Sabino is a group of white spotting patterns in horses that affect the skin and hair. A wide variety of irregular color patterns are accepted as sabino. In the strictest sense, "sabino" refers to the white patterns produced by the Sabino 1 (SB1) gene, for which there is a DNA test. However, other horse enthusiasts also refer to patterns that are visually similar to SB1 as "sabino", even if testing indicates the gene is not present. Use of the term to describe non-SB1 "sabino" patterns in breeds that apparently do not carry the gene is hotly debated by both researchers and horse breeders.
Sabino patterning is visually recognized by roaning at the edges of white markings, belly spots, irregular face markings, especially white extending past the eyes or onto the chin, white above the knees or hocks, and "splash" or "lacy" marks anywhere on the body, but particularly on the belly. Some sabinos have patches of roan patterning on part of the body, especially the barrel and flanks. Some sabinos may have a dark foot or two, but most have four white feet. Both blue and brown eyes are seen. At one end of the sabino spectrum, the SB1 gene, when homozygous, can produce a horse that is almost completely white with pink or only partially-pigmented skin. Some forms of sabino genetics are also thought to be the most common reason for solid-colored horses with "chrome," a term which can refer to horses with bold white markings on the face and high white leg markings. The most generous definition of sabino can include horses with as little white as a chin or lower lip spot.
Even though horses with the Sabino 1 gene can be completely white, no forms of sabino are linked to lethal white syndrome.
Sabino 1 gene
Sabino 1 was identified in 2005 by researchers at the University of Kentucky. The Sabino 1 gene, and the associated spotting pattern, is found in Miniature horses, American Quarter Horses, American Paint Horses, Tennessee Walkers, Missouri Fox Trotters, Mustangs, Shetland Ponies, and Aztecas. SB1 is notably absent from the Arabian horse, Thoroughbred, Standardbred horse, Shire horse and Clydesdale. There are many proposed genes responsible for the sabino-like white spotting in these and other breeds. Researchers gave the allele they discovered the name "Sabino 1" with the expectation of finding genes yet to be named "Sabino 2", "Sabino 3", and so on.
Even though horses with the Sabino 1 gene can be completely white, neither Sabino 1 or any other forms of sabino are linked to lethal white syndrome (LWS). Foals afflicted with LWS are born white or near-white, but have a defective colon and invariably die within 72 hours of birth. A DNA test exists for Lethal White Syndrome to identify carriers.
Sabino 1 markings
Horses with one copy of the Sabino 1 gene are said to be heterozygous for that gene, and have a distinctive white spotting pattern. The areas of pigmentless white hair are rooted in pigmentless pink skin. Horses with the Sabino 1 pattern typically have irregular, rough-edged white patches on the extremities and the face. These white patches also often include the midsection as "belly spots." Interspersed white hairs around the white markings or on the body, which can resemble roan, are characteristics of Sabino 1, particularly when heterozygous. Typically, Sabino 1 horses have two or more white feet or legs, a blaze, spots or roaning on the belly or flanks, and jagged margins to white markings. Modest Sabino 1 markings are often difficult to tell apart from other white markings; the phenotypes overlap. Blue eyes are not associated with Sabino 1, though horses with Sabino 1 may have blue eyes from an unrelated genetic factor.
Horses with two copies of the Sabino 1 gene - one from each parent - are said to be homozygous for that gene. Homozygous Sabino 1 horses are typically at least 90% pink-skinned and white-coated at birth. Again, the eyes are not usually blue. The term "sabino-white" is used to distinguish homozygous SB1/SB1 horses from so-called "dominant white" horses, which need only a single copy of a "white" gene to have a white coat. Without a DNA test, dominant white horses and sabino-white horses are indistinguishable.
Not all "white" horses are sabino-white or even dominant white. Combinations of other white spotting patterns, such as tobiano with lethal white syndrome frame overo, can produce a horse that is 90% white or more. Cremello horses are superficially similar to sabino-whites, however cremellos have blue eyes, rosy-pink skin and a cream-colored rather than white coat. Gray horses have a white hair coat at maturity but unless they also happen to carry dilution, white, or SB1 genes, they do not have pink skin and are not white at birth.
