Equine Coat Color Genetics - Agouti

Agouti controls the restriction of true black pigment (eumelanin) in the coat. Horses with the normal agouti gene have the genotype A/A or A/a. Horses without a normal agouti gene have the genotype a/a, and if they are capable of producing black pigment, it is uniformly distributed throughout the coat. A third option, At, restricts black pigment to a black-and-tan pattern called seal brown. This allele is recessive to A and dominant to a, such that horses with the genotype A/At appear bay, while At/At and At/a horses are seal brown in the presence of a dominant Extension allele E.

The Agouti locus is occupied by the Agouti signalling peptide (Asip) gene, which encodes the eponymous protein (ASIP). Agouti signalling peptide is a paracrine signaling molecule that competes with alpha-melanocyte stimulating hormone (α-MSH) for melanocortin 1 receptor proteins (MC1R). MC1R relies on α-MSH to halt production of red-yellow pheomelanin, and initiate production of black-brown eumelanin in its place.

In many species, successive pulses of ASIP block contact between α-MSH and MC1R, resulting in alternating production of eumelanin and pheomelanin; hairs are banded light and dark as a result. In other species, Asip is regulated such that it only occurs in certain parts of the body. The light undersides of most mammals are due to the carefully controlled action of ASIP. In mice, two mutations on Agouti are responsible for yellow coats and marked obesity, with other health defects. Additionally, the Agouti locus is the site of mutations in several species that result in black-and-tan pigmentations. In normal horses, ASIP restricts the production of eumelanin to the "points": the legs, mane, tail, ear edges, etc. In 2001, researchers discovered a recessive mutation on Asip that, when homozygous, left the horse without any ASIP. As a result, horses capable of producing true black pigment had uniformly black coats. More recently, one coat color testing lab has begun offering a test for At. Further research remains to be seen.