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Chapter 15: Q15-12TYU (page 313)

Assume you are mapping genes A, B, C, and D in Drosophila. You know that these genes are linked on the same chromosome, and you determine the recombination frequencies between each pair of genes to be as follows: A-B, 8%; A-C, 28%; A-D, 25%; B-C, 20%; B-D, 33%.

  1. Describe how you determined the recombination frequency for each pair of genes.

  2. Draw a chromosome map based on your data.

Short Answer

Expert verified

(a). An F1 dihybrid offspring for each pair of genes is generated to obtain recombinant frequencies. The F1 hybrid is then test crossed with a homozygous recessive fly. The parental and recombinant offspring are observed and counted to determine the recombination frequency between the two genes.

(b).

Step by step solution

01

Recombination frequency

The number of recombinants produced concerning the number of offspring in a cross is referred to as recombinant frequency.The recombination frequency between gene pairs helps to calculate the distance between the genes on a chromosome.

1% recombinant frequency refers to one map unit. The distance between the genes on the chromosome is referred to as map units.

02

Calculation of recombinant frequency between the pair of genes

Calculate the recombinant frequency for geneAand geneB. First, a homozygous dominant parent (AABB) is crossed with a recessive parent (aabb). The offspring produced would be F1dihybrid with genotypeAbBb.

The F1dihybrid is then test crossed with a homozygous recessive fly (aabb).The offspring produced from this cross is observed and segregated as parental and recombinants based on parents' genotype.

The recombination frequency between the gene pairs is calculated using the formula:

RecombinantFrequency=NumberofrecombinantsTotalnumberofoffspringร—100

03

Chromosome map

According to the given data, the distance between geneAand geneBis 8 map units, betweenAandCis 28 map units, betweenAandDis 25 map units, betweenBandCis 20 map units, and betweenAandDgene is 33 map units.

The data suggest that gene A and B is located between gene D and C. Therefore, the sequence of genes on the chromosome is DABC.

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Most popular questions from this chapter

A man with hemophilia (a recessive, sex-linked condition) has a daughter without the condition. She marries a man who does not have hemophilia. What is the probability that their daughter will have hemophilia? Their son? If they have four sons, what is the probability that all will be affected?

Consider what you learned about dominant and recessive alleles in Concept 14.1. If a disorder were caused by a dominant X-linked allele, how would the inheritance pattern differ from what we see for recessive X-linked disorders?

Gene A, B, and C are located on the same chromosome. Test crosses show that the recombination frequency between A and B is 28% and that between A and C is 12%. Can you determine the linear order of these genes?

Crossing over is thought to be evolutionarily advantageous because it continually shuffles genetic alleles into novel combinations. Until recently, it was thought that the genes on the Y chromosome might degenerate because they lack homologous genes on the X chromosome with which to pair up prior to crossing over. However, when the Y chromosome was sequenced, eight large regions were found to be internally homologous to each other, and quite a few of the 78 genes represent duplicates. (Y chromosome researcher David Page has called it a "hall of mirrors.โ€). Explain what might be a benefit of these regions.

Neither Tim nor Rhoda had Duchenne muscular dystrophy, but their firstborn son does. What is the probability that a second child will have the disease? What is the probability if the second child is a boy? A girl?
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