How can mutation and selection together reach a “Balance” or equilibrium (e.g. for a recessive genetic...

how is the inheritance pattern of a dominant genetic disorder different than a recessive genetic disorder

how is the inheritance pattern of a dominant genetic disorder different than a recessive genetic disorder

Some recessive genetic diseases are almost always fatal. However, in some populations, the recessive allele is...

Some recessive genetic diseases are almost always fatal. However, in some populations, the recessive allele is found in greater frequencies than expected because there is heterozygous advantage for those carriers of the recessive alel . we this with the sickle cell allele. In this scenario, the sickle cell allele is maintained in populations with endemic malaria. What is this type of selection called? directional selection stabilizing selection discruptive selection no selection What effects can a mutation have on an individual's...

Question: Some heritable recessive genetic conditions can persist in some populations even though the genetic condition...

Question: Some heritable recessive genetic conditions can persist in some populations even though the genetic condition presents health complications. Which of the following is not a correct reason for why these recessive alleles persist in populations? A.) Individuals who are heterozygous for the recessive allele will have no symptoms and therefore no negative selection against heterozygous carriers B.) certain environmental conditions can create positive selection for individuals who are heterozygous for the recessive allele C.) Individuals who are homozygous for...

5. Tay-Sach disease is due to an autosomal recessive allele t. The disease results in death...

5. Tay-Sach disease is due to an autosomal recessive allele t. The disease results in death of tt individuals before reproductive age. The relative fitnesses of the genotypes are TT=1, Tt=1, tt=0. a. What type of selection is occurring on this locus, and what do you expect will happen to the f(t) over time? b. Explain in general terms how Mutation-Selection Balance can keep the t allele in the population at a constant (equilibrium) frequency.

13. Diploidy can maintain genetic variation through A. Hybrid vigor B. Masking recessive alleles C. Alternatively...

13. Diploidy can maintain genetic variation through A. Hybrid vigor B. Masking recessive alleles C. Alternatively selecting for the rare phenotype D. Assortative mating E. Epistasis 14. When studying the evolutionary relationships between taxa that are more distantly related (e.g. sponges to mammals) it is best to study genes that A. are neutral with regard to their effect on the phenotype B. that accumulate mutations at slow rates possibly because selection removes most mutations C. mutate rapidly and frequently D....

Huntington Chorea is a serious genetic disorder caused by a rare dominant allele (H) at an...

Huntington Chorea is a serious genetic disorder caused by a rare dominant allele (H) at an autosomal locus on chromosome 4. Individuals bearing an H allele produce a damaging protein that accumulates within the brain, leading to progressive loss of motor control and often to dementia. The disease often manifests itself later in life, and usually, Huntington Chorea victims die within 15 years after their neurological symptoms are diagnosed, but some people die before even being diagnosed. In some rural...

Please show work so I can get a full understanding.Thank you! :) 1. Consider the equation...

Please show work so I can get a full understanding.Thank you! :) 1. Consider the equation ?p = p(1/2 ? p)(1 ? p) Find all of its equilibria and classify them in terms of stability. 2. What is the equilibrium frequency of a recessive gene arising with a mutation rate of 4×10?6 and a reproductive fitness in homozygotes of 0.8? What would it be if the gene were partially recessive with h = 0.05? How different are these two equilibrium...

Please show work so I can get a full understanding.Thank you! :) 1. Consider the equation...

Please show work so I can get a full understanding.Thank you! :) 1. Consider the equation ∆p = p(1/2 − p)(1 − p) Find all of its equilibria and classify them in terms of stability. 2. What is the equilibrium frequency of a recessive gene arising with a mutation rate of 4×10−6 and a reproductive fitness in homozygotes of 0.8? What would it be if the gene were partially recessive with h = 0.05? How different are these two equilibrium...

Hi,regarding to how dominant gene alleles and recessive gene alleles determine expression of single-gene traits.. I...

Hi,regarding to how dominant gene alleles and recessive gene alleles determine expression of single-gene traits.. I need to how the genetic basis of a health problem(diesease or disorder example) regarding dominant and recessive gene expression of single-gene traits relates to its:: a. Mode of inheritance and b. Causative and susceptibility genes. Please let me know where you found this so I can write a summary paper, please

Pedigrees are often used in humans to examine the transmission patterns of genetic diseases. They can...

Pedigrees are often used in humans to examine the transmission patterns of genetic diseases. They can be used to determine if a disease is autosomal dominant, autosomal recessive, X-linked recessive, or X-linked dominant. The pedigree below shows inheritance of Huntington's Disease, a rare disorder which destroys nerve cells of the brain. (A) Which type of inheritance does Huntington's Disease follow? How did you make this determination? (B) What is the genotype of individual II-6? (C) What is the genotype of...