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Revisiting Dihybrid Punnett Squares • What exactly is a dihybrid cross? – Predicting the outcomes from crossing 2 traits. • Why do we use them? – Instead of doing to monohybrid crosses, you can combine them to see all the possible combinations from that particular mother and father. Dihybrid Crosses Cont’d • What do the tops and sides of a Punnett Square represent? – The gametes from the mother and father that are going to mix (fertilize) to make the possible offspring in the middle. Each gamete is haploid. The mother’s eggs can have either W or w; father’s sperm can have either W or W. W W W WW WW w Ww Ww Webbed feet (W) in ducks are dominant to un-webbed (w) feet. If a mother duck is heterozygous for webbed feet, and the father is homozygous for webbed feet, will any of their ducklings have un-webbed feet? Mother = Ww, Father = WW Dihybrid Crosses Cont’d • Why do we have a Punnett Square with 4 boxes on each side instead of 2? – There will be 2 possible alleles that can be passed on for each trait. You will have 4 total options to include all the possibilities of combining the 2 traits. Mother: WB,Wb, wB, wb Short beaks (b) in ducks are recessive to long beaks (B) feet. If a father duck has a short beak, and the mother is a carrier for short beaks, will any of their ducklings have the same type of beak as their mother?? Father: Wb, Wb, Wb, Wb Mother = bb, Father = Bb The mother can pass on a B or a b; the father can pass on a b or a b towards the beak trait. Remember, the mother can pass on a W or a w allele for webbed feet and the father can pass on a W or a W… SO, all the possible gamete combinations are: Putting it all together… Mother’s gamete choices: WB, Wb, wB, wb Father’s gamete choices: Wb, Wb, Wb, Wb By taking all the daughter cell possibilities, we’re covered no matter what gametes end up getting fertilized to restore diploidy. Wb Wb Wb Wb WB WWBb WWBb WWBb Wb WWbb WWbb WWbb WWbb wB WwBb WwBb WwBb WwBb Wwbb Wwbb Wwbb Wwbb wb WWBb Continuing our exploration of patterns of inheritance with… Codominance, Polygenic Inheritance and Blood Types Codominance • Heterozygote expresses both alleles’ conditions – Ex. A black rooster bred with a white hen produces a black and white checkered chicken. • Usually uses both capital letters (black= B, white=W , checkered = BW) Codominance practice: cross a black rooster with a white hen Key: W W B = black W = white B BW BW B BW BW BW = checkered Results: 100% checkered (BW) Now let’s cross a checkered hen with a checkered rooster. B W B BB BW W BW WW Results: 25% Black 50% Checkered 25% White (1:2:1) Polygenic Inheritance • Trait controlled by 2 or more genes • May be on the same or different chromosomes • Shows a range, intermediate is most common phenotype • Upper and lower case letters used Skin color: A polygenic trait Determining # of Genes Involved in Skin Color Expected distribution- 4 genes Number of individuals Observed distribution of skin color Expected distribution1 gene Light Expected distribution- 3 genes Right Range of skin color And the answer is… • Skin color is actually due to 5 genes • Genotypes darkest to lightest: –AABBCCDDEE would be darkest skinned –AaBbCcDdEe would be medium skinned –aabbccddee would be lightest skinned Influence of External Environment • In arctic foxes temperature has an effect on the expression of coat color. In winter, fur is white; in summer, fur is brown Influence of External Environment • Leaves can have different sizes, thicknesses, and shapes depending on the amount of light they receive. Influence of Internal Environment • The internal environments of males and females are different because of hormones and structural differences. • An organism’s age can also affect gene function. – Ex. Adult male lion’s manes Coloration may also be caused by differences in hormones between sexes Peacock (male) Peahen (female) Blood type quick facts • Red blood cells are called erythrocytes • Proteins on their surfaces are called antigens, controlled by genes • Antigens make antibodies to foreign substances, which includes RBCs with different antigens on their surface • 4 phenotypes: A, B, AB, O • 3 alleles: IA, IB, i Phenotype A Surface molecule A • The lA allele is dominant to i, so inheriting either the lAi alleles or the lA lA alleles from both parents will give you type A blood. • Surface molecule A is produced. Phenotype B • The lB allele is also dominant to i. • To have type B blood, you must inherit the lB allele from one parent and either another lB allele or the i allele from the other. • Surface molecule B is produced. Surface molecule B Phenotype AB • The lA and lB alleles are codominant. • If you inherit the lA allele from one parent and the lB allele from the other, your red blood cells will produce both surface molecules and you will have type AB blood. Surface molecule B Surface molecule A Phenotype O •No antigens produced Check your chart! Blood Group Antigens Antibodies Can receive from Can give to A A B A or O A or AB B B A B or O B or AB AB A and B Both AB O None None A, B, AB, O O A, B, AB, O Possible genotypes for each phenotype: •A= or • B = IBIB or IBi A B • AB = I I • O = ii A A I I A I i Now let’s put your skills to the test… • Can you save these patients?