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Name ________________________ Monohybrid Cross Homework Problems Answer the following questions on a separate sheet of paper. 1. Make a list of the seven pairs of contrasting traits Mendel found garden peas to have. State which is dominant and which is recessive. 2. The gene for black coat color is dominant in guinea pigs. How is homozygous black different from heterozygous black, even though the guinea pigs look alike? 3. When two hybrid animals are crossed, there appear among the offspring homozygous dominant, heterozygous and homozygous recessive individuals. Explain. 4. When two parents that are heterozygous for one trait are crossed, what ratio of offspring (F1 generation) is expected to show the dominant trait and what ratio are expected to show the recessive trait. 5. In guinea pigs, black coat color is dominant over white coat color. What type of offspring could result from a cross between a homozygous black guinea pig and a heterozygous black guinea pig? Use a Punnett Square to obtain your results. Include genotype and phenotype ratios. 6. A pea plant, homozygous for yellow seeds, was crossed with a pea plant homozygous for green seeds. What is the genotype and phenotype of the F1 and F2 generations? 7. In fruit flies, normal wings are dominant over vestigial wings. What type of offspring could result from a cross involving a homozygous normal-winged fruit fly and a vestigial-winged fruit fly? Give the genotype and phenotype ratios. 8. The gene for purple flowers is dominant over the gene for white flowers. What type of offspring would result from a cross of a purple (homozygous) flowered plant with one producing white flowers? Give the genotype and phenotype ratios. 9. Mendel crossed a purebred smooth pea, which is dominant, with a purebred wrinkled pea. Give the results of the F1 and F2 generations. Give the genotype and phenotype ratios. 10. Mendel crossed a hybrid tall pea plant with a hybrid tall pea plant. Give the results of their offspring. Give the genotype and phenotype ratios. Dihybrid Cross Homework Problems Answer the following questions on a separate sheet of paper. 1. A right-handed, blue-eyed man marries a right-handed, brown-eyed woman. They have two children, one left-handed and brown-eyed and the other right-handed and blue-eyed. By a later marriage with another woman, who is also right-handed and brown-eyed, this man has nine children all of whom are right-handed and brown-eyed. What are the genotypes of this man and his two wives? 2. A brown-eyed, right-handed man marries a blue-eyed, right-handed woman. Their first child is blue-eyed and left-handed. If other children are born to this couple, in what combinations and proportions will their appearance be as to these two traits? 3. In horses, black is due to a dominant gene B, chestnut to its recessive allele b. The trotting gait is due to a dominant gene T, pacing to its recessive allele t. A homozygous black trotter is crossed with a chestnut pacer. What sort of foals will result in several crosses of this type? Give the genotype and phenotype ratios. 4. Some dogs bark when trailing, others are silent. The barking trait is due to a dominant gene. Erect ears are dominant to drooping ears. What kind of pups would be expected from a cross involving a heterozygous erect-eared barker mated to a droop-eared silent trailer? Give the genotype and phenotype ratios. 5. A farmer crossed pea plants that produce green seeds and were short with plants that were pure for yellow seeds and tallness. What types of offspring would result from the cross? (Remember: tall is dominant and so is yellow!) 6. In guinea pigs, black coat color and short hair are both due to dominant genes. What type of offspring would result from a cross involving two heterozygous black, shorthaired guinea pigs? (NOTE: long hair and white coat color are recessive.) 7. In tomatoes, red fruit is dominant over yellow and tall vines are dominant over short vines. A tomato breeder has pure races of yellow-fruited tall plants and red-fruited short plants. He wants a pure race of red-fruited tall plants. If he crosses the two races, what phenotypes does he have in the F1? 8. A freckled- blue-eyed man married a brown-eyed woman without freckles. What are the possibilities for their offspring? (NOTE: the man is heterozygous for freckles and the woman’s mother had blue eyes.) 9. A pure line black, curly rabbit was mated with a pure line white, straight-haired rabbit. Black hair and curly are dominant. Give the F1 and F2 generations of offspring with ratios. 