A locus

Agouti signal peptide (ASIP) or A locus is responsible for many different colour patterns in dogs. Specific A locus allele products can interact with functional MC1R and thus interfere with production of black melanin. Dogs have four different ASIP gene alleles with following dominance hierarchy: A^y > a^w > a^t > a, meaning that the most dominant allele present will be expressed.

Genes on A locus (agouti) are expressed only if a dog on K locus does not carry K^B allele (combination K^B/K^B or K^B/n) and/or on E locus does not have e/e combination. In dogs that are able to express A locus the basic colour can be additionally modified by B or D locus. Thus the dog with a genotype b/b on B locus has all the pigmented areas changed from black to chocolate/liver brown (dog that is fawn/sable (A^y) is a livernose, while the a^t/a^t dog has chocolate-and-tan instead of black-and-tan coat colour in addition to livernose).

A^y allele is the most dominant allele and determines the fawn or sable coat colour. The dog that has both A^y alleles (homozygote A^y/A^y) or one in a combination A^y/a^w or A^y/a^t or A^y/a will be always fawn or sable, if A locus expression is enabled by the E and K loci.

Wild type a^w allele is responsible for switching between eumelanin and pheomelanin synthesis, causing that individual hairs have eumelanin and pheomelanin patches from base to tip. This phenotype is called agouti (wolf grey or wolf sable). Banded hairs are usually present along the dorsal area of the torso. The dog will express agouti colour when having the combination of a^w/a^w, a^w/a^t or a^w/a alleles, if A locus expression is enabled by the E and K loci.

Allele a^t is responsible for black-and-tan or tricolor phenotype. Black-and-tan dogs are basic black with brown pheomelanin on ventral region, legs, cheeks and as dots above the eyebrows (eg. Doberman). Tricolor dogs in addition to black and brown have white colour due to the absence of pigment in certain areas of the body (eg. Rough Collie). The amount and distribution of pheomelanin may vary between individual dogs and between breeds. A dog with two a^t alleles or one in a a^t/a combination will be black-and-tan or tricolor (if A locus expression is enabled by the E and K loci).

Allele a is the least frequent allele of the A locus and is responsible for recessive black or bicolor phenotype. It occurs only in shepherd breeds and is the only cause of black German Shepherd and bicolor Shetland Sheepdog. Because a allele is the most recessive of A locus alleles the dog must have two a alleles in order to express recessive black. The offspring will always have one a allele. In the case where an animal does not have black coat colour the result of genetic test reveals whether the dog carries recessive black allele.

Testing for A locus resolves which two of the four possible alleles is present. As mentioned above, the expression depends on the status of E and K loci.

Inheritance: autosomal recessive

Mutation: CNGA3 gene

Genetic test: The method used for testing is extremely accurate...