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1. The father of genetics is_____. A. Charles Darwin B. Gregor Mendel C. James Watson

1. The father of genetics is_____. A. Charles Darwin B. Gregor Mendel C. James Watson D. Albert Einstein . ___.

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1. The father of genetics is_____. A. Charles Darwin B. Gregor Mendel C. James Watson

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  1. 1. The father of genetics is_____. A. Charles Darwin B. Gregor Mendel C. James Watson D. Albert Einstein ___

  2. 3. Mendel studied the inheritance of ___________ in the garden pea. A. seed size B. seed color C. flower size D. all of the above ___

  3. 5. According to the blending theory of inheritance, a cross between plants with red flowers and plants with white flowers wouldyield only _____. A. plants with red flowers B. plants with white flowers C. plants with red and white flowers D. plants with pink flowers ___

  4. 7. Mendel's experiments are as applicable today as they were in 1860 due to _____. A. his careful experimental design B. his use of statistics to interpret his results C. his careful records of the numbers of offspring that expressed each characteristic D. all of the above ___

  5. 8. Mendel's true-breeding pea plants were created by _____. A. self-pollination B. cross-pollination ___

  6. 12. When an organism has two different alleles at a gene locus, it is referred to as _____. A. homozygous recessive B. homozygous dominant C. heterozygous ___

  7. 13. The allele that is expressed in a heterozygous organism is the _____ allele. A. dominant B. recessive ___

  8. 14. The word __________ refers to the alleles an individual receives at fertilization. A. genotype B. phenotype C. allotype D. lenotype ___

  9. 15. Which of the following is a phenotype? A. Tt B. heterozygous C. short D. T ___

  10. 16. When Mendel crossed a true-breeding tall plant with a true-breeding short plant the offspring were _____. A. 100% tall B. 50% tall, 50% short C. 100% medium ___

  11. 17. The product of a cross between two different strains that differ in regard to only one trait is known as a _____. A. true-breeding organism B. hybrid C. dihybrid D. homozygous organism ___

  12. 19. When Mendel crossed the hybrids (F1 generation) _____. A. all the plants were tall B. all the plants were medium height C. 3/4 of the plants were tall, 1/4 of the plants were short ___

  13. 20. Mendel's law of segregation states _____. A. parents of contrasting appearance produce offspring of intermediate appearance B. factors for each trait separate during gamete formation C. organisms have two factors for each trait D. both B and C ___

  14. 21. A cross between two hybrids results in a _____ phenotypic ratio. A. 9:3:3:1 B. 1:2:1 C. 3:1 D. 1:1:1:1 ___

  15. 23. Each physical trait is controlled by _____ allele(s). A. one B. two C. three D. four ___

  16. 24. Mendel's true-breeding short plants in the P generation were _____. A. homozygous recessive B. homozygous dominant C. heterozygous ___

  17. 25. There is only one allele for each trait in the gametes because _____. A. each organism has only one allele for each trait B. the homologous chromosomes separate during meiosis I C. mitosis reduces the number of chromosomes when gametes are formed ___

  18. 26. The recessive phenotype is displayed by organisms which are _____. A. homozygous dominant B. homozygous recessive C. heterozygous ___

  19. 27. Which of the following represents a heterozygous genotype? A. TT B. Tt C. tt D. tall ___

  20. 28. Each gamete has only one allele for each trait because gametes are always _____. A. haploid B. diploid ___

  21. 29. A heterozygous (for one trait) organism can produce ______. A. only one type of gamete B. two types of gametes ___

  22. 30. Which of the following gametes would Mendel's true-breeding tall plants in the P generation have produced? A. T B. T or t C. t ___

  23. 34. If a person is heterozygous for unattached earlobes, their genotype must be _____. A. EE B. Ee C. ee ___

  24. 35. Which of the following represents a type of gamete? A. Tt B. TT C. t D. tt ___

  25. 39. Mendel relied heavily on his knowledge of ____ to interpret the results of his experiments. A. anatomy B. microbiology C. statistics D. physics ___

  26. 40. The probable results of a genetic cross can be determined by using _____. A. a Punnett square B. the laws of probability C. both A and B ___

  27. 42. If yellow seed color is dominant over green seed color in pea plants, we could use _____ to represent a homozygousdominant yellow seed producing plant. A. Y B. y C. YY D. Yy ___

  28. 44. Mendel crossed his F1 generation tall plants with true-breeding, short plants. The results were a __________ phenotypicratio. A. 1:1 B. 2:1 C. 3:1 D. 4:1 ___

  29. 45. If an individual with the dominant phenotype is crossed with an individual with the recessive phenotype and all the offspringhave the dominant phenotype, it would be concluded that the individual with the dominant phenotype is _____. A. homozygous dominant B. heterozygous ___

  30. 48. If the chance of E = 1/2 and the chance of e = 1/2, then the chance of Ee = _____. A. 1/2 B. 1/4 ___

  31. 49. E = unattached earlobes. e = attached earlobes. In the cross of Ee and Ee, the chance of a child with unattached earlobesis _____. A. 1/2 B. 1/4 C. 3/4 ___

  32. 51. The mother can roll her tongue (dominant phenotype), but her child cannot (recessive phenotype). The mother's phenotypemust be _____. A. TT B. Tt C. tt ___

  33. 52. A mother and child can roll their tongues (dominant phenotype), but the father cannot (recessive phenotype). The child'sphenotype must be _____. A. TT B. Tt C. tt ___

  34. 53. If two flies heterozygous for wing length and body color are crossed, which of the following are possible results? A. chance of L, long wings = 3/4 B. chance of l, short wings = 1/2 C. Chance of G, grey body = 1/4 D. all of the above are true ___

  35. 54. A cross in which true-breeding plants differ in two traits is known as a __________ cross. A. test B. dihybrid C. multi trait D. hybrid ___

  36. 56. How many different types of gametes can a fly with the genotype LlGg produce? A. one B. two C. three D. four ___

  37. 57. When two dihybrid organisms are crossed and simple dominance is present in both genes a _____ phenotypic ratio willresult. A. 1:2:1 B. 3:1 C. 9:3:3:1 D. 1:1:1:1 ___

  38. 59. The organism with the genotype LLGg will produce _____ type(s) of gamete(s). A. one B. two C. three D. four ___

  39. 62. Which of the following types of gametes is not produced by an organism with the genotype LLGg? A. LG B. lG C. Lg ___

  40. 65. In dihybrid genetics problems, the individual has _____ allele(s). A. one B. two C. three D. four ___

  41. 68. Which of the following genotypes represents an organism that is homozygous recessive for two traits? A. lg B. Llgg C. llgg D. LLGG ___

  42. 72. If the parents are heterozygous for cystic fibrosis (Ff x Ff), then each offspring has a _____ chance of having cysticfibrosis. A. 2% B. 25% C. 50% D. 75% ___

  43. 73. Selective breeding can be used to produce _____. A. crops with higher yields B. sheep with thicker coats C. chickens that lay larger eggs D. all of the above ___

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