D-Locus (Dilute Coat Color)


New Canine Test

Pug Dog Encephalitis (PDE)
Please see: PDE

New Canine Test

Ichthyosis Test For American Bulldog
Please see: Ichthyosis Testing

New Canine Test

Dermatomyositis (DMS)
Please see: Dermatomyositis (DMS) Testing

New Canine Test

Susceptibility to Intervertebral Disc Disease (IVDD)
Please see: IVDD Testing

Equine Test

Testing for Warmblood Fragile Foal Syndrome (WFFS)
Please see: WFFS Testing

New Equine Test

Squamous Cell Carcinoma (SCC)
New test available for Horses. Please see Squamous Cell Carcinoma (SCC)

New Equine Test

Occipitoatlantoaxial Malformation Test for Arabian Horses (OAAM)
New test available for Horses. Please see Occipitoatlantoaxial Malformation (OAAM)

D-Locus (Dilute Coat Color)


The MLPH gene codes for a protein called melanophilin, which is responsible for transporting and fixing melanin-containing cells. A mutation in this gene leads to improper distribution of these cells, causing a diluted coat color. This mutation is recessive, so two copies of the mutated gene (AKA the D allele or the D locus) are needed to produce the diluted coat color.

This mutation affects both eumelanin and phaeomelanin pigments. These pigments control the color of the dog. Black, brown, and yellow dogs are all affected by the D locus. However, the effects of the dilution are more pronounced in black dogs. A diluted black dog becomes known as a blue dog. Names for this color trait vary across the different breeds, with charcoal, slate, or grey being common names. A diluted chocolate dog is often referred to as having a lilac coloration and a diluted yellow dog is known as having a champagne color. All the dogs that express the diluted colorations have a d/d genotype. They are also coded as B/B or B/b, b/b, and e/e respectively, with regards to the E and B loci, which determine coat color.

Because the mutation responsible for the dilution phenotype is recessive, a dog can be a carrier of the dilution gene and still appear to have a normal coat color. These dogs can pass on either the full-colored genes or the diluted trait's alleles to any offspring. This means that two dogs that appear full-colored can have a diluted puppy. This makes DNA testing for the D locus an important breeding tool, whether breeding for a dilute coat, or to avoid it.


Chocolate Dilute Basic Color Description
B/B or B/b D/D Black
B/B or B/b d/d Blue
b/b D/D Liver/Chocolate
b/b d/d Lilac
e/e D/D Yellow
e/e d/d Champagne

D Locus Testing:

Animal Genetics currently offers a test for the D-Locus to determine how many copies of the recessive MLPH allele a dog carries. Dogs can be DNA tested at ANY age.

Sample Type:

Animal Genetics accepts buccal swab, blood, and dewclaw samples for testing. Sample collection kits are available and can be ordered at Canine Test Now.

Testing Is Relevant for the Following Breeds:

All breeds.


Animal Genetics offers DNA testing for dominant D allele. The genetic test verifies the presence of the mutation and presents results as one of the following:


* Additional causes of this trait exist. A negative result for this mutation does not eliminate the possibility that an additional, yet unidentified mutation or mutations in the genome may lead to a similar trait.


D/D Non-dilute The dog carries two copies of the MLPH allele. In most cases the dog will express a normal, non-dilute coat color and will always pass on a copy of the "D" allele to all offspring.
D/d Carrier of dilute Both the dominant and recessive MLPH alleles detected. In most cases the dog will have a normal, non-dilute coat and is a carrier of the dilute coat color. The dog can pass either MLPH allele on to any offspring.
d/d Dilute The dog has two copies of the recessive MLPH allele. In most cases the dog will have a dilute colored coat. He will always pass on a copy of the MLPH allele on to any offspring.