The genetic basis of coat colour in the Labrador Retriever has been found to depend on several distinct

genes In biology, the word gene (from , ; "...Wilhelm Johannsen coined the word gene to describe the Mendelian units of heredity..." meaning ''generation'' or ''birth'' or ''gender'') can have several different meanings. The Mendelian gene is a ba ...

. The interplay among these

is used as an example of

epistasis Epistasis is a phenomenon in genetics in which the effect of a gene mutation is dependent on the presence or absence of mutations in one or more other genes, respectively termed modifier genes. In other words, the effect of the mutation is dep ...

Background

Labrador Retrievers are a popular

dog breed A dog breed is a particular strain of dog that was purposefully bred by humans to perform specific tasks, such as herding, hunting, and guarding. Dogs are the most variable mammal on Earth, with artificial selection producing around 450 globall ...

in many countries. There are three recognised colours, black, chocolate, and yellow,Carol Coode, ''Labrador Retrievers Today'', Howell Book House: New York, 1993. that result from the interplay among genes that direct production and expression of two

pigments A pigment is a colored material that is completely or nearly insoluble in water. In contrast, dyes are typically soluble, at least at some stage in their use. Generally dyes are often organic compounds whereas pigments are often inorganic compoun ...

eumelanin Melanin (; from el, μέλας, melas, black, dark) is a broad term for a group of natural pigments found in most organisms. Eumelanin is produced through a multistage chemical process known as melanogenesis, where the oxidation of the am ...

(brown or black pigment) and

pheomelanin Melanin (; from el, μέλας, melas, black, dark) is a broad term for a group of natural pigments found in most organisms. Eumelanin is produced through a multistage chemical process known as melanogenesis, where the oxidation of the am ...

(yellow to red pigment), in the fur and skin of the dog. The recognized colours are due to two genes, while a third gene affects the range of colouration observed within the yellow Labrador. These individual genes do not act independently of each other, and their interaction in affecting the trait of coat colour is used by biology textbooks to demonstrate the genetic principle of

, where multiple genes react synergistically to affect a single trait.Jane B. Reese ''et al''., ''Campbell Biology'', 9th Ed., Benjamin Cummings, Boston, 2011, p. 273. The genetics of mammalian colouration has been studied in detail, and similar mechanisms have been identified across many species. For this reason, much of the early work on the colouration of dogs in general and Labradors in particular have relied heavily on analogy to the traits characterized in mice and other mammals.Christopher B. Kaelin and Gregory S. Barsh, "Genetics and Pigmentation in Dogs and Cats", ''Annual Review of Animal Bioscience'', 1: 125-156 (2013) Initial genetic studies of coat colour in dogs published in the 1950s concluded that there were two main genes involved, one distinguishing blacks from browns, and the other distinguishing blacks from reds and yellows.C. C. Little, ''Inheritance of Coat Color in Dogs'', (Ithaca, NY: Comstock Publishing, 1957)Sheila M. Schmuts, Tom G. Berryere and Angela D. Goldfinch, "''TYRP1'' and ''MC1R'' genotypes and their effects on coat color in dogs", ''Mammalian Genome'', 13: 380-387 (2002) A 1977 study using crosses within a population of purebred Labradors showed the involvement of two specific genes in production of the three main coat colours of Labradors and described the underlying genetics of these colour varieties.

Genes for black, chocolate, and yellow colouration

Eumelanin colour

The three recognised colours of Labrador Retrievers result from differences in two genetic loci that affect pigment expression. The first of these affects the colour of the dark pigment, eumelanin, and is referred to as the B (brown) locus. The variation displayed by this locus is observed in many mammals, reflecting a so-called '

dilution Dilution may refer to: * Reducing the concentration of a chemical * Serial dilution, a common way of going about this reduction of concentration * Homeopathic dilution * Dilution (equation), an equation to calculate the rate a gas dilutes * Trad ...

', a lightening, of black eumelanin to a brown colour. Initial genetic research excluded a role for the

melanocortin 1 receptor The melanocortin 1 receptor (MC1R), also known as melanocyte-stimulating hormone receptor (MSHR), melanin-activating peptide receptor, or melanotropin receptor, is a G protein–coupled receptor that binds to a class of pituitary peptide hormones ...

and the ''Agouti'' locus as being the cause of the black dilution trait in dogs. Instead, TYRP1 (tyrosinase related protein 1) was found to be responsible. This enzyme is localised to

melanosomes A melanosome is an organelle found in animal cells and is the site for synthesis, storage and transport of melanin, the most common light-absorbing pigment found in the animal kingdom. Melanosomes are responsible for color and photoprotection ...

