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Roan is a horse coat color pattern characterized by an even mixture of colored and white hairs on the body, while the head and "points"—lower legs, mane and tail—are mostly solid-colored. Horses with roan coats have white hairs evenly intermingled throughout any other color. The head, legs, mane and tail have fewer scattered white hairs or none at all. The roan pattern is dominantly-inherited, and is found in many horse breeds. While the specific mutation responsible for roan has not been exactly identified, a DNA test can determine zygosity for roan in several breeds. True roan is always present at birth, though it may be hard to see until after the foal coat sheds out. The coat may lighten or darken from winter to summer, but unlike the gray coat color, which also begins with intermixed white and colored hairs, roans do not become progressively lighter in color as they age. The silvering effect of mixed white and colored hairs can create coats that look bluish or pinkish.
Horses with the roan pattern have an even mixture of white and colored hairs in the coat. These interspersed white hairs are more scattered or absent on the horse's head, mane, tail, and lower legs. The unaffected color on the legs often forms a sharp, inverted "V" above the knee and hock, not seen in other roan-like coat patterns. The non-white background coat may be any color, as determined by unrelated genetic factors.
Often, the background coat color is used in combination with the word "roan" to describe the shade of a roan horse's coat, such as bay roan or gold champagne roan. However, there are also colloquial terms used for some colors. The most common terms for various roan colors are the following:
Some roan horses have more white hair than others, and even individual horses may look lighter or darker based on the season and their coats may vary from year to year. While roan is always present at birth, the soft first coat of newborn foals may not show the white hairs well. Some roan horses get darker with age. Generally, roans appear to have more white hair when they have their short summer coats and darker when they have their winter coats. These peculiar tendencies of roans led to the Icelandic word for roan, which translates as "always changing color."
Roans have other unusual characteristics. If the skin is damaged by even a very minor scrape, cut or brand, the coat grows back in solid-colored without any white hairs. These regions of solid-colored coat are called "corn spots" or "corn marks" and can appear even without the horse having had a visible injury. Another trait is reverse dappling; many horses develop rings of hair that appear slightly different-colored, called dapples, which often indicate good health. Usually dapples are darker than the surrounding coat, but on a roan, the dapples are lighter.
In the most general sense, the word "roan" refers to any animal with a mixture of white and colored hairs in the coat. Recent research into equine coat color genetics indicates that "true roan" or "classic roan" is distinct from several similar patterns which are collectively called "roaning." In studies of the white patterning genotypes of laboratory mice, no fewer than four produced roaning or flecking. Therefore, the existence of other types of roaning conditions not covered by those mentioned here is possible and likely. The patterns identified as "roaning" have particular qualities that can be used to tell them apart from true roan.
Roans are sometimes mistaken for grays. However, grays lighten with age, while roans do not. Gray is one of the most common coat colors found in horses, and is found in almost all breeds. The defining characteristic of the gray coat is that it becomes progressively lighter over time. Gray foals may be born any color, and there may be no indication of the future gray coat at birth. Mature grays may retain none of their original coat color, and have a "white" coat, while the color of the skin and eyes is unchanged. The first white hairs are usually seen around the muzzle and eyes. As a gray may go from entirely colored to entirely white over the course of its life, the process of "graying out" can, at times, closely resemble roan. Thoroughbred and Arabian horses registered as "roan" are often gray, especially chestnuts turning gray. Unlike grays, roans do not develop more white hair with age, and without white markings, roans retain colored heads.
Blue dun or grullo (also grulla, mouse dun) coloring is created by the dun gene acting on a black base coat, is a coat color with a bluish cast and darker points. Unlike blue roans, grullos are solid color and appear bluish due to low amounts of pigment in each hair, not interspersed white hairs. Like other dun coat colors, grullos have dark or black primitive markings, always including a stripe down the back.
One pattern of roaning is rabicano, also called white ticking. While true roans have an even intermixture of white hairs throughout the body, except the extremities, the white hairs of a rabicano are densest around the base of the tail and the flank. Rabicano roaning frequently forms rings of white hair around the base of the tail, and in extensively roaned rabicanos, the white hairs may converge to form vertical stripes over the ribcage. Rabicano is found in many breeds, and may account for some "roan" Arabians.
Roaning is also associated with some of the sabino white spotting patterns. There are many patterns in many breeds called "sabino," and these patterns usually feature irregular, rough-edged patches of white that originate from the lower legs, face, and ventral midline. The borders of these white patches can be heavily roaned, and some sabinos can be mistaken for roans. The roaning of sabinos will originate in a white patch, and the roaning is uneven.
The leopard complex colors, characteristic of the Appaloosa breed, have several manifestations that feature mixtures of white and colored hairs. A varnish roan, one type of leopard complex coat color also called "marble", is an all-over blend of white and colored hairs. Patches of skin that lie close to the bone, such as on the face and legs, and the point of shoulder and point of hip, do not grow as much white hair. These darker patches are called "varnish marks" and are not found in true roans. Varnish roans can also be distinguished from true roans by the presence of leopard complex characteristics, such as the white sclera, finely striped hooves, and mottled skin around the eyes, muzzle, and genitals.
