Epistasis Definition n n Epistasis is a form

Definition n n Epistasis is a form of gene interaction in which one gene

Epistatic versus Hypostatic n n The alleles that are masking the effect are called

How do we solve epistatic problems? n n We are dealing with polygenic traits

Recessive or Dominant? n n Epistasis can be described as either recessive epistasis or

Labrador Retrievers n Fur color in Labrador Retrievers is controlled by two separate genes.

Labrador Retrievers n n If a Labrador retriever has a dominant B allele, they

Labrador Retrievers n If a retriever receives at least one dominant “E” allele, they

Labrador Retrievers n n n BBEE and Bb. Ee --> Black retrievers bb. EE

Try this cross… n You have decided to cross your golden retriever (bbee) with

bbee x bb. Ee n n FOIL: be FOIL: b. E or be Genotypes

Dominant Epistasis n n Let’s have a look at dominant epistasis… Squash fruit color

Squash Fruit Color n n n Genotypes and Phenotypes: W-/GW-/gg ww/Gww/gg white green yellow

Squash Fruit Color n Which allele is epistatic in squash color? The dominant W

Try this cross…. n n Cross a green squash (ww. Gg) with a white

Wwgg x ww. Gg n FOIL: Wg or wg FOIL: w. G or wg

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Epistasis

Definition n n Epistasis is a form of gene interaction in which one gene masks the phenotypic expression of another. There are no new phenotypes produced by this type of gene interaction.

Epistatic versus Hypostatic n n The alleles that are masking the effect are called epistatic alleles The alleles whose effect is being masked are called the hypostatic alleles.

How do we solve epistatic problems? n n We are dealing with polygenic traits as in the previous section, however we now have one pair of alleles masking the other. This means we will still be using dihybrid crosses!

Recessive or Dominant? n n Epistasis can be described as either recessive epistasis or dominant epistasis. Let’s look at an example of recessive epistasis….

Labrador Retrievers n Fur color in Labrador Retrievers is controlled by two separate genes. n Fur color is a polygenic trait! Gene 1: Represented by B : Controls color Gene 2: Represented by E : Controls expression of B

Labrador Retrievers n n If a Labrador retriever has a dominant B allele, they will have black fur. If they have two recessive alleles (bb) they will have brown fur.

Labrador Retrievers n If a retriever receives at least one dominant “E” allele, they will remain the color that the “B” allele coded for. n n Either black of brown However, if a dog receives a pair of homozygous recessive “e” alleles, they will be golden regardless of their “B” alleles!

Labrador Retrievers n n n BBEE and Bb. Ee --> Black retrievers bb. EE and bb. Ee --> Brown retrievers BBee, Bbee, or bbee --> Golden retrievers

Try this cross… n You have decided to cross your golden retriever (bbee) with the neighbor’s chocolate retriever (bb. Ee). What color pups will they have?

bbee x bb. Ee n n FOIL: be FOIL: b. E or be Genotypes of F 1 generation: bb. Ee and bbee Pups phenotypes: Brown and golden

Dominant Epistasis n n Let’s have a look at dominant epistasis… Squash fruit color is controlled by two genes. Gene 1 is represented by a W Gene 2 is represented by a G

Squash Fruit Color n n n Genotypes and Phenotypes: W-/GW-/gg ww/Gww/gg white green yellow

Squash Fruit Color n Which allele is epistatic in squash color? The dominant W allele is epistasis n How do you know? Because every time a dominant W allele shows up in a squash genotype, the squash fruit color is white.

Try this cross…. n n Cross a green squash (ww. Gg) with a white squash (Wwgg). What color are the offspring?

Wwgg x ww. Gg n FOIL: Wg or wg FOIL: w. G or wg n F 1 generation genotypes: n Phenotypes: n