, the cellular organelles that produce and store pigments, and serves to catalyze oxidation of eumelanin precursors. In dogs, three

mutations In biology, a mutation is an alteration in the nucleic acid sequence of the genome of an organism, virus, or extrachromosomal DNA. Viral genomes contain either DNA or RNA. Mutations result from errors during DNA or viral replication, m ...

in the TYRP1 gene have been identified, one resulting in a truncation of the protein, the other two leading to an

amino acid Amino acids are organic compounds that contain both amino and carboxylic acid functional groups. Although hundreds of amino acids exist in nature, by far the most important are the alpha-amino acids, which comprise proteins. Only 22 alpha ...

deletion or a single amino acid substitution in the sequence of the protein. All of these mutations are found across the range of dogs, and hence are thought to have preceded the divergence of distinct breeds, and all three are found within Labrador Retrievers. Each of the mutations appears to eliminate or significantly reduce enzymatic activity, and the colouration

phenotype In genetics, the phenotype () is the set of observable characteristics or traits of an organism. The term covers the organism's morphology (biology), morphology or physical form and structure, its Developmental biology, developmental proc ...

s (the visible traits) produced by the three mutations are indistinguishable. These represent

recessive In genetics, dominance is the phenomenon of one variant ( allele) of a gene on a chromosome masking or overriding the effect of a different variant of the same gene on the other copy of the chromosome. The first variant is termed dominant an ...

mutations in the TYRP1 gene, and since mammals have two copies of each gene, one from each parent, an animal with at least one copy of the fully functioning TYRP1 protein (represented as 'B') will display the dominant trait, black pigmentation, while to display brown pigmentation, both copies of this gene must be mutant

alleles An allele (, ; ; modern formation from Greek ἄλλος ''állos'', "other") is a variation of the same sequence of nucleotides at the same place on a long DNA molecule, as described in leading textbooks on genetics and evolution. ::"The chrom ...

(collectively represented as 'b'). Thus a dog with the

genotypes The genotype of an organism is its complete set of genetic material. Genotype can also be used to refer to the alleles or variants an individual carries in a particular gene or genetic location. The number of alleles an individual can have in a ...

BB or Bb will express black eumelanin, while brown eumelanin will be seen in dogs with the bb genotype.

Eumelanin distribution

A second gene affects whether these eumelanin pigments will be expressed in the fur or solely in the skin. Called the 'extension' (E) trait, this is directed by the

(MC1R). This receptor signals the pigment-producing cell in response to melanocortins and results in deposition of eumelanin into the hair. Mutations in this protein have been shown to be involved in pale or red colour phenotypes in a range of species, including humans, horses, pigs, cattle, mice, fur seals, mammoths and the Kermode bear, as well as colouration in whiptail lizards. In most dogs, activity of MC1R is modulated by two signaling molecules, a repressor that is a product of the ''Agouti'' gene (A locus), and an activator, β-Defensin 103 ( CBD103), recently named the K locus. In Labradors a highly-active mutated version of the K gene, (K^B) is invariant, producing uniform eumelanin distribution independent of the Agouti genotype and leaving differences in MC1R to mediate the sole variability of this signaling pathway. A recessive mutation in this E gene truncates the protein, producing a non-functional receptor incapable of directing eumelanin deposition in the fur. Among dogs, this mutation is unique to yellow Labrador Retrievers and

Golden Retrievers The Golden Retriever is a Scottish breed of retriever dog of medium size. It is characterised by a gentle and affectionate nature and a striking golden coat. It is commonly kept as a pet and is among the most frequently registered breeds i ...

and is thought to have arisen in the retriever population before these individual breeds became distinct. The exact mutation has also been found to underlie the colouration of white

coyotes The coyote (''Canis latrans'') is a species of canine native to North America. It is smaller than its close relative, the wolf, and slightly smaller than the closely related eastern wolf and red wolf. It fills much of the same ecological nich ...

found around Newfoundland, having apparently passed into that population through interbreeding with a Golden Retriever. As with the B locus, presence of a single copy of the functional receptor gene ('E') will result in the dominant phenotype: presence of eumelanin in the fur. If both copies of this gene are the recessive mutated variant ('e'), the dog will have no eumelanin in its fur. Such a dog will appear yellow, with eumelanin evident only in the skin of the nose, lips, eye rims and foot pads, of a colour determined by the B locus. A variant of the functional MC1R allele that produces a facial 'mask' in other breeds of dogs (E^m) is also present in Labradors, but since the colour of the mask is determined by the B locus, in Labradors the mask this gene produces is indistinguishable from the overall coat colour.

