio: : : : Phenotypes: Type, Type, Type, Type Phenotypic ratio: : : : Example 4: If a boy has a blood type O and his sister has blood type AB, what are the genotypes and phenotypes of their parents? boy: type O ( ) and girl: type AB ( ) 4

Parent genotypes: and Parent phenotypes: and Example 5: Disputed Parentage A lady has a baby but she is unsure who is the father. The child has AB blood and the mother has type A. We know a man with Type blood could not be the father. The father would have to have type or blood. Remember: Blood tests alone cannot prove a definite father, it only indicates that it is a possibility. Example 6: Suppose that a woman with type O blood marries a man with Type AB blood. What are the expected genotypes and phenotypes of their children? P 1 generation: x Genotypes: Genotypic Ratio: Phenotypes: Phenotypic ratio: Example 7: Two parents, both with type A blood, have a son with type O blood. What are the genotypes of the parents. P 1 generation: x Example 8: A couple preparing for marriage have their blood typed. Both are AB. What are the possible blood types of their children and the percentage of each? P 1 generation: x Genotypes:,, Genotypic Ratio: : : Phenotypes:Type,Type, Type Phenotypic ratio: : : 5

Example 9: Mr. and Mrs. Fleming, both with type B blood, claimed that a certain JR Wilson, a billionaire technology tycoon, was the father of Mrs. Fleming s recent 4 month old baby. The Flemings took the issue to court, charging that Mr. Wilson was the father and that he should pay $300,000 per year to the Flemings for child support. Mr. Wilson s blood type is AB. The baby is type O. Prove that the baby is not Mr. Wilson s. b. Is it possible that the baby is Mr. Fleming s? Explain. Example 10: Would it be possible for a child to have O type blood if one parent is type A and the other is type B? P 1 generation: x Example 11: Cross I B idd x I A I B Dd. Give the phenotypes in the offspring and the ratio. I B D I B d id id I A D I A I B DD Phenotypes: AB +, AB - A +, A B +, B - 6

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