The Sabino 1 locus is at the KIT gene. Sabino 1 is an incomplete dominant trait; each of the different genotypes corresponds to a separate phenotype. Both Sabino 1 and the many known forms of dominant white spotting in horses involve the same gene, but they are distinctly labeled. "Dominant white spotting" includes many different phenotypes and genes, while "Sabino 1" is reserved by geneticists for the gene that results in an all-white phenotype in the homozygous state.
The alleles, or "versions", of Sabino 1 were designated SB1 and sb1. The gene in the equine wildtype is recessive and the SB1 mutation is dominant.
- sb1/sb1 (also written n/n or +/+) homozygous recessive, wildtype. The horse will not have true Sabino 1 traits, but may still have white markings due to other factors.
- SB1/sb1 (also written SB1/n or SB1/+) heterozygous, sabino. The horse will have Sabino 1 traits such as white markings with jagged edges and body spots or roaning.
- SB1/SB1 homozygous sabino, sabino-white. The horse will have pink skin and white coat on at least 90% of its body from birth.
|SB1/SB1||100% SB1/SB1|| 50% SB1/SB1
|SB1/+|| 50% SB1/SB1
| 25% SB1/SB1
| 50% SB1/+|
|+/+||100% SB1/+|| 50% SB1/+
The laws of Mendelian inheritance, as summarized in the table above, show that crossing two horses with the recessive genotype (sb1/sb1 or +/+) will never produce a foal with the Sabino 1 gene, regardless of the appearance of the coat. By these same rules, the only way to guarantee a sabino-spotted foal (SB1/+) is to breed a sabino-white to a non-sabino.
The mutation responsible for Sabino 1 on the KIT gene is a single nucleotide polymorphism designated KI16+1037A. The Sabino 1 mutation results in the skipping of exon 17. Other areas of the KIT gene are responsible for tobiano, true roan, and a dozen or so dominant white phenotypes. It is also the gene associated with unpigmented patches of skin and hair on the extremities and midline of humans, mice, and pigs. KIT plays an important role in the migration of early pigment cells (melanocytes) from the neural crest to their ultimate location in the skin. Mutations on KIT appear to limit the migration of melanocytes, leaving the extremities and midline devoid of pigment cells. Other factors, including stochastic events and other genes, affect the amount of unpigmented skin and hair in the fully-developed animal.
Similar phenotypes are known in many other species. There are over 90 unique mutations on the mouse KIT gene, resulting in phenotypes that range from white toes on the hind feet to "black-eyed-white" coats. In mice, the KIT gene is dubbed the W locus.
"Sabino" but not Sabino 1
The term "sabino" can also be used in a descriptive sense for horses with markings often associated with Sabino 1: white leg markings above the knees and hocks with jagged margins, wide blazes, and belly spots or roaning. However, other horse enthusiasts, owners and breeders define the term even more broadly, to include "chrome", "high white", "excessive white" or white spots on the lower lip or chin, distal white patches on the legs, or "pointy" leg markings.
The genetics behind white markings in horses are complex. Some breed registries select against white, while others select for it; the result is that, prior to the ability to map the horse genome and perform DNA testing to verify parentage, assorted rules were created to delineate "spotted" from "non-spotted." The rules were not based on the behavior of known white spotting genes and many organizations have yet to catch up to modern understanding of genetics. Two horses with identical genotypes for a particular white spotting pattern may phenotypically be considered "solid" or "spotted," depending on the amount of patterning that is visible. Furthermore, the amount of white that a foal ends up with does not solely depend on known white spotting genes. For example, research suggests that chestnuts have more white than non-chestnuts, and that non-chestnuts carrying a masked chestnut allele have more white than non-chestnuts without a chestnut allele. White spotting genes also interact with each other, typically in a cumulative fashion.
Research indicates that there are many genes, and potentially different alleles on those genes, that produce so-called "normal" white markings. Further research suggests that when separate genes for white markings are present together, they have an additive effect, producing more white together than either gene would do alone. A similar effect is observed in pinto horses with both the tobiano and frame overo pattern; these "toveros" often have more white than either tobiano or frame overo-patterned horses. Similarly, two apparently solid-colored horses with separate factors for white markings may produce a foal expressing both, with more white than either parent.
