5. An allele that expresses its phenotype even when heterozygous with a recessive allele is termed
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1 Page 1 of 6 Genetics Spring 2008 Exam 1 Wolf Notes: Below are the correct answers. It may be possible for alternative answers to be correct so if you can convince me of an alternative answer you will get the points. I will be away until Monday afternoon, so if there is a problem that needs attention before then, please Jeremy. Answers in BOLD 1. Suppose that in plants, smooth seeds (S) are dominant to wrinkled seeds (s) and tall plants (T) are dominant to short plants (t). You cross a true breeding smooth seeded tall plant with a true breeding wrinkled seeded short plant, you then backcross the F1 to the parent that was short and wrinkled. What proportion of the progeny is expected to be heterozygous for tall and smooth? A. 1/2 B. 1/4 C. 1/8 D. 1/16 E Sickle cell anemia is a recessive trait in humans. In a cross between a father who has sickle cell anemia and a mother who is heterozygous for the gene, what is the probability that their first three children will be normal? A. 1/4 B. 1/2 C. none D. 1/8 E. 1/16 will be albino 3. The following is a list of mitotic events in random order. A-Chromosomes align on the midplate of the cell. B-Kinetochores begin attaching to spindle fibers. C-Nuclear membrane reforms, chromosomes decondense. D-Chromosomes condense, centrosomes migrate to opposite sides of nucleus. E-Sister chromatids separate, move to opposite poles. What is the correct order of events? A. BDACE B. DABEC C. DBAEC D. ABDCE E. EDBAC 4. The stage of mitosis when chromosomes condense to form rod-shaped structures visible under the microscope is called A. interphase. B. prophase. C. metaphase. D. anaphase. E. telophase. 5. An allele that expresses its phenotype even when heterozygous with a recessive allele is termed
2 Page 2 of 6 A. recessive. B. recombinant. C. dominant. D. parental. E. independent. 6. An alternative form of a single gene is known as a(n) A. parental. B. dihybrid. C. reciprocal. D. allele. E. recessive. 7. A phenotype reflecting a new combination of genes occurring during gamete formation is called A. a recombinant type. B. an independent assortment. C. heterozygous. D. homozygous. E. a multihybrid cross. 8. If the parents of a family already have two boys, what is the probability that the next two offspring will be girls? A. 1 B. 1/2 C. 1/3 D. 1/4 E. 1/8 9. In the following pedigree, the indicated trait is most likely caused by what type of allele? A. autosomal recessive B. autosomal dominant C. X-linked recessive D. X-linked dominant E. Y-linked Square = male, Circle = female 10. The blood groups A, B and O show A. complete dominance. B. recessiveness. C. codominance.
3 Page 3 of 6 D. complete dominance, recessiveness, and codominance E. none of the choices are correct. 11. The stage of mitosis when sister chromatids separate from each other and migrate to opposite poles of a cell is called A. interphase. B. prophase. C. metaphase. D. anaphase. E. telophase. 12. Drosophila melanogaster has four pairs of chromosomes. Sperm from this species are formed by a meiotic process in which homologous chromosomes pair and segregate but do not undergo crossing over. How many genetically different kinds of sperm could be produced by a Drosophila melanogaster male? A. 4 B. 8 C. 16 D. 64 E Crossing over between homologous chromosomes occurs at which of the following stages of meiosis? A. S phase B. prophase I C. metaphase I D. anaphase I E. prophase II 14. If a geneticist were to closely examine the make-up of a single autosomal chromosome from one of your cells, that chromosome would be found to be A. derived entirely from genes from just one of your grandparents. B. a mosaic of genes derived from your mother and father. C. a mosaic of genes derived from all four of your grandparents. D. a mosaic of genes derived from just two of your grandparents either your two grandfathers or your two grandmothers. E. a mosaic of genes derived from just two of your grandparents either your maternal grandparents or your paternal grandparents. 15. Which aspect(s) of chromosome behavior is/are primarily responsible for the tremendous amount of genetic variability associated with sexual reproduction? A. Segregation of sister chromatids at anaphase II of meiosis. B. Segregation of homologous chromosomes at anaphase I of meiosis. C. Crossing over between homologous chromosomes during prophase I of meiosis. D. Independent alignment of different homologous pairs on the metaphase I spindle. E. Both crossing over between homologous chromosomes during prophase I of meiosis and independent
4 Page 4 of 6 alignment of different homologous pairs on the metaphase I spindle contribute to the generation of variability. 16. The chromosomal structure to which spindle fibers attach during the mitotic divisions is referred to as a A. chromatid. B. centrosome. C. kinetochore. D. metaphase plate. E. centromere. 17. If an individual has 10 gene pairs, how many different gametes can be formed if three of the gene pairs are homozygous and the remaining 7 gene pairs are heterozygous? A. 49 B. 100 C. 128 D E. 131, In chickens, it is the females that have two different sex chromosomes (Z and W) while the males have two Z chromosomes. A Z-linked gene controls the pattern of the feathers with the dominant B allele causing the barred pattern and the b allele causing non-barred feathers. From which of the following crosses would all of the daughters be of one type (barred or non-barred) and all of the sons the other type? A. barred females non-barred males B. non-barred females barred males C. non-barred females non-barred males D. barred females barred males E. More than one of the choices are correct. 19. Humans have 46 chromosomes. At the end of meiosis 2, each cell contains chromosomes and chromatids. a. 23, 46 b. 46, 46 c. 46, 92 d. 23, 23 e. 46, In a traditional statistical analysis (such as the Chi square test), the p-value is the probability of: A. getting up to the observed deviation from the expected given a FALSE null hypothesis B. getting up to the observed deviation from the expected given a TRUE null hypothesis C. the ratios observed being evidence of linkage D. the ratios observed being evidence of the null hypothesis E. recombination occurring in the gametes
5 Page 5 of A true breeding purple flowered plant is crossed with a true breeding pink flowered plant. The F1 have only red flowers. Intercrossing the F1 produces an F2 in a ratio of 9 red : 3 purple : 3 pink : 1 white. A. 1 gene with 4 alleles B. 2 genes, each with 2 alleles related by complete dominance C. 2 genes, each with 4 alleles related by codominance D. 3 genes, each with 3 alleles related by complete dominance E. 2 genes, with recessive epistasis 22. Suppose there are 3 alleles for mouse coat color. AA homozygotes are white, BB homozygotes are brown and CC homozygotes are black. What is the dominances series of the 3 alleles given the following crosses? AA BB CC AA white brown black BB brown brown CC black A>B>C A>C>B B>A>C B>C>A C>B>A 23. In the following pedigree, the indicated trait is most likely caused by what type of allele? A. autosomal recessive B. autosomal dominant C. X-linked recessive D. X-linked dominant E. Y-linked 24. In animal gametogenesis, a single primary spermatocyte generates sperm, while a single primary oocyte generates egg(s). A. 1, 4 B. 1, 1
6 Page 6 of 6 C. 4, 2 D. 4, 1 E. 4, This question can be answered in many ways, including graphics. 1. Define or explain the following 4 terms, as they are used in genetics: dominant, recessive, co-dominant, and partially (incompletely) dominant. Give examples of each (invent your own if you cannot remember specific ones from the book). Dominant: An allele is dominant, relative to a second allele, if it expresses its phenotype in an individual heterozygous for the two alleles. Recessive: A recessive allele does not express its phenotype when heterozygous. Co-dominant: Two alleles are codominant if BOTH are expressed in a heterozygote. Partially dominant: An allele is partially dominant if the phenotype of the heterozygote is not the same as either homozygote.
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