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Hardy Weinberg Equilibrium. What is Hardy- Weinberg? A population is in Hardy-Weinberg equilibrium if the genotype frequencies are the same in each generation.

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Presentation on theme: "Hardy Weinberg Equilibrium. What is Hardy- Weinberg? A population is in Hardy-Weinberg equilibrium if the genotype frequencies are the same in each generation."— Presentation transcript:

1 Hardy Weinberg Equilibrium

2 What is Hardy- Weinberg? A population is in Hardy-Weinberg equilibrium if the genotype frequencies are the same in each generation. In general, a system is said to be in equilibrium if all competing influences are balanced.

3 How does a population become in Hardy- Weinberg Equilibrium? There is no migration (“gene flow”) in or out of the population. Natural selection is not occurring. Natural selection is not occurring. Mutation is not occurring. Mutation is not occurring. Each member of the population is equally likely to breed.4 Each member of the population is equally likely to breed.4 The population is infinitely large. The population is infinitely large.

4 Hardy-Weinberg Equations In the simplest case of a single locus with two alleles: the dominant allele is denoted A and the recessive a and their frequencies are denoted by p and q Dominant = p Recessive = q p 2 = homozygous dominant q 2 = homozygous recessive 2(pq) = heterozygous

5 If the population is in equilibrium, then we will have: Freq (AA)=p 2 for the AA homozygotes in the population Freq (aa)=q 2 for the aa homozygotes And freq(Aa)=2pq for the heterozygotes.

6 The overall equation for the Hardy-Weinberg equilibrium is expressed in this way: p 2 + 2pq + q 2 = 1 p+q=1

7 Who Cares? Based on these equations, we can determine useful but difficult-to-measure facts about a population. For example, a patient's child is a carrier of a recessive mutation that causes cystic fibrosis in homozygous recessive children. The parent wants to know the probability of her grandchildren inheriting the disease.

8 Problem 1 PROBLEM #4. Within a population of butterflies, the color brown (B) is dominant over the color white (b). And, 40% of all butterflies are white. Given this simple information, which is something that is very likely to be on an exam, calculate the following: The percentage of butterflies in the population that are heterozygous. The frequency of homozygous dominant individuals.

9 p 2 + 2pq + q 2 = 1 p 2 + 2pq + q 2 = 1 Answers: The first thing you'll need to do is obtain p and q. So, since white is recessive (i.e. bb), and 40% of the butterflies are white, then bb = q 2 = 0.4. To determine q, which is the frequency of the recessive allele in the population, simply take the square root of q 2 which works out to be 0.632 (i.e. 0.632 x 0.632 = 0.4).

10 So, q = 0.63. Since p + q = 1, then p must be 1 - 0.63 = 0.37. Now then, to answer our questions. What is the percentage of butterflies in the population that are heterozygous? What is the percentage of butterflies in the population that are heterozygous? Well, that would be 2pq so the answer i:s 2 (0.37) (0.63) = 0.4 What is the frequency of homozygous dominant individuals? That would be p 2 or (0.37) 2 = 0.14.

11 Problem 2 You have sampled a population in which you know that the percentage of the homozygous recessive genotype (aa) is 36%. Using that 36%, calculate the following: The frequency of the "aa" genotype. Answer: 36%, as given in the problem itself. The frequency of the "a" allele. Answer: The frequency of aa is 36%, which means that q 2 = 0.36, by definition. If q 2 = 0.36, then q = 0.6, again by definition. Since q equals the frequency of the a allele, then the frequency is 60%.

12 The frequency of the "A" allele. Answer: Since q = 0.6, and p + q = 1, then p = 0.4; The frequency of A is by definition equal to p, so the answer is 40%. The frequencies of the genotypes "AA" and "Aa." Answer: The frequency of AA is equal to p 2, and the frequency of Aa is equal to 2pq. So, using the information above, the frequency of AA is 16% (i.e. p 2 is 0.4 x 0.4 = 0.16) and Aa is 48% (2pq = 2 x 0.4 x 0.6 = 0.48).

13 Problem 3 There are 100 students in a class. Ninety-six did well in the course whereas four blew it totally and received a grade of F. Sorry. In the highly unlikely event that these traits are genetic rather than environmental, if these traits involve dominant and recessive alleles, and if the four (4%) represent the frequency of the homozygous recessive condition, please calculate the following: The frequency of the recessive allele. Answer: Since we believe that the homozygous recessive for this gene (q 2 ) represents 4% (i.e. = 0.04), the square root (q) is 0.2 (20%).

14 The frequency of the dominant allele. Answer: Since q = 0.2, and p + q = 1, then p = 0.8 (80%). The frequency of heterozygous individuals. Answer: The frequency of heterozygous individuals is equal to 2pq. In this case, 2pq equals 0.32, which means that the frequency of individuals heterozygous for this gene is equal to 32% Equation: 2 (0.8)(0.2) = 0.32

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