Sabino in Arabians
It is known that sabino-like patterns do exist in purebred Arabians, though studies at the University of California, Davis indicate that the gene (or genes) which produces sabino patterning in Arabians is not SB1, and SB1 has not been found to date in Arabians. The white spotting produced by the sabino trait in Arabians was at one time controversial, and body spotting was viewed as a sign of "impure" breeding, with such horses excluded from the registry. Today, with DNA testing to verify parentage, a large number of Arabians meet the definition of having minimal to moderately expressed sabino characteristics.
Minimal sabino traits exist in Arabians and the term "maximum sabino" was coined to describe spotted Arabians that were close to 50% white. However, there are very few Arabians that visually appear to be true white, and sabino-white has not been verified in any of them. One true white horse originally identified as "bay sabino" was determined to carry an original mutation of a new form of Dominant white, and has passed this trait on to his descendants. The inheritance patterns observed in sabino-like Arabians do not follow the same mode of inheritance as Sabino 1.
Sabino in draft horses
The Clydesdale and Shire are closely-related draft horses originally bred in the United Kingdom. Apart from massive build and copious feathering, both breeds are known for consistent white markings. The most popular and acceptable form of white markings on both breeds includes a bold blaze and four even socks. Breed standards for Clydesdale horses state that "excessive white" is no longer a fault. Conversely, even in modern times, the Shire horse breed standard counts excessive white, body spotting, or roaning as a fault, especially in stallions.
Among Shires and Clydesdales, high white markings follow a pattern similar to that found in high-expression Sabino 1 sabinos. The consistency of the draft-type sabino spotting pattern led researchers to include these horses in the original study that discovered Sabino 1. However, none of the draft-type sabinos possessed the SB1 allele. White markings on the face range from blazes to bald faces to apron faces. White facial markings often extend to the chin or lip, and may wrap around the head with irregular, feathery borders. When white markings on the forelegs extend above the knees, they may trail up the shoulder or up the back of the leg to the elbow with the characteristic irregular, feathered, or roaned borders. White markings above the hocks on the hindlegs are more common, and typically trail up the front of the leg to the stifle joint and flank. When white leg markings extend above the knee or hock, they are often accompanied by body spotting, typically on the belly. These markings are also often accompanied by interspersed white hairs that give the horse a roan-like pattern. Such horses are called "roan" by the Shire and Clydesdale breed registries.
"Draft-type sabino" differs from Sabino 1 in that, while it may be dominantly inherited, it does not result in a sabino-white phenotype when homozygous. As the gene pool for these two breeds is limited, most horses can be expected to possess the gene responsible for their unique white spotting pattern. Yet, If the draft=type sabino gene produced sabino-whites, near white coats would be expected in nearly a quarter of foals. Though near-white Shires and Clydesdales can be found, they are quite uncommon.
While the pattern common to Shires and Clydesdales appears to be dominantly-inherited and results in a white spotting phenotype, it is unlikely that the allele responsible will be categorized as "dominant white." Dominant white is reserved for white spotting alleles thought to result in non-viable embryos in homozygotes. There is no evidence that embryos homozygous for draft-type sabino patterning are nonviable.
Sabino in American Quarter Horses
The term "sabino" is seldom used among American Quarter Horse breeders, as white patterning was originally considered undesirable. The American Quarter Horse breed was traditionally solid-colored and minimally-marked. Among Quarter Horse breeders, foals with ineligible amounts of white born to eligible parents were referred to as "cropouts," and, until 2004, horses that had areas of white hair rooted in pink skin beyond the gaskin on the hindleg, above the halfway point between the knee and elbow in the foreleg, or beyond the eye could not be registered. Due to the large number of horses that had these patterns, as well as a significant number of double dilute creams also caught up by this rule, the American Paint Horse Association (APHA) formed, allowing these horses to be registered as "Paints." The APHA recognizes sabino as one of the "overo" family of color patterns.