10. A right-handed, blue-eyed man whose father was left-handed marries a left-handed, browneyes woman from a family in which all the members have been brown-eyed for several generations. What offspring may be expected from this marriage as to these traits? Pedigree Practice Incomplete and Codominance Worksheet Name: Period: Date: Answer the following questions. Provide a punnett square to support your answers where indicated. Express probabilities as percentages. For instance, a probability of one chance in ten would be 10%. (Non-mendelian monohybrid crosses) 1. Explain the difference between incomplete dominance and codominance: 2. In some chickens, the gene for feather color is controlled by codiminance. The allele for black is B and the allele for white is W. The heterozygous phenotype is known as erminette. a. What is the genotype for black chickens? ____ b. What is the genotype for white chickens? ____ c. What is the genotype for erminette chickens? ____ 3. If two erminette chickens were crossed, what is the probability that: a. They would have a black chick? ____% b. They would have a white chick? ____% Parents: ____ X ____ 4. A black chicken and a white chicken are crossed. What is the probability that they will have erminette chicks? ____% Parents: ____ X ____ 5. In snapdragons, flower color is controlled by incomplete dominance. The two alleles are red (R) and white (W). The heterozygous genotype is expressed as pink. a. What is the phenotype of a plant with the genotype RR? ___________ b. What is the phenotype of a plant with the genotype WW? ___________ c. What is the phenotype of a plant with the genotype RW? ___________ 6. A pink-flowered plant is crossed with a white-flowered plant. What is the probability of producing a pink-flowered plant? ____% Parents: ____ X ____ 7. What cross will produce the most pink-flowered plants? Show a punnett square to support your answer. Parents: ____ X ____ 8. Another type of non-mendelian trait: Multiple alleles. Human hair color is controlled by one gene with four alleles (with some incomplete dominance): HBr = brown HBd = blonde hR = red hbk = black The possible genotypes and phenotypes: HBdHBd or HBdhbk = blonde HBdHBr = mousy brown HBdhR = strawberry blonde HBrHBr or HBr hbk = brown HBrhR = auburn hRhR or hRhbk = red hbkhbk = black What do you think your parent’s phenotypes and genotypes for hair color are? What are your phenotype and genotype for hair color? If someone with auburn hair has children with someone with red hair (but whose mother had black hair), what are the genotype and phenotype probabilities for their children? Name __________________________ Sex-linked Traits 1. Colorblindness is a sex-linked trait. It is carried on the X chromosome. List the genotypes below for each person listed. A normal female ______________ A normal male ________________ A carrier female _______________ A colorblind male ______________ A colorblind female ____________ 2. Can a male be a carrier for colorblindness? Why or why not? 3. Show the genotype and phenotype ratios possible for the children of a colorblind man and a carrier woman. 4. Hemophilia is also a sex-linked trait carried on the X-chromosome. Is it possible for a hemophilic woman to have normal sons? Show a Punnett Square to prove your answer. Human Blood Types 1. List the four human blood types and the genotypes that go with them. Type _____ = ______________________ Type _____ = ______________________ Type _____ = ______________________ Type _____ = ______________________ 2. Is it possible for a man with Type A blood and a woman with Type B blood to have a child with Type O blood? Use a Punnett Square to support your answer. 3. An extremely rich elderly couple died in a car accident. They had no known living relatives. A man shows up claiming to be their long lost son. The elderly couple both had Type AB blood. The man claiming to be their son has Type O blood. Does this man have a claim to their fortune? Use a Punnett Square to support your answer. 4. A woman with Type A blood and a man with Type AB blood have a baby. The woman is suing the man for child support, but he is refusing to pay because he says the baby (who has Type O blood) is not his. Is he right or should he be paying child support? Use a Punnett Square to prove your answer.