B. ABO Frequencies Agora The ABO Blood Group System has one genetic locus that exhibits three (3) alleles: IA, IB, and i and four phenotypic traits: A, B, AB, and O. Because there are three alleles on one locus and the I^ and I are codominant over i, we will use the Hardy-Weinberg equations for three alleles. What is the possible genotype for this 7. What is the codominant phenotypic trait? trait? 8. What is the recessive phenotypic trait? trait? 9. What are the other possible phenotypic traits? genotypes for these traits? What is the possible genotype for this What are the other possible 10. Calculate the allele and genotype frequencies and the population estimates for the A and B anti- gens in the Biol 3302L population and show the calculations in the space provided.

Please fill in UV-13 A and B

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B. ABO Frequencies Ta dere The ABO Blood Group System has one genetic locus that exhibits three (3) alleles: IA, IB, and i and four phenotypic traits: A, B, AB, and O. Because there are three alleles on one locus and the I and I are codominant over i, we will use the Hardy-Weinberg equations for three alleles. What is the possible genotype for this 7. What is the codominant phenotypic trait? trait? 8. What is the recessive phenotypic trait? trait? 9. What are the other possible phenotypic traits? genotypes for these traits? 10. Calculate the allele and genotype frequencies and the population estimates for the A and B anti- gens in the Biol 3302L population and show the calculations in the space provided. [table 11. Fill in Table UV-13 with the frequencies and estimates calculated using the Hardy-Weinberg Equa- tions 3 and 4 along with the quadratic equation and formula. A Alleles Table UV-13. A) Allele and B) Genotype frequencies and population estimates for the A and B antigens (n=_ р q r JA [B i Dominance Total = Allele Frequencies danica.anoushunis What is the possible genotype for this B Genotype Phenotypic Trait JAIA I^i p² 2pr 2pq q² IBIB 2qr IBi ² ii What are the other possible JAIB Total = Genotype Population Estimates Frequencies UV-18

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2190 Part 5: Calculating Frequencies Over several semesters, a population of ISU students from the Anatomy and Physiology II Laboratory typed their blood. In lab today, we will use their results to predict the allele and genotype frequencies in the Biol 3302L population. Divide into 12 separate groups with one to two people per group. Write you groups number on the top of page UV:17. Your instructor will project the data. 1. Determine the total number of students that typed their blood; n = 322 2. Fill in Table UV-11 with the number of students express- ing the different phenotypic traits. Table UV-11. ABO and Rh phenotypes ex- pressed by the students in Biol 3302L. ABO Phenotype Number of Students 126 49 32 A. Rh (D antigen) Frequencies ong Remember the Rh Blood Group System has one genetic locus that exhibits two (2) alleles: D and d and two pheno- types: Rh+ and Rh-. The Rh blood groups are determined by the presence (+) or absence (-) of the D antigen on sur- face of red blood cells. There are two possible alleles for the Rh factor: a dominant allele (D) which encodes for the D antigen protein on red blood cells, and a recessive allele (d) which does not encode for the D antigen. 3. What are the possible genotype(s) for the dominant Rh trait: 4. What are the possible genotype(s) for the recessive Rh trait: od jonnee A B AB O Rh Phenotype Rh+ Rh- 115 Number of Students 2.50 72 UV-16