ZuoTi.Pro
Question

1) In Dar es Salaam, Tanzania in the early 1950's, 24% of adults were found to...

1) In Dar es Salaam, Tanzania in the early 1950's, 24% of adults were found to be sickle-cell heterozygotes; the rest were normal homozygotes. No homozygotes for the sickle-cell allele were found, presumably because all such individuals had died in childhood.

A) What was the frequency of the sickle-cell allele among adults in this population? (Note: the adults are not in Hardy-Weinberg proportions).

B) Assuming that the population was in equilibrium under heterozygote advantage, and taking the relative fitness of heterozygotes as 1, what was the selection coefficient against normal homozygotes?

C) Using your answers from (A) and (B), what would the mean fitness of the population have been? Would reducing the frequency of the sickle-cell allele have increased or decreased mean fitness, assuming no change in the incidence of malaria?

science   biology   
0 0
Add a comment Improve this question Transcribed image text
Next > < Previous
Sort answers by oldest

Homework Answers

Answer #1

A Frequency of sickle cell. allele lie. þr? ar S. now, Sa = 24% and an = 76% Hence, frequency of sickle cell allele =} (24/J9

0 0
Add a comment
Know the answer?
Add Answer to:
1) In Dar es Salaam, Tanzania in the early 1950's, 24% of adults were found to...
Your Answer:

Post as a guest

Your Name:

What's your source?

Earn Coins

Coins can be redeemed for fabulous gifts.

Log In

Sign Up

Not the answer you're looking for? Ask your own homework help question. Our experts will answer your question WITHIN MINUTES for Free.
Similar Homework Help Questions

  • A mutation in one of the hemoglobin genes causes sickle cell anemia. The sickle cell allele,...

    A mutation in one of the hemoglobin genes causes sickle cell anemia. The sickle cell allele, S, severely reduces fitness in people who are homozygotes, SS. In contrast, people with at least one normal hemoglobin allele, A, do not suffer the effects of sickle cell anemia, even if the individual is a heterozygote, AS. Interestingly, though, in areas with a high rate of malaria, heterozygotes that carry the sickle cell allele have a higher fitness than do individuals that are...

  • In a hypothetical population which is in Hardy Weinberg equilibrium, the frequency for a recessive allele...

    In a hypothetical population which is in Hardy Weinberg equilibrium, the frequency for a recessive allele is 30%. What percentage of the population would be expected to show the dominant trait in the next generation? Humans who are born homozygous for the recessive sickle cell allele die of sickle cell anemia, while those who are heterozygous are resistant to malaria (see chapter 4 for more information on this balanced polymorphism).  4% of the population of the Congo are homozygous recessive for...

  • 1. Which of the following is FALSE? A. If a genetic disease reduces fertility and the...

    1. Which of the following is FALSE? A. If a genetic disease reduces fertility and the allele that causes the disease offers no other advantage, the allele will likely eventually disappear, due to natural selection. B. Natural selection does not favor individuals who are homozygous for the sickle-cell allele, because these individuals typically die before they are old enough to reproduce. C. Individuals who are heterozygous HbA/HbS are protected from malaria, and this is why sickle-ce disease persists in wetter,...

  • A mutation in one of the hemoglobin genes causes sickle cell anemia. The sickle cell allele,...

    A mutation in one of the hemoglobin genes causes sickle cell anemia. The sickle cell allele, S, severely reduces fitness in people who are homozygotes, SS. In contrast, people with at least one normal hemoglobin allele, A, do not suffer the effects of sickle cell anemia, even if the individual is a heterozygote, AS. Interestingly, in areas with high rates of malaria, a single Sallele confers some resistance to malarial infection. Suppose there is a population with the observed and...

  • Question 1: Question 2: You are a population geneticist interest in the frequency of the sickle-cell...

    Question 1: Question 2: You are a population geneticist interest in the frequency of the sickle-cell allele in a small town in Sudan. From hospital records you know that people in the previous generation had 4% incidence of sickle-cell anemia. Assuming Hardy-Weinberg equilibrium, what is the expected frequency of the sickle-cell allele in the current generation, and what is the predicted frequency of heterozygotes in the population? Consider a woman who suffers from Menkes Disease, an X-linked recessive disease. Her...

  • I posted this question before but no answer I need to submit in 4 hours, please...

    I posted this question before but no answer I need to submit in 4 hours, please help. Although the following scenario is hypothetical, it is based on actual facts. Sickle cell anemia is an inherited form of anemia. Those with sickle cell anemia do not have enough healthy red blood cells to adequately carry oxygen to all the cells in their body. Normal red blood cells are flexible and round, and can easily move through the blood vessels. However, in...

  • 1. You are studying a population of sandblossoms (Linanthus parryae) that has individuals with blue and...

    1. You are studying a population of sandblossoms (Linanthus parryae) that has individuals with blue and white flowers. The allele for white flowers (A) is dominant to the allele for blue flowers (a). In the population you survey, 91 out of 100 individuals have white flowers. Based on this information: a. Calculate the frequency of the A and a alleles. b. Calculate the numbers of each genotype. 2. A population of snapdragons (Antirrhinum hispanicum) has two additive alleles for flower...

  • JUST PART B PLEASE AND THANK YOU TABLE OF CHI SQUARED VALUES. D.F = DEGREES OF...

    JUST PART B PLEASE AND THANK YOU TABLE OF CHI SQUARED VALUES. D.F = DEGREES OF FREEDOM df <0.10 <0.05 <0.01 <0.001 1 2.706 3.841 6.635 10.8 2 4.605 5.991 9.210 13.8 3 6.251 7.815 11.345 16.3 4 7.779 9.488 13.277 18.5 5 9.236 11.070 15.086 20.5 6 10.645 12.592 16.812 22.4 8 13.362 15.507 20.090 26.1 10 15.987 18.307 23.209 29.6 12 18.549 21.026 26.217 32.9 20 28.412 31.410 37.566 45.3 25 34.382 37.652 44.314 52.6 Rules for Assigning...

  • 1. A sample of 300 adults from California were genotyped for Gene F. The following are...

    1. A sample of 300 adults from California were genotyped for Gene F. The following are the number of genotypes in this sample: 102 FF           174 Ff            24 ff Based on the allele frequencies of this sample, what is the predicted frequency of the heterozygous genotype for the entire population in the state of California? A) 0.47 B) 0.37 C) 0.16 D) 0.58 E) 0.5 2. A sample of 300 adults from California were genotyped for Gene F. The following are...

  • Question 57 is given below 23 You continue your studies of snails. The woodland population from question 57 were moved...

    Question 57 is given below 23 You continue your studies of snails. The woodland population from question 57 were moved to a grassland habitat. You release 100 snails of each phenotype in an enclosed study area and measure survival after two weeks of bird predation #ofjuveniles at start on study (from Q57) 195 58. Phenotype survival after bird predation (%) 10 solid brown brown & green stripes solid green a) Es 60 409 50 198 timate the fitness of each...

ADVERTISEMENT
Free Homework Help App
Download From Google Play
Scan Your Homework
to Get Instant Free Answers
Need Online Homework Help?
Ask a Question
Get Answers For Free
Most questions answered within 3 hours.
ADVERTISEMENT
ADVERTISEMENT
Active Questions
ADVERTISEMENT