True or classic roan is common in European draft breeds such as the Brabant, Ardennes, Trait Du Nord, Italian Heavy Draft, and Rhenish-German Cold-Blood. It is also found regularly in North American breeds like the Quarter Horse, Paint Horse, Peruvian Paso, Paso Fino, Standardbred, Spanish Mustang, and Tennessee Walking Horse.
British ponies such as Dales Ponies, Welsh Ponies, Gypsy Cobs, Shetland Ponies, Connemara ponies, and New Forest ponies may be roan. Icelandic horses and Miniature horses may also be roan. Some roan Trakehners and American Saddlebreds are known. The Hokkaido Pony of Japan may also be roan.
True roan has not been satisfactorily identified in Arabians or Thoroughbreds. Despite this, Thoroughbreds and Arabians with roan-like coats are sometimes registered as "roan." Thoroughbred "roans" are described by the Jockey Club as a mixture of white with red or brown hairs, but which researchers identify as chestnuts turning gray. The Arabian Horse Association defines "roan" as an even mixture of white and colored, usually chestnut, hairs, but researchers suggest this may actually be a unique type of white pattern, probably rabicano, or, occasionally, minimally expressed sabino.
Roan is a simple dominant trait symbolized by the Rn allele. Traits that are dominantly-inherited cannot skip generations, meaning that two non-roan parents cannot produce a roan offspring. In cases where roan has appeared to skip generations, one of the parents is usually discovered to be slightly roaned. A roan can also be born from two seemingly non-roan parents if the roan coat is "masked" by extensive white markings or gray. In some cases, the supposedly roan offspring is not true roan at all, but rabicano, sabino, or influenced by some other genetic factor.
The University of California, Davis School of Veterinary Medicine's genetics services have developed a DNA test that uses genetic markers to indirectly determine the number of Rn or rn alleles a horse has. The mutation responsible for true roan has not yet been identified exactly, but been assigned to equine chromosome 3 (ECA3) in the KIT sequence. A the roan zygosity test is reliable for American Quarter Horse, American Paint Horse, Welsh Pony, and Gypsy Cob. Until a direct test is developed, the roan zygosity test may enable breeders to produce roans more reliably.
A 1979 study of American-bred Belgian draft horses found fewer roan offspring from roan-to-roan matings than expected for a simple dominant trait. Finding neither stillborn nor sickly, short-lived foals from these roan parents, the researchers concluded that in the homozygous condition the roan gene was lethal to the embryo or fetus. Other studies at the time were using progeny ratios to identify potential lethality related to other coat colors, such as "dominant white" and "lethal white," and so roan was believed to follow a similar pattern. Genetic science in the 1970s could not provide a clear answer, as methods of molecular analysis had not yet been developed.
The belief in "lethal roan" persisted until recently, when homozygous roan stallions with large numbers of offspring - all roan - were satisfactorily identified. Homozygous roan stallions were identified in both European populations of Belgian horsess in 1977, and in North American, in Quarter Horse stallions.
In some breeds, homozygous roans can be identified by an indirect DNA marker test. Such horses, with the genotype Rn/Rn, produce 100% roan offspring. Homozygous roans and heterozygous roans (Rn/rn) are identical in appearance.
During the production of sex cells, DNA is "reshuffled" to ensure that the next generation does not inherit, for example, grandpa's chromosome 8, but a mixture of DNA from each parent. Instead, paired chromosomes exchange parallel pieces of DNA, a process called chromosomal crossover, prior to being passed on to the next generation. When particular genes are located physically close together on a chromosome, they tend to be passed on together. The rate at which two genes are passed on together can be used to calculate their distance from each other on the chromosome. Genes which tend to be passed on as a group form what is called a "linkage group."
Equine linkage group II includes a number of genes. The first linkage was found between a blood type marker and tobiano white spotting in 1978. The same blood type marker, albumin, was linked to another blood protein called vitamin D-binding protein. In 1982, a linkage grouping was proposed, including three genes for serum proteins, and three for coat color: tobiano spotting, chestnut, and roan. Research since equine linkage group II was defined has identified the exact location of the tobiano allele and the chestnut allele. The region of the chromosome that harbors the roan gene is homologous to parts of chromosomes in other species that also control coat color, even some similar to roan. Presently, the KIT gene is the primary candidate gene for roan. While a chromosomal inversion of KIT causes tobiano white spotting, KIT also harbors one or more alleles responsible for sabino spotting, no fewer than eleven alleles responsible for dominant white spotting, and is thought to be a major contributor to many other forms of less distinctive white markings.
The effect of linkage between roan and chestnut is readily observed. If a horse possesses one chromosome with the wildtype non-chestnut allele and the dominant roan allele (E and Rn), while the other chromosome contains the recessive chestnut allele and the recessive non-roan allele (e and rn), he will outwardly appear blue roan, barring the influence of other genes. Normally, the chestnut and roan alleles would be separated during chromosomal crossover, but these two linked genes will usually remain together. Such a horse will produce sex cells that are either E/Rn or e/rn. Mated to chestnut non-roan partners (e/rn), the horse would produce primarily blue roans, or chestnut non-roans, but few chestnut roans and few black non-roans. If, on the other hand, the recessive e and dominant Rn were on the same chromosome, the horse would be expected to produce primarily chestnut roans and non-chestnut non-roans with chestnut, non-roan partners.
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