Color Blindness Problem Set

Fusion of egg and sperm

Each normal human egg carries a single X chromosome while each normal human sperm carries either an X or a Y chromosome.

Eggs fertilized by sperm with an X chromosome develop into females.

Eggs fertilized by sperm with a Y chromosome become males.

For more information about working with a Punnett square see the Tutorial of Problem 1 in the Monohybrid Cross section of Mendalian Genetics.

Red-green color blindness

The most common type of red-green color perception defect is due to a mutation on the X-chromosome (i.e. a red-green color blind allele). X-linked red-color blindness is a recessive trait. Females heterozygous for this trait have normal vision. The color perception defect manifests itself in females only when it is inherited from both parents. By contrast, males inherit their single X-chromosome from their mothers and become red green color blind if this X-chromosome has the color perception defect. Different genotypes for this trait are illustrated below. The dominant X chromosome is represented as X^R. The recessive chromosome is represented as X^r.
Since males have only one X-chromosome, if this chromosome has the red-green color blind allele, the males will have the color perception defect.
Females have 2 X-chromosomes. Both X-chromosomes must carry the mutant allele for the females to be color blind. Red-green color blind females are homozygous for the recessive allele.
Females with one mutant allele and one normal allele are heterozygous "carriers". They are not color blind, but they can pass the color blindness to their children.

Pedigree

The following pedigree will be used throughout the problem set to record the genetic makup of each individual of Audrei's family.

The Biology Project
University of Arizona
Saturday, October 10, 1998
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