Color Genetics Chart
Genes come in pairs (one from the father, one from the mother). An allele is either of the two copies of the same gene. In the case of Dexter coloration, we will consider our baseline color to be black. There are two completely separate genes that will make Dexters a color other than black. In both cases, these colors are recessive to black, so the animal must receive the same non-black allele from both parents in order to appear non-black. One is the Extension gene, (EXT) that determines if an animal is red. The other is Tyrosinase Protein 1 (TYRP 1) that determines if an animal is dun. Although the EXT variations are found in many breeds, the genetic variation in TYRP 1 that causes dun colored Dexters seems to be exclusive to the Dexter breed. EXT and TYRP 1 work independently of each other, so an animal that has one red allele at EXT and one dun allele at TYRP 1 will appear black. The following charts show all the possible genotypes an animal may have at EXT and TYRP 1, and the resulting color of the animal.
See also Genetic Terms
This Animal is Black
Carries Red
|
Genotype: (the genetic make-up an animal inherited from its parents) |
Phenotype: (what the animal looks like) |
||
|
(Parent 1) |
(Parent 2) | ||
| EXT | |||
| TYRP 1 | |||
This Animal is Red
It takes two red alleles to make an animal that is red.
|
Genotype: (the genetic make-up an animal inherited from its parents) |
Phenotype: (what the animal looks like) |
||
|
(Parent 1) |
(Parent 2) | ||
| EXT | |||
| TYRP 1 | |||
This Animal is Dun
It takes two dun alleles to make an animal that is dun.
|
Genotype: (the genetic make-up an animal inherited from its parents) |
Phenotype: (what the animal looks like) |
||
|
(Parent 1) |
(Parent 2) | ||
| EXT | |||
| TYRP 1 | |||
This Animal is Black
|
Genotype: (the genetic make-up an animal inherited from its parents) |
Phenotype: (what the animal looks like) |
||
|
(Parent 1) |
(Parent 2) | ||
| EXT | |||
| TYRP 1 | |||
This Animal is Black
Carries Red & Dun
|
Genotype: (the genetic make-up an animal inherited from its parents) |
Phenotype: (what the animal looks like) |
||
|
(Parent 1) |
(Parent 2) | ||
| EXT | |||
| TYRP 1 | |||
This Animal is Red
Carries Dun
It takes two red alleles to make an animal that is red.
|
Genotype: (the genetic make-up an animal inherited from its parents) |
Phenotype: (what the animal looks like) |
||
|
(Parent 1) |
(Parent 2) | ||
| EXT | |||
| TYRP 1 | |||
This Animal is black
Carries Dun
|
Genotype: (the genetic make-up an animal inherited from its parents) |
Phenotype: (what the animal looks like) |
||
|
(Parent 1) |
(Parent 2) | ||
| EXT | |||
| TYRP 1 | |||
This Animal is Dun
Carries Red
It takes two dun alleles to make an animal that is dun.
|
Genotype: (the genetic make-up an animal inherited from its parents) |
Phenotype: (what the animal looks like) |
||
|
(Parent 1) |
(Parent 2) | ||
| EXT | |||
| TYRP 1 | |||
This Animal is Red
Carries Dun
Ultimately red is be dominant over dun. This is only important when an animal
carries two red alleles and two dun alleles.
|
Genotype: (the genetic make-up an animal inherited from its parents) |
Phenotype: (what the animal looks like) |
||
|
(Parent 1) |
(Parent 2) | ||
| EXT | |||
| TYRP 1 | |||
This site was created by
Rebecca Perez
Copyright © 2003-2006
Belle Fourche
Last Modified:
07/16/2006
