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Genetics

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TEXAS SOUTHERN UNIVERSITY

UNIT 1

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GENETIC CROSSES Today Geneticists rely on Mendel’s work to Predict the likely outcome of Genetic Crosses. OBJECTIVES: Explain how probability is used to predict the results of genetic crosses. Use a Punnett square to predict the results of monohybrid and dihybrid crosses. Explain how a testcross is used to show the genotype of an individual whose phenotype is dominant. Differentiate a monohybrid cross from dihybrid cross. GENOTYPE AND PHENOTYPE 1. The Genetic Makeup of an organism is its GENOTYPE. The Genotype consists of the alleles that the organism inherits from its parents. 2. Pea plant flower color could be PP, Pp or pp. The P allele is the Dominant allele and represents purple flowers (PP or Pp). The p allele is the Recessive allele. Two Recessive alleles (pp) give white flowers.
3. The Physical Appearance of an organism as a result of its genotype is called PHENOTYPE. Ex. Color, Shape, Height, etc 4. The Phenotype of a PP or Pp pea plant is Purple Flowers. 5. The Phenotype of a pp pea plant is White Flowers. 6. When Both Alleles of a Pair are ALIKE, the organism is said to be HOMOZYGOUS for that characteristic. An organism may be Homozygous Dominant (genotype PP) or Homozygous Recessive (genotype pp). 7. When the Two Alleles in the Pair are DIFFERENT, the organism is HETEROZYGOUS (genotype Pp) for that characteristic. PROBABILITY 1. Probability is the likelihood that a specific event will occur or is the likely outcome a given event will occur from random chance. 2. A Probability may be expressed as a Decimal (0.75), a Percentage (75%), or a Fraction (3/4).
3. Probability is determined by the following Equation: PROBABILITY = Number of times an event is expected to happen Number of opportunities for an event to happen 4. The results predicted by probability are more likely to occur when there are many trials. 5. With each coin flip there is a 50% chance of heads and 50% chance of tails. 6. Chance of inheriting one of two alleles from a parent is also 50%. PREDICTICTING RESULTS OF A MONOHYBRID CROSSES 1. A cross between individuals that involves One Pair of Contrasting Traits is called a MONHYBRID CROSS. 2. 2. A cross between a pea plant that is pure for producing purple flowers (genotype PP) and one that is pure for producing white flowers (genotype pp) is an example of a Monohybrid Cross.
3. Biologist use a Diagram called a PUNNETT SQUARE to aid in predicting the probability that certain traits will be inherited by offspring. 4. This tool provides a simple method to calculate probable results of a genetic cross. 5. In a Punnett square, all possible types of sperm alleles are lined up vertical, all possible egg alleles are lined up horizontally; every possible combination is placed in squares.
Example 1: HOMOZYGOUS X HOMOZYGOUS P = Dominant Purple p = Recessive White 1. Genotype PP X Genotype pp. 2. The combination of Alleles in the Punnett Square indicate all the possible genotypes that can result from the cross. The predicted genotype is Pp every case. 3. There is a 100% probability that the offspring will have the Genotype Pp (Heterozygous Dominant) and the Phenotype purple flower color.
Example 2: HOMOZYGOUS X HETEROZYGOUS B = Dominant Black b = Recessive Brown 1. Genotype BB X Genotype Bb 2. The combination of Alleles in the Punnett Square indicates all the possible genotypes that can result from the cross. The predicted genotype BB is 2/4 or 50 % and the genotype Bb is 2/4 or 50 %. 3. There is a 50% probability that the offspring will have the Genotype BB (Homozygous Dominant) and the Phenotype Black. 4. There is a 50% probability that the offspring will have the Genotype Bb (Heterozygous dominant) and the Phenotype Black. 5. The probability of the Phenotype of Black coat in every case is 4/4 or 100%.
Example 3: HETEROZYGOUS X HETEROZYGOUS B = Dominant Black b = Recessive Brown 1. Genotype Bb X Genotype Bb 2. The combination of Alleles in the Punnett Square indicates all the possible genotypes that can result from the cross. The predicted genotype BB is 1/4 or 25 % and the genotype Bb is 2/4 (1/2) or 50 % and genotype bb is 1/4 or 25%. 3. 3/4 or 75% of the offspring from this cross are predicted to have a Black Coat and 1/4 or 25% of the offspring are predicted to have a Brown Coat. 4. The Ratio of the Genotypes that appear in offspring is called the GENOTYPIC RATIO (1:2:1). 5. The Ratio of the Phenotypes that appear in offspring is called the PHENOTYPIC RATIO (3:1).