Eumelanin gene interactions

The interplay between these two genes determines the colour of a Labrador Retriever, and is widely used as an example of epistasis. If a dog possesses the dominant phenotype for the extension allele (genotype EE or Ee), then it will display the fur colouration determined by its brown locus genotype, while a dog with the recessive extension trait (ee) will have a yellow coat with either black (BB, Bb) or brown (bb) exposed skin. This results in the three coat colours seen: Labrador punnett

*Black Labradors can have any genotype with at least one dominant allele at both the B and E loci: BBEE, BBEe, BbEE, or BbEe. *Chocolate Labradors will have a genotype with at least one dominant E allele, but must have only recessive b alleles: bbEE and bbEe. *Yellow Labradors with black skin pigment will have a dominant B allele but must have recessive e alleles: BBee or Bbee. *Yellow Labradors with pale or chocolate pigment, or an absence of skin pigment, can have only recessive alleles at both loci: bbee. These dogs are often referred to as Dudleys, and are disqualified in the showring, although are eligible for

registration Register or registration may refer to: Arts entertainment, and media Music * Register (music), the relative "height" or range of a note, melody, part, instrument, etc. * ''Register'', a 2017 album by Travis Miller * Registration (organ), th ...

under current standards. Aging-related declines in eumelanin production can cause the exposed skin in a Labrador with black skin pigmentation begin to appear lighter, but Dudley dogs have this colouration throughout their lives. These genes assort independently, so a single genetic cross involving two black Labradors each with a recessive allele at both the B and the E locus (BbEe) has the potential of producing all of the possible colour combinations, while crosses involving chocolate dogs can never produce black (there being no dominant B allele in either parent) but can give rise to yellow. Yellow Labradors will

breed true Purebreds are "cultivated varieties" of an animal species achieved through the process of selective breeding. When the lineage of a purebred animal is recorded, that animal is said to be "pedigreed". Purebreds breed true-to-type which means the ...

with regard to fur colour but those with black skin can potentially produce a Dudley. Dudleys breed true for both fur and skin. The ability of the E locus to override the coat colour directed by the B locus is a classical example of epistasis, where multiple genetic loci affect the same observed trait. In a study of Labrador retrievers in the United Kingdom, it was found that chocolate labradors had a shorter average lifespan than either black or yellow labradors. They were also found to suffer from more skin and ear disorders. It is unknown whether this is a direct consequence of their melanin genotype, or is due to other recessive genes, amplified through the inbreeding used to propagate the chocolate phenotype.

Pheomelanin in yellow Labradors

The E locus also determines whether the phenotype due to the third genetic locus affecting coat colour will be evident. This locus is recognised as affecting coat colour through the expression of pheomelanin, the pigment responsible for red and yellow pigmentation. The effects on pheomelanin pigmentation are only seen if there is no eumelanin expressed in the fur, else the dark eumelanin will mask any pheomelanin present. Thus these differences are visible only in yellow Labradors, which as a result range in colour from light cream to copper-red. It had long been thought that the genetic locus for this trait was the same seen regulating pheomelanin in other mammals, subsequently identified as

tyrosinase Tyrosinase is an oxidase that is the rate-limiting enzyme for controlling the production of melanin. The enzyme is mainly involved in two distinct reactions of melanin synthesis otherwise known as the Raper Mason pathway. Firstly, the hydroxy ...

. This enzyme makes both eumelanin and pheomelanin, and when subject to a knockout mutation results in

albinism Albinism is the congenital absence of melanin in an animal or plant resulting in white hair, feathers, scales and skin and pink or blue eyes. Individuals with the condition are referred to as albino. Varied use and interpretation of the term ...

