Concepts of Genetics (11th Edition)
11th Edition
ISBN: 9780321948915
Author: William S. Klug, Michael R. Cummings, Charlotte A. Spencer, Michael A. Palladino
Publisher: PEARSON
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Textbook Question
Chapter 25, Problem 3NST
If the albino
- (a) The recessive mutant allele
- (b) The normal dominant allele
- (c) Heterozygotes in the population
- (d) Mating between heterozygotes
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Cystic fibrosis (CF) is a recessive autosomal disorder. In certain populations of Northern European descent, the number of people born with this disorder is about 1 in 2500. Assuming Hardy- Weinberg equilibrium for this trait:
A. What are the frequencies for the normal and CF alleles?
B. What are the genotype frequencies of homozygous normal, heterozygous, and homozygous affected individuals?
C. Assuming random mating, what is the probability that two phenotypically unaffected heterozygous carriers will choose each other as mates?
Cystic fibrosis (CF) is a recessive autosomal disorder. In certainpopulations of Northern European descent, the number of peopleborn with this disorder is about 1 in 2500. Assuming Hardy-Weinberg equilibrium for this trait:A. What are the frequencies for the common (non-disease-causing)allele and the mutant (disease-causing) allele.B. What are the genotype frequencies of homozygous unaffected,heterozygous, and homozygous affected individuals?C. Assuming random mating, what is the probability that twophenotypically unaffected heterozygous carriers will chooseeach other as mates?
An autosomal locus has alleles A and a.
We are given the frequency of individuals with the autosomal recessive phenotype.
Which of the following statements is TRUE? Choose all that are true.
Note: HWE = Hardy-Weinberg equilibrium
a) If we assume HWE, we can calculate both allele frequencies
b) If we assume HWE, we can calculate the genotype frequencies that we weren't given
c) We can calculate both allele frequencies even if we don't assume HWE
d) We can calculate q = Freq(a) even if we don't assume HWE
e) Even if we don't assume HWE, we can calculate the genotype frequencies that we weren't given
Chapter 25 Solutions
Concepts of Genetics (11th Edition)
Ch. 25 - Prob. 1NSTCh. 25 - Prob. 2NSTCh. 25 - If the albino phenotype occurs in 1/10,000...Ch. 25 - A prospective groom, who is unaffected, has a...Ch. 25 - Prob. 1CSCh. 25 - Prob. 2CSCh. 25 - Prob. 3CSCh. 25 - HOW DO WE KNOW? Population geneticists study...Ch. 25 - CONCEPT QUESTION Read the Chapter Concepts list on...Ch. 25 - Price et al. [(1999).J. Bacteriol181:2358-2362)...
Ch. 25 - The genetic difference between two Drosophila...Ch. 25 - The use of nucleotide sequence data to measure...Ch. 25 - The ability to taste the compound PTC is...Ch. 25 - Prob. 7PDQCh. 25 - What must be assumed in order to validate the...Ch. 25 - In a population where only the total number of...Ch. 25 - Determine whether the following two sets of data...Ch. 25 - If 4 percent of a population in equilibrium...Ch. 25 - Consider a population in which the frequency of...Ch. 25 - If the initial allele frequencies are p = 0.5 and...Ch. 25 - Under what circumstances might a lethal dominant...Ch. 25 - Assume that a recessive autosomal disorder occurs...Ch. 25 - One of the first Mendelian traits identified in...Ch. 25 - Describe how populations with substantial genetic...Ch. 25 - Achondroplasia is a dominant trait that causes a...Ch. 25 - Prob. 19PDQCh. 25 - Prob. 20PDQCh. 25 - A botanist studying water lilies in an isolated...Ch. 25 - A farmer plants transgenic Bt corn that is...Ch. 25 - In an isolated population of 50 desert bighorn...Ch. 25 - To increase genetic diversity in the bighorn sheep...Ch. 25 - What genetic changes take place during speciation?Ch. 25 - Some critics have warned that the use of gene...Ch. 25 - A form of dwarfism known as Ellisvan Creveld...Ch. 25 - Prob. 28ESPCh. 25 - What are the two groups of reproductive isolating...Ch. 25 - The original source of new alleles, upon which...Ch. 25 - A number of comparisons of nucleotide sequences...Ch. 25 - Shown below are two homologous lengths of the...Ch. 25 - Recent reconstructions of evolutionary history are...Ch. 25 - Prob. 34ESP
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- In domestic cats, the allele for short hair (L) is dominant and the allele for long hair (I) is recessive. You are studying a population of cats found on Iwato Island and have determined that the frequency of the recessive long hair allele is q = 0.3. A) What is the frequency of the dominant allele for short hair? p = B) What is the predicted percentage of cats who have heterozygous genotypes? • C) What predicted percentage of cats on this island will have long hair phenotypes? • D) Describe one condition that could change the allele frequencies (the values of p and q) in a population.arrow_forwardLizard scale coloration has a complete dominance relationship where green scales are dominant to blue scales. There are 1536 green individuals, and 64 blue individuals. Calculate: A) the frequency of the dominant alleles (round to the nearest tenth) B) the frequency of the recessive alleles (round to the nearest tenth) c) the frequency of individuals with the dominant genotype (round to the nearest hundredth) d) the frequency of individuals with the heterozygous genotype (round to the nearest hundredth) e) the frequency of individuals with the recessive genotype (round to the nearest hundredth)arrow_forward(1 point) Humans with the genotypes DD and Dd show the Rh+ blood phenotype, whereas those with the genotype dd show the Rh- blood phenotype. In a sample of 400 Basques from Spain, 230 people were Rh+ and 170 people were Rh-. Assuming that this population is in Hardy-Weinberg proportions, what is the allele frequency of the allele D? (a) (a) 0.348 (answer) (b) (b) 0.652 (c) (c) 0.425 (d) (d) 0.575 (e) (e) 0.288 2. (2 points) In the Basque population mentioned above, what proportion of the Rh+ individuals would be expected to be heterozygote? (a) (a) 0.454 (b) (b) 0.789 (answer) (c) (c) 0.516 (d) (d) 0.250 (e) (e) 0.500 How is the answer for #2, b? please explainarrow_forward
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