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Epistasis and Modifier Genes

Genes do not exist in isolation and the gene products often interact in some way. Epistasis refers to the event where a gene at one locus is dependent on the expression of a gene at another genomic locus. Stated another way, one genetic locus acts as a modifier to another. 

Interplay of multiple enzymes in a biochemical pathway will alter the phenotype. Some genes will modify the actions of another gene. 

This can be visualized easily in the case of labrador retriever coloration where three primary coat coloration schemes exist: black lab, chocolate lab, and yellow lab.

Chocolate lab (top), Black lab (middle), Yellow lab (bottom) coat colorations arise from the interaction of two gene loci, each with two alleles. 

Two genes are involved in the coloration of labradors. The first is a gene for a protein called TYRP1, which is localized to the melanosomes (pigment storing organelles). Three mutant alleles of this gene have been identified that reduce the function of the protein and yield lighter coloration. These three alleles can be noted as “b” while the functioning allele is called “B“. A heterozygous (Bb) or a homozygous dominant individual will be black coated while a homozygous recessive (bb) individual will be brown.

Black lab (BB or Bb) and chocolate lab (bb). 

The second gene is tied to the gene for Melanocortin 1 Receptor (MC1R) and influences if the eumelanin pigment is expressed in the fur. This gene has the alleles denoted “E” or “e“. A yellow labrador will have a genotype of either Bbee or bbee. Essentially any dog who inherits two “e” alleles will be yellow, regardless of the “B” or “b” alleles inherited.

Black lab (EE or Ee) and Yellow lab (ee).

The interplay between these genes can be described by the following diagram:

Black lab (B_E_), chocolate lab (bbE_), yellow lab with dark skin where exposed (B _ee), and yellow lab with light skin where exposed.
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