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Twilight, the Thoroughbred mare who was the first horse to have its genome fully sequenced. The horse genome was first sequenced in 2006. The Horse Genome Project mapped 2.7 billion DNA base pairs, [1] and released the full map in 2009. [2] The horse genome is larger than the dog genome, but smaller than the human genome or the bovine genome. [2]
Horse cloning is the process of obtaining a horse with genes identical to that of another horse, using an artificial fertilization technique. Interest in this technique began in the 1980s. The Haflinger foal Prometea, the first living cloned horse, was obtained in 2003 in an Italian laboratory. Over the years, the technique has improved.
Horses with a gray gene can be born any color and their hair coat will lighten and change with age. Most wild equids are dun, as were many horses and asses before domestication of the horse . Some were non-dun with primitive markings , and non-dun 1 is one of the oldest coat color mutations, and has been found in remains from 42,700 years ago ...
The cream gene is responsible for a number of horse coat colors. Horses that have the cream gene in addition to a base coat color that is chestnut will become palomino if they are heterozygous, having one copy of the cream gene, or cremello, if they are homozygous. Similarly, horses with a bay base coat and the cream gene will be buckskin or ...
The dun gene is a dilution gene that affects both red and black pigments in the coat color of a horse. The dun gene lightens most of the body while leaving the mane , tail, legs, and primitive markings the shade of the undiluted base coat color.
This Thoroughbred stallion (W2/+) has one form of dominant white.His skin, hooves, and coat lack pigment cells, giving him a pink-skinned white coat. Dominant white (W) [1] [2] is a group of genetically related coat color alleles on the KIT gene of the horse, best known for producing an all-white coat, but also able to produce various forms of white spotting, as well as bold white markings.
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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.