Since the relaxation of the white rule, at least one registered Quarter Horse has tested homozygous for the SB1 allele. Due to this example, as well as the extensive Quarter Horse breeding present in Paint bloodlines, it is clear that the SB1 allele exists in the breed's genepool and that there have been SB1 sabinos that had minimal markings classified as "solid". Quarter Horses may exhibit sabino-like patterning from the same genetic sources as other breeds.
Combination patterns and mimics
Sabino may bear some resemblance to other color patterns. Because breeders of pintos, particularly American Paint Horses, often crossbred various color patterns, it is possible for a horse to carry genes for more than one pattern. The presence of multiple white spotting patterns often produces an additive effect and such horses may show characteristics of both patterns. This can, at times, make identification and registration of spotted horses a challenge. Conversely, even if a spotting gene is present, white body markings may be so minimal in some individuals that they are registered as solid-colored. However, they may produce strongly-colored offspring, which are sometimes referred to as "cropouts."
Frame and sabino
While the American Paint Horse Association (APHA) refers to both sabino and frame patterns as "overo", they are genetically unrelated and visually distinct. The frame spotting pattern is produced by the Ile118Lys mutation on the equine Endothelin receptor type B gene. Frame is characterized by jagged but sharply defined, horizontally-oriented white patches on the horse's neck, shoulder, flank and hindquarters. By itself, the frame pattern does not produce white markings that cross the back, or affect the legs or tail. It does, however, often produce bald faces and blue eyes. Horses homozygous for the Ile118Lys mutation on the equine Endothelin receptor type B gene are born all-white or nearly-white with some pigmentation along the topline, and die shortly after birth from lethal white syndrome. The expression of the frame pattern varies from minor white markings to the distinctive framed pattern, with some DNA-tested frames appearing solid.
Horses carrying both frame and sabino genes can be expected to show characteristics of both patterns. While frame alone is seldom responsible for white leg markings, a frame-sabino blend might have frame body markings and white markings on the legs. Similarly, while frame alone usually produces markings with jagged but sharply-defined white patches, the addition of sabino can be expected to have roaned edges and roaning on the body. Blue eyes are not considered a sabino characteristic, but frame-sabino blends may have a lot of facial white and even blue eyes. Frame in conjunction with sabino can produce the "medicine hat" pattern, where only the ears and poll and sometimes the topline may have pigment. (Medicine hat horses sometimes also have a "shield" pattern on the chest). Horses with even less pigment than a medicine hat may be classed as "breeding stock white" by the American Paint Horse Association, may also be horses with both frame and sabino genes.
Since the APHA overo classification system was created prior to modern genetic studies, it is based on physical description and not genetics. Thus, frame-sabino blends of different expressions may be considered "breeding stock solid", "overo", or "breeding stock white". Without genetic testing, horses with frame genetics but lacking obvious frame characteristics may be bred to each other or to identified frames and may produce lethal white foals. The frame pattern and lethal white syndrome are produced by the same mutation, not separate, closely-linked conditions. No other white-spotting patterns are indicative of lethal white syndrome.
Terminology as well as identification can be a challenge even for knowledgeable breeders. Standards for horse breeds which do not carry frame or splash spotting patterns, such as the Arabian and Clydesdale, do not consider sabino to be an overo pattern, but sometimes classify sabino horses as roan. To confuse matters further, in Spanish-speaking countries, the term "overo" actually refers to horses with what is called "sabino" in English; meanwhile, in South America, the term "sabino", which literally translated from Spanish means "speckled" or sometimes "roan", refers to a flea-bitten gray.
Splash and sabino
Splash, or splashed white, is a distinct and uncommon pattern that is also classified by the APHA as "overo" and has not yet been genetically mapped. The splash pattern is characterized by blue eyes and crisp, smooth markings that make the horse appear to have lowered its head and waded through white paint. The legs, tail, underside and head are typically white; the white head is distinct from frame and sabino face markings, which are jagged or wrap around, in that most of the head is white. Splash horses are sometimes deaf. Splashed white is found in paints, Welsh ponies, Icelandics, and Morgans. It is theorized that splash is incomplete dominant and that heterozygous splash horses often have minimal markings that resemble those of sabinos or generic white markings. The most minimal splashes may have only a bottom-heavy, off-center snip and low hind socks. Splash-sabino blends will have characteristics of both patterns, such as jagged patches and roaning, blue eyes and blocky white markings. In horses which minimally express both, accurate identification can be very difficult, and without a DNA test for splash, is primarily conjecture.