Example 4: TESTCROSS 1. TESTCROSS are used to determine the genotype of an unknown individual. 2. You perform a Testcross in which an individual of unknown genotype is crossed with a Homozygous Recessive (bb) individual. 3. A Testcross can determine the Genotype of any individual whose Phenotype is dominant. Genotypes BB or Bb. 4. If the unknown genotype is homozygous black (BB), all offspring will be black. 5. If the genotype is heterozygous (Bb), about ½ the offspring will be black. 6. If the cross produces one brown offspring in a litter of eight, the genotype of the black coated parent is likely to be heterozygous, Bb.
Example 5: INCOMPLETE DOMINANCE 1. When one allele has complete dominance over another, a relationship called COMPLETE DOMINANCE. 2. In Complete Dominance, dominant homozygous plants (PP) and heterozygous plants (Pp) are indistinguishable in Phenotype. Both pea plants have purple flowers. 3. Sometimes, the F1 offspring will have a Phenotype in between that of the Parents, a relationship called INCOMPLETE DOMINANCE. 4. Incomplete dominance occurs when Two or More Alleles Influence the Phenotype, resulting in a Phenotype Intermediate between the Dominant Trait and Recessive Trait.
5. In four o’clocks both the Allele for Red Flowers (R) and the Allele for White Flowers (r) influence the Phenotype. 6. Neither Allele is completely dominant over the other Allele. 7. When four o’clocks self-pollinate, red flowering plants produce only red flowering offspring, and white flowering plants only produce white flowering offspring. 8. However, when red four o’clocks are crossed with white four o’clocks the F1 offspring all have pink flowers. 100% of the offspring of this cross have the Rr Genotype, which results in the Pink Phenotype.
Example 6: CODOMINANCE 1. CODOMINANCE occurs when Both Alleles for a gene are Expressed in a Heterozygous offspring. 2. In Codominance neither Allele is Dominant or Recessive, nor do alleles blend in the phenotype. 3. A Capital Letter is used for one allele (R), the other allele is a Capital Letter and apostrophe (R’). Giving the Genotype RR’. Example: Roan Cow or Horse. There are equal amounts of white hair and red hair blending together to give a color that is a combination of the two.
PREDICTING RESULTS OF DIHYBRID CROSSES
1. A DIHYBRID CROSS is a cross between individuals that involves TWO Pairs of Contrasting Traits. 2. Predicting the results of a Dihybrid Cross is more complicated that predicting the results of a Monohybrid cross because there are more possible combinations. Example 1: HOMOZYGOUS X HOMOZYGOUS R = Dominant Round r= Recessive Wrinkled Y = Dominant Yellow y= Recessive Green 1. Suppose you wanted to predict the results of a cross between a pea plant that is homozygous for round, yellow seeds (RRYY), and one the is homozygous for wrinkled, green seeds (rryy).
2. The Punnett square is used to predict the results of the cross, and contains 16 boxes. 3. The independently assorted alleles from one parent – RY, RY, RY, RY, listed along the left side of the Punnett Square. 3. The independently assorted alleles from one parent – ry, ry, ry, ry, listed along the top of the Punnett Square. 4. The Genotype for all the offspring of this cross will be Heterozygous for both Traits, RrYy, and the Phenotype of all the offspring will have Round and Yellow Seeds.
Example 2: HETEROZYGOUS X HETEROZYGOUS R = Dominant Round r= Recessive Wrinkled Y = Dominant Yellow y= Recessive Green 1. Crossing two Pea Plants Heterozygous for Round and Yellow Seeds, Genotype RrYy. 2. The Gametes for Both Parents will be RY, Ry, rY, ry. 3. The offspring of this Dihybrid Cross will have nine (9) different Genotypes.
4. These nine Genotypes will result in pea plants with the following four (4) Phenotypes: 9/16 with round, yellow seeds (Genotypes RRYY, RRYy, RrYY, and RrYy) 3/16 with round green seeds (Genotypes RRyy, Rryy) 3/16 with wrinkled, yellow seeds (Genotypes rrYY and rrYy) 1/16 with wrinkled, green seeds (Genotype rryy) 5. A phenotypic ratio of 9:3:3:1 is expected when heterozygous for two traits are crossed.
