Calculate the change in allele frequencies between 1 generation to the the next generation Generation 1...
Calculate the change in allele frequencies between 1 generation to the the next generation Generation 1 allele frequency: B allele = 0.824 b allele = 0.176 Generation 2 allele frequency: B allele = 0.761 b allele = 0.239
Homework Answers
change in allele frequency for B allele is 0.824-0.761 = 0.063 loss of allelic frequency
for b allele is 0.239-0.176=0.063 gain of allelic frequency.
Overall there is no change in the allelic frequency,obeying the hardy-weinberg law.
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Calculate the change in allele frequencies between 1 generation
to the the next generation Generation 1...
PRINT Bios 126 Lab 2 Calculate the allele frequencies that are now present. Enter the frequency...
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calculate phenotype frequencies, allele frequencies, genotype
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The following figure shows four hypothetical relationships between the frequency of an allele in one generation p and its change in the next generation Ap-p-p) Imagine a population with an allele frequency of p 0.5. In the following generation the allele frequency changes to p 0.46. Which of the scenarios shown in the figure is consistent with these observations. Assume that genetic drift has no effect. 0002 0A 0.5 08 1.0 0.00.20.4 0 0.8 1.0 00 02 04 0 08...
2. Which of the following correctly describes how inbreeding will affect genotype and allele frequencies in Hardy-Weinberg populations? Genotype and allele frequencies will be unaffected. The frequency of heterozygotes will decrease, but allele frequencies will be unaffected. The frequency of homozygotes will increase, and deleterious alleles will decrease. Beneficial alleles will increase in frequency, as well as the genotypes containing those alleles. Genotype frequencies will return to H-W expectations after 1 generation of random mating. 3. Consider a population with...
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