Macchiato (M)
Gene or Region: MITF
Reference Variant: T (N)
Mutant Variant: C (M)
Affected Breeds: Franches-Montagnes
Research Confidence: High - Mutations in MITF have been well-documented to cause white spotting in both the horse and other species
Explanation of Results: M/M = homozygous for Macchiato, no trait expressed M/n = heterozygous for Macchiato, trait expressed n/n = no variant detected
General Description of Macchiato
The macchiato coat color was documented in a single Franches-Montagnes stallion. He displayed a dilute coat color, blue eyes, extended face and leg markings, and white on the body. He was also noted as being completely deaf and had low progressive sperm motility. As a result, he is unlikely to pass along this variant, and thus will likely be the only macchiato horse to exist.
Gene Information
MITF is a transcription factor that serves to activate several key genes involved in the development of pigmentation. Mutations in both the horse and in other species have led to white spotting, deafness, and sterility. The M mutation alters an amino acid in the protein, which leads to a sharp reduction in MITF's DNA binding ability.
References
Hauswirth R et al., “Mutations in MITF and PAX3 cause "splashed white" and other white spotting phenotypes in horses.” (2012) PLoS Genet. 8: e1002653.
More Horse Color Genetics
Congenital Stationary Night Blindness & Leopard Complex
Congential Stationary Night Blindness (CSNB) is characterized by the inability to see well in low light and no-light situations. It is linked to Leopard Complex Spotting (LP), where homozygous horses (LP/LP) will have CSNB. Congential Stationary Night Blindness is present at birth and is non-progressive.
Champagne
Champagne (CH) is a dilution that affects all coat colors. Champagne foals are born with pink skin and blue eyes that slightly darken with age. Adult champagne horses have a distinct pumpkin colored skin with mottling in the hairless regions, as well as amber/green/tan eyes. Horses with multiple dilutions can be difficult to accurately identify color without genetic testing.