Heterozygote advantage:
Group of answer choices
A. Has an stable equilibrium determined by the allele frequencies.
B. Has an stable equilibrium determined by the genotypic frequencies.
C. Has an stable equilibrium determined by the selection coefficients.
D. Can maintain multiple stable equilibria simultaneously.
A.Heterozygote has an stable equilibrium determined by the allele frequencies is its advantage.
Heterozygote advantage: Group of answer choices A. Has an stable equilibrium determined by the allele frequencies....
Which type of genotypic selection leads to a stable equilibrium of polymorphism at a locus? Select one: a. Heterozygote Disadvantage (Underdominance) b. Heterozygote Advantage (Overdominance) c. Stabilizing Selection d. Positive selection e. Directional Selection
Both negative-frequency dependent selection and heterozygote advantage can lead to a stable polymorphism. Answer the following questions. A) Of the two mechanisms, which is guaranteed to produce a stable polymorphic equilibrium? Which is not? Explain. (A polymorphic equilibrium is one in which both alleles are present). B) Of the two mechanisms, which could apply to bacteria? Which could not?
Select the statements that accurately describe the effect of natural selection on genetic equilibrium: a. It can cause allele frequencies in a population to be in genetic equilibrium. b. It can cause a dominant allele for a gene to become more abundant in a population. c. It can cause an allele to become more abundant in a population if it provides a fitness advantage over other alleles for that trait. d. It is an evolutionary force that prevents natural populations...
Plase hlp answer these questions: White wool in sheep is controlled by a dominant allele R, and black wool by the recessive allele r. In an isolated population of 6530 sheep, 514 are black, 4981 are heterozygous, 1035 are homozygous white. When will this population be expected to reach Hardy-Weinberg equilibrium? in the next generation in two generations it already is in equilibrium impossible to tell it will not reach equilibrium A population has the following genotypic distributions: A^M A^M...
n an infinitely repeated prisoner’s dilemma (such as a repeated price war): Group of answer choices repeated defection is the only equilibrium. there are two different equilibria: repeated defection and repeated cooperation. repeated cooperation is the only equilibrium. each player cooperates in the early stages, but defects near the end of the game. there is no stable equilibrium strategy for either player.
heterozygote disadvantage Natural selection is the process by which organisms with the best adapted phenotype are selected for by environmental conditions. anthropogenic events such as the use of DDT heterozygote advantage Allelic frequencies can change due to selection or they may change due to genetic drift. environmental conditions The process of natural selection relies on the presence of of a gene within a population. genetic drift Deleterious alleles may persist in the population particularly if they confer a single allele...
Which of the following elements would be expected to be particularly stable? Group of answer choices Be B C Li
1. A population of 2000 peppered moths has the following genotypic frequencies:aa: 0.16, Aa: 0.04. AA: 0.80. a. The frequency of the 'a' allele in this population is (show your work for full credit): frequency of the a allele is __ . Calculate the expected genotypic frequencies under Hardy-Weinberg equilibrium. Is this population in equilibrium for genotypic frequencies? Show all your work for full credit. (Do a rough comparison by eye of the observed and expected frequencies to test for...
2. We base our interpretation of evolutionary change in allele frequencies on predictions made using the Hardy-Weinberg Equilibrium (HWE) equation as a baseline hypothesis of "No change". Which one, of the following mechanisms of evolution tends to produce such small changes over time in large populations that is practically undetectable except of very long time periods in anyu case. a) Selection b) Migration c) Genetic Drift d) Inbreeding
A population with polymorphism but no heterozygous individuals Group of answer choices A. Has heterozygosity = 0.0 because you can't have any heterozygosity if you have no heterozygotes. B. Has heterozygosity = 0.0 because heterozygosity is dependent on the frequency of the heterozygous genotype. C. Has heterozygosity > 0.0 because heterozygosity is only dependent on the frequencies of the alleles, not the genotypes. D. Has heterozygosity > 0.0 becauase heterozygosity is dependent on the frequencies of all genotypes, not just...