Genetics

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Genetics

  • 1. GENETIC CROSSES Today Geneticists rely on Mendel’s work to Predict the likely outcome of Genetic Crosses. OBJECTIVES: Explain how probability is used to predict the results of genetic crosses. Use a Punnett square to predict the results of monohybrid and dihybrid crosses. Explain how a testcross is used to show the genotype of an individual whose phenotype is dominant. Differentiate a monohybrid cross from dihybrid cross. GENOTYPE AND PHENOTYPE 1. The Genetic Makeup of an organism is its GENOTYPE. The Genotype consists of the alleles that the organism inherits from its parents. 2. Pea plant flower color could be PP, Pp or pp. The P allele is the Dominant allele and represents purple flowers (PP or Pp). The p allele is the Recessive allele. Two Recessive alleles (pp) give white flowers.
  • 2. 3. The Physical Appearance of an organism as a result of its genotype is called PHENOTYPE. Ex. Color, Shape, Height, etc 4. The Phenotype of a PP or Pp pea plant is Purple Flowers. 5. The Phenotype of a pp pea plant is White Flowers. 6. When Both Alleles of a Pair are ALIKE, the organism is said to be HOMOZYGOUS for that characteristic. An organism may be Homozygous Dominant (genotype PP) or Homozygous Recessive (genotype pp). 7. When the Two Alleles in the Pair are DIFFERENT, the organism is HETEROZYGOUS (genotype Pp) for that characteristic. PROBABILITY 1. Probability is the likelihood that a specific event will occur or is the likely outcome a given event will occur from random chance. 2. A Probability may be expressed as a Decimal (0.75), a Percentage (75%), or a Fraction (3/4).
  • 3. 3. Probability is determined by the following Equation: PROBABILITY = Number of times an event is expected to happen Number of opportunities for an event to happen 4. The results predicted by probability are more likely to occur when there are many trials. 5. With each coin flip there is a 50% chance of heads and 50% chance of tails. 6. Chance of inheriting one of two alleles from a parent is also 50%. PREDICTICTING RESULTS OF A MONOHYBRID CROSSES 1. A cross between individuals that involves One Pair of Contrasting Traits is called a MONHYBRID CROSS. 2. 2. A cross between a pea plant that is pure for producing purple flowers (genotype PP) and one that is pure for producing white flowers (genotype pp) is an example of a Monohybrid Cross.
  • 4. 3. Biologist use a Diagram called a PUNNETT SQUARE to aid in predicting the probability that certain traits will be inherited by offspring. 4. This tool provides a simple method to calculate probable results of a genetic cross. 5. In a Punnett square, all possible types of sperm alleles are lined up vertical, all possible egg alleles are lined up horizontally; every possible combination is placed in squares.
  • 5.
  • 6. Example 1: HOMOZYGOUS X HOMOZYGOUS P = Dominant Purple p = Recessive White 1. Genotype PP X Genotype pp. 2. The combination of Alleles in the Punnett Square indicate all the possible genotypes that can result from the cross. The predicted genotype is Pp every case. 3. There is a 100% probability that the offspring will have the Genotype Pp (Heterozygous Dominant) and the Phenotype purple flower color.
  • 7. Example 2: HOMOZYGOUS X HETEROZYGOUS B = Dominant Black b = Recessive Brown 1. Genotype BB X Genotype Bb 2. The combination of Alleles in the Punnett Square indicates all the possible genotypes that can result from the cross. The predicted genotype BB is 2/4 or 50 % and the genotype Bb is 2/4 or 50 %. 3. There is a 50% probability that the offspring will have the Genotype BB (Homozygous Dominant) and the Phenotype Black. 4. There is a 50% probability that the offspring will have the Genotype Bb (Heterozygous dominant) and the Phenotype Black. 5. The probability of the Phenotype of Black coat in every case is 4/4 or 100%.
  • 8. Example 3: HETEROZYGOUS X HETEROZYGOUS B = Dominant Black b = Recessive Brown 1. Genotype Bb X Genotype Bb 2. The combination of Alleles in the Punnett Square indicates all the possible genotypes that can result from the cross. The predicted genotype BB is 1/4 or 25 % and the genotype Bb is 2/4 (1/2) or 50 % and genotype bb is 1/4 or 25%. 3. 3/4 or 75% of the offspring from this cross are predicted to have a Black Coat and 1/4 or 25% of the offspring are predicted to have a Brown Coat. 4. The Ratio of the Genotypes that appear in offspring is called the GENOTYPIC RATIO (1:2:1). 5. The Ratio of the Phenotypes that appear in offspring is called the PHENOTYPIC RATIO (3:1).
