Agouti (A)
Gene or Region: ASIP
Reference Variant: GAAAAGAAGCA (A)
Mutant Variant: -11bp deletion (a)
Affected Breeds: Many
Research Confidence: High - Findings reproduced in multiple studies
Explanation of Results: A/A = homozygous for Agouti, bay trait expressed A/a = heterozygous for Agouti, bay trait expressed a/a = black trait expressed
General Description of Agouti
The agouti signaling protein gene (often shortened to agouti or ASIP controls where black pigment is produced on the horse. In the bay variant (A), black is restricted to the “points,” such as the legs, mane, tail, and ear tips, whereas the rest of the coat produces red/bay pigment. The black allele (E) is restricted or "recessive" to bay (A), and thus a black-based horse needs to inherit two "negative" copies (a/a) of Bay/Agouti to have a uniformly black coat color.
However, bay and black coat colors are a great example of the genetic concept of “epistasis” – that the effect of one gene is dependent on the effect of an independent gene. In this case, since agouti only controls the production of black pigment, it has no visible effect on a horse without black pigment. As a result, red-based horses (chestnut or sorrel and their derivatives) “mask” the presence of agouti. Either knowledge of the parents’ agouti genotypes or genetic testing is necessary to know if a “red” horse can produce black foals.
There are two additional forms of agouti that are thought to exist in horses, though no formal genetic study is available at this time. The first, wild-bay (A+), further restricts black pigment production, limiting black on the legs to around fetlock height. The second, seal brown (At), allows for more black pigment than bay, resulting in a dark brown or black horse with red or tan hairs mostly limited to the muzzle and flanks. Since the genetics are not currently understood, wild bay and seal brown horses genotype A/A or A/a for agouti.
Gene Information
ASIP acts as an antagonist of the melanocortin-1 receptor (MC1R) by nullifying the actions of melanocyte-stimulating hormone (a-MSH). In horses, the effect of agouti is mainly to change the regional distribution of black pigment, whereas in other species it also controls the temporal production (resulting in individual hairs with alternating bands of black and red pigments). Loss of function mutations result in “self” (entirely black or melanistic) coat colors in a variety of species. The a allele deletion removes a portion of the encoded amino acids, likely resulting in a non-functional protein.
References
Rieder S et al., “Mutations in the agouti (ASIP), the extension (MC1R), and the brown (TYRP1) loci and their association to coat color phenotypes in horses (Equus caballus).” (2001) Mamm Genome. 12: 450-5.
More Horse Color Genetics
Congenital Stationary Night Blindness & Leopard Complex
Congential Stationary Night Blindness (CSNB) is characterized by the inability to see well in low light and no-light situations. It is linked to Leopard Complex Spotting (LP), where homozygous horses (LP/LP) will have CSNB. Congential Stationary Night Blindness is present at birth and is non-progressive.
Champagne
Champagne (CH) is a dilution that affects all coat colors. Champagne foals are born with pink skin and blue eyes that slightly darken with age. Adult champagne horses have a distinct pumpkin colored skin with mottling in the hairless regions, as well as amber/green/tan eyes. Horses with multiple dilutions can be difficult to accurately identify color without genetic testing.
Cream
Cream (CR) is a dilution that is characterized by diluting or lightening both black-based and red-based horses. A single CR allele lightens red pigment to Palomino but does not overtly affect Black pigment. Two CR alleles results in extreme dilution of the hair, skin, and eyes of any color, though black-based horses tend to retain more pigment than red-based horses.