What is the frequency of alleles in this population? a) CB (p)= 0.2 CG (q)= 0.8 b) CB (p)= 0.3 CG (q)= 0.8 c) CB (p)= 0.3 CG (q)= 0.7 d) CB (p)= 0.8 CG (q)= 0.2
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Genetic Variation
Genetic variation refers to the variation in the genome sequences between individual organisms of a species. Individual differences or population differences can both be referred to as genetic variations. It is primarily caused by mutation, but other factors such as genetic drift and sexual reproduction also play a major role.
Quantitative Genetics
Quantitative genetics is the part of genetics that deals with the continuous trait, where the expression of various genes influences the phenotypes. Thus genes are expressed together to produce a trait with continuous variability. This is unlike the classical traits or qualitative traits, where each trait is controlled by the expression of a single or very few genes to produce a discontinuous variation.
How do I find the frequency of alleles in this population? Please explain how to solve this problem.
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- Assume that the frequency of gene B in a hypothetical population Is 0.63, that there are only two alleles (B and b) of the gee in the population, that allele B is dominant over allele b, that neither allele has a selective advantage over the other, and that the population is at equilibrium with regard to this particular gene. What is the expected frequency of the b allele in this population, based upon the Hardy-Weinberg formula? A. 0.29 B. 0.14 C.0.21 D.0.40 E.0.3710,000 individuals are sampled from a population and are found to display one of three blood types: AA with 6800 individuals, AB with 2800 individuals and type BB with 400 individuals. a) What is the frequency of each genotype in the population? b) What is the frequency of the A allele? c) What is the frequency of the B allele?A hypothethical population of 10,000 humans has 6,840 individuals with the blood type AA, 2,860 individuals with blood type AB and 300 individuals with the blood type BB. What is the frequency of each genotype in this population? AA = AB = BB = What is the frequency of the A allele? What is the frequency of the B allele? If the next generation contained 25,000 individuals, how many individuals would have blood type BB, assuming the population is in Hardy-Weinberg equlibrium?
- Researchers studied the blood types of indigenous populations in the Andes. They used a two-allele typing system (M and N alleles). In one population the genotypic frequencies were: f (MM) = 0.70, f (MN) = 0.20, f (NN) = 0.10. What are the frequencies of M and N alleles for this population? Answer choices f(M) = 0.80 and f(N) = 0.20 f(M) = 0.70 and f(N) = 0.30 f(M) = 0.49 and f(N) = 0.01 f(M) = 0.90 and f(N) = 0.10 f(M) = 0.50 and f(N) = 0.50You sample the frequency of an allele in a population over 12 consecutive generations and find that the frequency of the allele changes as follows: Generation 1 2 3 4 5 6 7 8 9 10 11 12 Frequency 0.75 0.73 0.72 0.71 0.70 0.69 0.67 0.66 0.65 0.64 0.62 0.61 How would you best characterize this allele and this population? A. The allele is under selection and the population size is very small B. The allele is under selection and the population size is very large C. The allele is not under selection and the population size is very small D. The allele is not under selection and the population size is very large10,000 individuals are sampled from a population and are found to display one of three blood types: AA with 6800 individuals, AB with 2800 individuals and type BB with 400 individuals. a) If the next generation contains 25,000 individuals, how many would have blood type BB, assuming the population is in Hardy-Weinberg Equilibrium?
- C1C1 C1C2 C2C2 D1D1 D1D2 D2D2 Sand 0.07 0.39 0.54 0.25 0.5 0.25 Land 0.18 0.49 0.33 0.06 0.22 0.72 how to find the allele frequency of D1 in the land population species?A hypothetical population of 10,000 humans has 6848 individuals with the blood type AA, 2846 individuals with blood type AB, and 306 individuals with the blood type BB. What is the frequency of each genotype in this population? What is the frequency of the A allele? What is the frequency of the B allele? If the next generation contained 25,000 individuals, how many individuals would have blood type BB, assuming the population is in Hardy-Weinberg equilibrium?The graph below includes information on the average time to fixation of an allele (in generations) as a function of population size. The three different curves represent different starting allele frequencies. Which of the following statements correctly describes patterns depicted in the graph below? I. As population size increases, it takes fewer generations for alleles to reach fixation II. As starting allele frequency increases, it takes fewer generations for alleles to reach fixation III. Small populations will lose alleles more rapidly than large populations. IV. Even if starting allele frequency is low, fixation is possible - it just happens slowly. Only III is a correct description Only II is a correct description II, III, & IV are correct descriptions Both II & III are correct descriptions Both I & II are correct descriptions All four statements (I, II, III & IV) are correct descriptions asap please
- Assume that the frequency of gene B in a hypothetical population Is 0.63, that there are only two alleles (B and b) of the gee in the population, that allele B is dominant over allele b, that neither allele has a selective advantage over the other, and that the population is at equilibrium with regard to this particular gene. What proportion of the population is expected to have the phenotype specified by the B allele according to the Hardy-Weinberg formula? 0.47 0.87 0.67 0.40 0.37A scientist is studying the population of Cape Fox over four generations to determine if the population is in Hardy-Weinberg Equilibrium. Use the data below to determine if this population is in Hardy-Weinberg Equilibrium. Frequency Type First Generation Second Generation Third Generation Fourth Generation Frequency of dominant alleles p=0.2p=0.2 p=0.25p=0.25 p=0.35p=0.35 p=0.2p=0.2 Frequency of recessive alleles q=0.8q=0.8 q=0.75q=0.75 q=0.65q=0.65 q=0.8 No, the population is not in Hardy-Weinberg Equilibrium because the frequencies of alleles have changed over the four generations. No, the population is not in Hardy-Weinberg Equilibrium because the frequencies of dominant and recessive alleles are not equal. Yes, the population is in Hardy-Weinberg Equilibrium because the recessive allele is always greater than the dominant allele. Yes, the population is in Hardy-Weinberg Equilibrium because the fourth generation reverts back to the initial population levels.…In monkeys, black coat color (B) is dominant over brown color (b). A population of monkeys was found to be composed of 67 brown coated individuals and 119 black coated individuals. What is the frequency of the b allele in this population? What is the frequency of the B allele in this population?