Lab Mendelian Genetics-Exploring Genetic Probability -Revisiting Mendel s Observations
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1 NAMES: (one packet per partner pair to be turned in) DATE: Lab Mendelian Genetics-Exploring Genetic -Revisiting Mendel s Observations Purpose: Students will 1. Learn that probability is strongly related to genetic outcomes. 2. Determine whether probability supports or does not support the 19 th century data and conclusions of Gregor Mendel. 3. Be introduced to the probability of crossing two traits at a time, known as dihybrid crosses. Vocabulary: Gene Allele Trait Gamete Sperm Egg Heterozygous Homozygous Law of Segregation Law of Independent Assortment Monohybrid Dihybrid Zygote Fertilization Punnett Square Background: When a coin is tossed, it can only one land of two ways-either heads up or tails up. This is similar to when an organism makes gametes. Since an organism receives 2 alleles for a gene, one from the mother of the gamete maker and one from the father of the gamete maker, only one of these alleles will be transferred to a single gamete (sperm or egg)-not both. If the gamete-making organism is a heterozygous (ex. Aa), the resulting gametes will either have the A (dominant) or the a (recessive) allele. Mathematically, this situation is described as that the probability of getting one of the alleles (or side of the coin) over the other is 50%, 0.5, ½ or a 1:1 ratio. Mendal summarized this finding in his Law of Segregation.
2 Part 1: Monohybrid Crosses In this Laboratory Activity, each side of a coin will represent an allele for a trait. Two coins will be tossed, one representing the allele in the sperm and one representing the allele in the egg. The results of flipping both coins will represent the resulting genotype of the zygote created by the union of the egg and sperm (fertilization). Remember that the zygote is the first somatic cell of a new organism. From this genotype, the phenotype can be determined. The results of flipping these two coins will be used to mimic the genotypic and phenotypic outcomes recorded by Mendel for a single train in a hybrid cross, specifically the mating of two heterozygous parents. In pea-plant flowers, the color purple (P) is dominant over white (p). A heads-heads combination will represent a homozygous dominant outcome (purple flowers). A heads-tails combination will stand for a heterozygous outcome (purple flowers). A tails-tails combination will represent a homozygous-recessive outcome (white flower). Materials: FIND A COIN FLIPPING APP Procedure: 1. Choose one person to be the Director and one person to be the data collector. 2. Label the top box in the left-most column of your data table as the phenotype that results from a PP genotype 3. Label the second box in the left-most column of your data table as the phenotype that results from a Pp genotype. 4. Label the third box in the left-most column of your data table as the phenotype that results from a pp genotype. 5. Record the expected outcome in the appropriate column of the table. (Warning: remember that there are two different ways for two pennies to land heads-tails (2 x 0.25 = 0.5) 6. Using 2 pennies, complete 100 simultaneous flips. 7. Record your results as appropriate hash-marks in the appropriate boxes under Tally. 8. When you finish, divide the results of each genotype (under Tally ) by the total of tosses (100) to obtain the Experimental Outcome.
3 Data Table A-Monohybrid Cross Phenotype Coin Combination Tally Expected Experimental Outcome TAILS HEADS PENNY TAILS PENNY TAILS Part 2: Dihybrid Crosses We will use four coins (two pennies and two nickels) to test the genotype and phenotype ratio which would result from a mating between parents who are heterozygous for each of two different traits. We call this a dihybrid cross. We will repeat the experiment in Part 1, this time completing 200 coin flips. Because we are looking at 2 traits, we will need different coins for each parent. One type of coin (penny) will represent one of the 2 traits contributed by the parent. The other type of coin (nickel) will represent the second trait contributed by that parent. There are 2 sides to each coin and 2 possible outcomes for each trait since each heterozygous parent carries 2 different alleles for each trait. Do the results on the penny affect the results on the nickel? No, the flip independently from each other. In the same way, The genes for the two traits assort independently from each other into gametes. Mendel called this the Law of Independent Assortment. 14 Any 1 of 4 possible combinations may therefore turn up in any single game (sperm cell or egg cell). There are, therefore, 16 possible outcomes when the egg and sperm eventually meet.
4 B = brown eyes; N = normal Central Nervous System development; b = blue eyes n = Spinal Muscular Atrophy FATHER BN Bn bn bn BN MOTHER Bn bn bn In Pea Plants, Rough seed shape (R) is dominant over smooth seed shape (r). Yellow seeds (Y) are dominant over white seeds (y). Procedure: 4. Choose one person to be the Director and one person to be the data collector. 5. Determine the 4 possible gametes produced by either parent. 6. Create a Punnett square to show the possible offspring from such a cross. 7. Determine the possible seed shape and color of all offspring whose parents are each heterozygous for the two traits. 8. Label the heads side of both pennies R and the tails r. 9. Label the heads side of both nickels Y and the tails y. 10. Label the second column of the table (below coin combination) with the correct genotypes. 11. Label each box in the first column of the data table Phenotype with the appropriate phenotype. 12. From the outcomes in your Punnett Square, enter the expected probability for each genotype. This is done by counting up the boxes in the Punnett Square that match each genotype. Remember that some of the alleles in your data table are produced in more than one way (ex. Heads-tails is the same as tails-heads). Then take the number of Punnett square boxes that match one genotype and divide by 16 to get the probability of that outcome. (Number of Squares for a Genotype/16 = ) 13. Toss both coins 200 times. 14. Record your results as appropriate hash-marks in the appropriate boxes under Tally. 15. When you finish, divide the results of each genotype (under Tally ) by the total of tosses (200) to obtain the Experimental Outcome.
5 Data Table B-Dihybrid Cross Phenotype Coin Combination Tally Expected Rough, yellow seeds RR only RR only NICKEL HEADS NICKEL HEADS 1 16 = YY only Yy or yy Experimental (outcome) (tally) 200 =
6 Analysis Questions: 1. How closely did your data resemble the expected probability for the monohybrid cross? Does your data support the data and conclusions published by Mendel? 2. Does your data more closely match Mendel s for the dihybrid cross than they did in Part A (a monohybrid cross)? 3. Whatever your answer, explain why you obtained the outcome you did. (Why do the data from Part B match Mendel s more closely- or less closely- than the monohybrid cross in Part A?) 4. Students almost never obtain a perfect match for the expected outcomes. Why do you think this is so? 5. If we combined the data from the whole class, do you think your data would more closely or less closely match Mendel s results? Why? Extra credit: Complete a Punnett Square for any tri-hybrid cross.
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