Tobiano and sabino
The tobiano pattern is easily recognizable and tobiano horses are categorized separately from other patterns in breeding associations for pinto-spotted horses. Even though they are visually quite distinctive, the simple dominant allele responsible for the tobiano pattern is quite close to known and suspected sabino loci. The tobiano pattern is characterized by smooth, crisp-edged white markings arranged vertically on the body, sometimes as if in bands. The legs are often white, and the tail is often white or partly-white. Tobiano is not responsible for facial markings or blue eyes. A tobiano-sabino blend might then have more than the expected amount of facial white markings, and blotchy or roaned edges to the tobiano white markings. Tobiano markings do not usually occur on the stifle and flanks, while sabino leg markings frequently run into these areas; a clearly tobiano-marked horse with white that runs up the legs to the stifle and flanks is likely also a sabino. Due to the additive effect of multiple white spotting genes, tobiano-sabino blends may have more white than is otherwise expected.
Some horses may simultaneously carry genes for both the tobiano spotting pattern and for sabino. This is generally noticed when a tobiano horse has spots with roaning around the edges, or other sabino traits such as belly white, white on the chin, or "high white" markings. Tobiano is a dominant gene, is not related to sabino, but because pintos with different spotting patterns are often crossed on one another, it is easily possible for a horse to carry multiple spotting pattern genes.
Tobiano-sabino blends registered with color breed associations for spotted horses may be categorized as "tovero." Some cases of the "medicine hat" pattern, where only the ears and poll and sometimes the topline (and sometimes the chest has a "shield" pattern) may have pigment, and white or nearly-white horses may be tobiano-sabino blends.
Roan, rabicano, and sabino
A true roan is neither sabino nor gray, but instead refers to a pattern of evenly-interspersed white hairs on the body with minimal white hairs on the head and legs and few, if any white markings. The primary characteristics of sabino are white markings on the head and legs, often with roaning at the edges. When both roan and sabino are present in the same horse, it can be difficult to tell whether the roaning is due to sabino or true roan, especially if the white markings entirely cover up the telltale dark head and legs.
In some breed registries, the term "roan" is used to record sabinos, particularly with thoroughbreds and Arabians. Sabinos or sabinos with roaning have also been described as "roan" by Clydesdale, Shire, and Tennessee Walking Horse registries.
Rabicano is another type of "roaning" or ticking characterized by scattered white hairs centered around the flanks, barrel and white hairs at the base of the tail. Only in the most extreme circumstances is rabicano linked to underlying pink skin. It is unknown if the roaning characteristic of some sabino-type patterns is due to the additional presence of rabicano or a separate mechanism. Rabicanos are also often identified as roans, even among breeds that do not have true roans, such as Thoroughbreds and Arabians.
Gray and sabino
Gray horses undergo progressive silvering that begins at or shortly following birth. Young gray horses often exhibit a mixture of whitish and colored hairs which can be mistaken for roaning. Grays develop more and more white hairs over the course of several years, most eventually losing all or almost all of their original colored hair. Sabino markings are permanent, and while some changes are not out of the ordinary, drastic color changes are not characteristic of sabino-type patterns. If a horse carries both genes, it will show spotting patterns while young, but they will fade over time as the overall coat lightens to white. Once the horse has fully grayed, the pink skin beneath the original white markings will still exist, but may not be obvious unless the horse has a body-clipped hair coat or is wet.
"Maximum White" Sabino
There are differences in terminology amongst genetics researchers and certain organizations that promote sabino color, particularly in Arabians. Some researchers, such as Dr. Phillip Sponenberg, use the term "maximum sabino" rather than "sabino-white" to describe horses more than 90% white. Groups promoting sabino color have a more generous definition; the Sabino Arabian Horse Registry considers a "Maximum" Sabino to be a horse that is over 50% white.
