Answer:
1/4
Explanation:
The probability of having a son with normal phenotype would be 1/4.
Both color blindness and anemia are X-linked and are linked together. The genes for X-linked disorders are found on the sex chromosomes with the male being XY and female being XX. The male child gets his X chromosome from the mother and Y from the father while the female child gets one of her X chromosome form the father and the other from the mother.
For recessive disorders, two recessive alleles are needed by the female on the two X chromosome to become affected while only one allele is needed on one X chromosome of the male to become affected.
Assuming the allele for color blindness is a and that of anemia is b.
George is color blind but not anemic, the genotype would be [tex]X^{aB}Y[/tex]
Martha is normal but her dad is color blind and anemic, this means that Martha is a carrier for both disorders with genotype [tex]X^{AB}X^{ab}[/tex]
Crossing the two genotypes
[tex]X^{aB}Y[/tex] x [tex]X^{AB}X^{ab}[/tex]
offspring: [tex]X^{AB}X^{aB}, X^{aB}X^{ab}, X^{AB}Y, X^{ab}Y[/tex]
[tex]X^{AB}X^{aB}[/tex] = normal phenotype female
[tex]X^{aB}X^{ab}[/tex] = color blind, non anemic female
[tex]X^{AB}Y[/tex] = normal phenotype male
[tex]X^{ab}Y[/tex] = color blind, anemic male
Probability of having a son = 1/2
Probability of producing a normal phenotype child = 1/2
Hence,
Probability of a son with normal phenotype = 1/2 x 1/2 = 1/4.
