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A bay horse, showing black points. The word "points" is given to the mane, tail, lower legs, and ear rims with respect to horse coloration. The overall name given to a horse coat color depends on the color of both the points and the body. For example, bay horses have a reddish-brown body with black points. [3]
Bay is a hair coat color of horses, characterized by a reddish-brown or brown body color with a black point coloration on the mane, tail, ear edges, and lower legs. Bay is one of the most common coat colors in many horse breeds. The black areas of a bay horse's hair coat are called "black points", and without them, a horse is not a bay horse.
The term is not to be confused with "brown", which is used by some breed registries to refer to either a seal brown horse or to a dark bay without the additional characteristics of seal brown. Like bay, the seal brown color lacks the non-agouti mutation that would create a fully black horse. [1]
Cream coat colors are described by their relationship to the three "base" coat colors: chestnut, bay, and black. All horses obtain two copies of the SLC45A2 gene; one from the sire, and one from the dam. A horse may have the cream allele or the non-cream allele on each gene. Those with two non-cream alleles will not exhibit true cream traits.
EE, Ee, or Ee a: Horse forms black pigment in skin and hair, and may be black, seal brown, or bay. ee, ee a, or e a e a: Horse is chestnut; it has black pigment in skin, but red pigment in hair. ASIP (Agouti) A a: Agouti: Restricts eumelanin, or black pigment, to "points," allowing red coat color to show on body. No visible effect on red horses ...
Some coat colors partially distinguished by unique patterning include: Bay: A horse coat color that features black point coloration on a red base coat. All bay horses have a black mane, tail and legs (except where overlain by white markings), caused by the presence of the agouti gene. Most have black hairs along the edges of their ears and on ...
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Champagne is a dominant trait, based on a mutation in the SLC36A1 gene. [1] A horse with either one or two champagne genes will show the effects of the gene equally. However, if a horse is homozygous for a dominant gene, it will always pass the gene on to all of its offspring, while if the horse is heterozygous for the gene, the offspring will not always inherit the color.