Breeds that recognize sabino patterning
Breed standards that recognize the sabino pattern include the Mustang, American Paint, Miniature horse, Morgan, Hackney (and Hackney pony), Tennessee Walking Horse, and the pinto color breed registries. Horse breeds that are generally solid-colored and do not allow most pinto coloring in their breed registries, but who may have representatives with the sabino gene pattern expressed by high white, belly spots, lacy or roaning patches and white extending past the eyes include the Clydesdale, Arabian, Thoroughbred and Shire.
The most controversial expression of the sabino gene complex was in the American Quarter Horse, which for years did not register horses with "cropout" color or blue eyes, i.e. typical sabino patterns, nor cremello or perlino horses. This exclusion of cropout foals, even from two solid-colored parents, led in part to the formation of the APHA registry. However, since the advent of DNA testing to confirm parentage, the AQHA has repealed this controversial "white rule", allowing light-colored horses and those with body spots to be registered.
- ↑ 1.0 1.1 1.2 1.3 Brooks, Samantha; Ernest Bailey (2005). "Exon skipping in the KIT gene causes a sabino spotting pattern in horses" (PDF). Mammalian Genome 16 (11): 893–902. doi:10.1007/s00335-005-2472-y. PMID 16284805. http://l.academicdirect.org/Horticulture/GAs/PhDs/NR/Brooks_Dissertation.pdf. "Chapter 3".
- ↑ Brooks, Samantha (2005). "The SNP was found among American Miniature Horses, American Paint Horses, Azteca, Missouri Fox Trotters, Shetland Ponies, and Spanish Mustangs."
- ↑ Brooks, Samantha, et al. (2005). "Consequently, we anticipate future discoveries of other genes encoding different sabino phenotypes (possibly designated SB2, SB3, etc)."
- ↑ "Horse coat color tests" from Veterinary Genetics Laboratory, School of Veterinary Medicine, University of California, Davis. Web Site accessed January 12, 2008
- ↑ Brooks, Samantha, et al (2005). "[W]hite patches often extend to include the belly and midsection, either as distinct areas of white hair, or as a diffuse scattering of white hairs resembling roan."
- ↑ Brooks, Samantha et al (2005). "Horses characterized as having a Sabino 1 white spotting pattern possessed 3 out of 4 of the following characteristics: 1) two or more white feet or legs, 2) blaze (white patch extending the length of the face), 3) jagged margins around white areas, and 4) spots or roaning in the midsection."
- ↑ Brooks, Samantha, et al. (2005). "[H]omozygosity for the Sabino 1 gene may result in a phenotype exhibiting extensive white coat color, hereafter referred to as sabino-white in order to distinguish it from White (W)."
- ↑ Brooks, Samantha et al (2005). "...base substitution for T with A in intron 16, 1037 bases following exon 16."
- ↑ "Markings". Sabino Horse Registry. http://www.sabinohorseregistry.com/markings.htm. Retrieved 2009-06-16.
- ↑ 10.0 10.1 Woolf, CM (Jul-Aug 1990). "Multifactorial inheritance of common white markings in the Arabian horse". Journal of Heredity 81 (4): 250–6. PMID 2273238. "...[T]he results support the model that additively acting genes (polygenes) influence the presence and extent of common white markings...".
- ↑ UC Davis. "Horse Coat Color Tests". Veterinary Genetics Laboratory. University of California - Davis. http://www.vgl.ucdavis.edu/services/coatcolorhorse.php. Retrieved 2008-01-11.
- ↑ 12.0 12.1 12.2 Sabino Arabian Horse Registry; "Rules and Regulations," accessed April 1, 2007
- ↑  Haase B, Brooks SA, Schlumbaum A, Azor PJ, Bailey E, et al. 2007 Allelic Heterogeneity at the Equine KIT Locus in Dominant White (W) Horses. PLoS Genet 3(11): e195. doi:10.1371/journal.pgen.0030195
- ↑ Animal Genetics, Incorporated. "Sabino 1"
- ↑ 15.0 15.1 "History of the Breed". Clydesdale Breeders of the USA. http://clydesusa.com/101-history.php. Retrieved 2009-06-18. "Popular markings for today's big hitches are four white socks to the knees and hocks, and a well-defined blaze or bald face, however, the show ring does not discriminate on color, with light roans and dark legs being considered equally with solid colored horses with traditional markings."