. A less extreme mutation of the same tyrosinase gene, the so-called ''Chinchilla'' trait, produces a dilution that selectively affects pheomelanin alone, similar to the phenotype observed in yellow Labradors. Thus, as with ''Chinchilla''-related pheomelanin dilution in other species, this trait in yellow Labradors has been represented by the letter C. However, genetic analysis of the inheritance of coat colour in yellow Labradors has shown that the locus responsible is entirely distinct from the ''Chinchilla'' trait of the tyrosinase gene, and likewise is distinct from SLC45A2,Sheila M. Schmutz and Tom G. Berryere, The Genetics of Cream Coat Color in Dogs, ''Journal of Heredity'', 98: 544-548 (2007) the so-called

cream gene 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 ...

responsible for the dilution of pheomelanin in buckskin, palomino and cremello horses and also for the absence of pheomelanin in the

white tiger The white tiger or bleached tiger is a leucistic pigmentation variant of the Mainland tiger. It is reported in the wild from time to time in the Indian states of Madhya Pradesh, Assam, West Bengal, Bihar, Odisha, in the Sunderbans region and ...

, while a mutation in SLC7A11 found to cause pheomelanin dilution in mice was not found in a survey of cream-coloured dogs. The gene responsible for colour variation within the yellow Labrador remains unidentified, but the variation it causes is formally recognised as part of the normal pigmentation spectrum seen within the breed. A pattern of incomplete dominance is observed: individuals with two copies of the more active allele (CC) would be the darkest, those with one copy of each (Cc) would be intermediate, and those having two copies of the lower-expressing version (cc) would be the lightest.

The dilute gene in the Labrador Retriever

The American Kennel Club (AKC) and other kennel clubs around the world recognize three coat colours in the Labrador: black, yellow and chocolate. In recent years, other colours have become more prominent in the breed through cross breeding with other breeds. Breeders refer to these colours as 'silver', 'charcoal' and 'champagne'. These dogs typically have a metallic-looking sheen to the hair. These are conformation disqualifications within the breed and are linked with a skin disease known as Color Dilution Alopecia. The gene affecting this colour variation in all dog breeds is the recessive 'dilution' (D) locus. It is possible for each of the standard colour genotypes to be diluted if the dog carries two copies of the recessive dilute allele, dd. Dogs that carry at least one D will not have a diluted coat. If two dogs carrying the Dd genotype are bred, diluted offspring could be produced. Studies have linked the diluted trait to a mutation in the melanophilin (MLPH) gene. The dilution factor was not originally a visible part of the genetics of Labrador Retrievers, and therefore, controversy surrounds the topic. Novel pigmentation can arise through long-masked recessive traits being brought to the fore by inbreeding to select for other traits, through undisclosed outbreeding with other breeds to introduce novel traits, or through spontaneous mutation. There are many breeders in the United States who specialize in breeding these diluted Labradors. The standard for Labrador Retriever does not include dilution colours, and stipulate that any dilute is a breed disqualification, although the American Kennel Club will register purebred Labs that are dilute in colour under the colours of black, yellow or chocolate.Vanderwyk, Jack 2012. ''Analysis of the ‘silver’ Labrador population.'' https://web.archive.org/web/20170724123017/http://labradornet.com/silverlabsanalysis.html The Labrador Retriever Club, Inc. states that there is no silver gene in pure-bred Labrador Retrievers. However, the American Kennel Club has maintained that their registry is based on parentage, not colour.

Mosaics and other "mis-marks"

At least one example of a Labrador Retriever

mosaic A mosaic is a pattern or image made of small regular or irregular pieces of colored stone, glass or ceramic, held in place by plaster/mortar, and covering a surface. Mosaics are often used as floor and wall decoration, and were particularly pop ...

for pigmentation has been described. This male dog exhibited random but distinct black and yellow patches throughout his coat. He was the result of a black female heterozygous for yellow (B_Ee) bred to a yellow male (B_ee), and was mated with Labradors of each of the recognised colours. The resulting puppies were all consistent with the inheritance pattern of a yellow Labrador with black pigment. The most probable cause was either a somatic mutation early in development or a fusion between two zygotes that left some cells with genetics capable of producing dark fur, and others including the reproductive cells incapable of doing so. Other “mis-marks” such as brindle, tan points, white spots, and rings around the tails are not uncommon in Labradors. Each of these conditions have various underlying genetic as well as environmental causes.

References

{{DEFAULTSORT:Labrador Retriever Coat Colour Genetics Dog anatomy Mammal genetics