  • 9. Example 4: TESTCROSS 1. TESTCROSS are used to determine the genotype of an unknown individual. 2. You perform a Testcross in which an individual of unknown genotype is crossed with a Homozygous Recessive (bb) individual. 3. A Testcross can determine the Genotype of any individual whose Phenotype is dominant. Genotypes BB or Bb. 4. If the unknown genotype is homozygous black (BB), all offspring will be black. 5. If the genotype is heterozygous (Bb), about ½ the offspring will be black. 6. If the cross produces one brown offspring in a litter of eight, the genotype of the black coated parent is likely to be heterozygous, Bb.
  • 10.
  • 11. Example 5: INCOMPLETE DOMINANCE 1. When one allele has complete dominance over another, a relationship called COMPLETE DOMINANCE. 2. In Complete Dominance, dominant homozygous plants (PP) and heterozygous plants (Pp) are indistinguishable in Phenotype. Both pea plants have purple flowers. 3. Sometimes, the F1 offspring will have a Phenotype in between that of the Parents, a relationship called INCOMPLETE DOMINANCE. 4. Incomplete dominance occurs when Two or More Alleles Influence the Phenotype, resulting in a Phenotype Intermediate between the Dominant Trait and Recessive Trait.
  • 12. 5. In four o’clocks both the Allele for Red Flowers (R) and the Allele for White Flowers (r) influence the Phenotype. 6. Neither Allele is completely dominant over the other Allele. 7. When four o’clocks self-pollinate, red flowering plants produce only red flowering offspring, and white flowering plants only produce white flowering offspring. 8. However, when red four o’clocks are crossed with white four o’clocks the F1 offspring all have pink flowers. 100% of the offspring of this cross have the Rr Genotype, which results in the Pink Phenotype.
  • 13. Example 6: CODOMINANCE 1. CODOMINANCE occurs when Both Alleles for a gene are Expressed in a Heterozygous offspring. 2. In Codominance neither Allele is Dominant or Recessive, nor do alleles blend in the phenotype. 3. A Capital Letter is used for one allele (R), the other allele is a Capital Letter and apostrophe (R’). Giving the Genotype RR’. Example: Roan Cow or Horse. There are equal amounts of white hair and red hair blending together to give a color that is a combination of the two.
  • 14. PREDICTING RESULTS OF DIHYBRID CROSSES
  • 15. 1. A DIHYBRID CROSS is a cross between individuals that involves TWO Pairs of Contrasting Traits. 2. Predicting the results of a Dihybrid Cross is more complicated that predicting the results of a Monohybrid cross because there are more possible combinations. Example 1: HOMOZYGOUS X HOMOZYGOUS R = Dominant Round r= Recessive Wrinkled Y = Dominant Yellow y= Recessive Green 1. Suppose you wanted to predict the results of a cross between a pea plant that is homozygous for round, yellow seeds (RRYY), and one the is homozygous for wrinkled, green seeds (rryy).
  • 16. 2. The Punnett square is used to predict the results of the cross, and contains 16 boxes. 3. The independently assorted alleles from one parent – RY, RY, RY, RY, listed along the left side of the Punnett Square. 3. The independently assorted alleles from one parent – ry, ry, ry, ry, listed along the top of the Punnett Square. 4. The Genotype for all the offspring of this cross will be Heterozygous for both Traits, RrYy, and the Phenotype of all the offspring will have Round and Yellow Seeds.
  • 17. Example 2: HETEROZYGOUS X HETEROZYGOUS R = Dominant Round r= Recessive Wrinkled Y = Dominant Yellow y= Recessive Green 1. Crossing two Pea Plants Heterozygous for Round and Yellow Seeds, Genotype RrYy. 2. The Gametes for Both Parents will be RY, Ry, rY, ry. 3. The offspring of this Dihybrid Cross will have nine (9) different Genotypes.
  • 18. 4. These nine Genotypes will result in pea plants with the following four (4) Phenotypes: 9/16 with round, yellow seeds (Genotypes RRYY, RRYy, RrYY, and RrYy) 3/16 with round green seeds (Genotypes RRyy, Rryy) 3/16 with wrinkled, yellow seeds (Genotypes rrYY and rrYy) 1/16 with wrinkled, green seeds (Genotype rryy) 5. A phenotypic ratio of 9:3:3:1 is expected when heterozygous for two traits are crossed.