- ↑ 16.0 16.1 "The Modern Clydesdale". The Clydesdale Horse. The Clydesdale Horse Society. http://www.clydesdalehorsesociety.com/modern.htm. Retrieved 2009-06-18. "After the 1900's, breeders used Shire blood to increase white markings...the white hair occasionally strayed onto the Clydesdales' body, giving an animal of a roan colour. The purists frowned upon these animals, believing that only a good solid colour was correct. However, most people today believe that a good horse cannot be a bad colour, so roan horses and horses with white areas on the body are acceptable."
- ↑ 17.0 17.1 "Standard of Points for Shires". The Shire Horse Society. http://www.shire-horse.org.uk/breed_standard.htm. Retrieved 2009-06-18. "No good stallion should be splashed with large white patches over the body. He must not be roan or chestnut."
- ↑ 18.0 18.1 Stamatelakys, Irene (August 2007). "The science of sabino" (PDF). Paint Horse Journal (American Paint Horse Association) 41 (8). http://www.painthorsejournal.com/archives/pdfs/TheScienceofSabinoAug07.pdf. Retrieved 2009-06-18. "“The draft-type sabino, for example, is present in heavy horses, Shires, Clydesdales, etc. This population, until the recent popularity of draftcrosses and spotted drafts, was not intermingled much with the light horses. And, though it seems to be dominantly inherited, it does not produce a white phenotype.” [Samantha Brooks]".
- ↑ Brooks, Samantha, et al (2005). "[W]hite Clydesdale horses are uncommon despite the high frequency of a gene for a sabino-type pattern among horses of that breed."
- ↑ Castle, Nancy (2009-05-19). "Equine KIT Gene Mutations". http://www.duncentralstation.com/PDF/KITGeneMutations-Castle.pdf. Retrieved 2009-06-18.
- ↑ "2004 Registration Changes". American Quarter Horse Association. http://www.aqha.com/forms/pdf/2004regchanges.pdf. Retrieved 2009-06-18.
- ↑ 22.0 22.1 22.2 Metallinos, DL; Bowling AT, Rine J (June 1998). "A missense mutation in the endothelin-B receptor gene is associated with Lethal White Foal Syndrome: an equine version of Hirschsprung Disease". Mammalian Genome (New York: Springer New York) 9 (6): 426–31. doi:10.1007/s003359900790. ISSN 0938-8990. PMID 9585428. http://www.springerlink.com/content/xehe4p28y8p7cw98/. Retrieved 2008-09-04.
- ↑ "Genetic Equation". American Paint Horse Association. http://www.apha.com/breed/geneticeq3.html. Retrieved 2008-09-04. "Recent characterization of the gene involved in the lethal white foals has confirmed that the foals with two doses of the gene are white, and die soon after birth from gut innervation abnormalities. Horses with only one dose are frame overos, and survive."
- ↑ 24.0 24.1 24.2 24.3 Vrotsos, PD; Santschi EM, Mickelson JR (2001). "The Impact of the Mutation Causing Overo Lethal White Syndrome on White Patterning in Horses" (PDF). Proceedings of the Annual Convention of the AAEP 2001 (American Association of Equine Practitioners) 47: 381–91. http://www.ivis.org/proceedings/aaep/2001/91010100385.pdf. Retrieved 2008-09-05.
- ↑ "Equinecolor.com sabino page accessdate=". http://www.equinecolor.com/sabino.html.
- ↑ American Paint Horse Association. "Splashed White". Genetic Equation. http://www.apha.com/breed/geneticeq5.html.
- ↑ 27.0 27.1 Laura Behning. "Splashed White". Morgan Colors. http://www.morgancolors.com/splashwhite.htm.
- ↑ "Why Color Your Horse?"