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Literature DB >> 15965787

Association of an Agouti allele with fawn or sable coat color in domestic dogs.

Tom G Berryere¹, Julie A Kerns, Gregory S Barsh, Sheila M Schmutz.

Abstract

The type of pigment synthesized in mammalian hair, yellow-red pheomelanin or black-brown eumelanin, depends on the interaction between Agouti protein and the Melanocortin 1 receptor. Although the genetics of pigmentation is broadly conserved across most mammalian species, pigment type-switching in domestic dogs is unusual because a yellow-tan coat with variable amounts of dark hair is thought to be caused by an allele of the Agouti locus referred to as fawn or sable (a(y)). In a large survey covering thirty seven breeds, we identified an Agouti allele with two missense alterations, A82S and R83H, which was present (heterozygous or homozygous) in 41 dogs (22 breeds) with a fawn or sable coat, but was absent from 16 dogs (8 breeds) with a black-and-tan or tricolor phenotype. In an additional 33 dogs (14 breeds) with a eumelanic coat, 8 (German Shepherd Dogs, Groenendaels, Schipperkes, or Shetland Sheepdogs) were homozygous for a previously reported mutation, non-agouti R96C; the remainder are likely to have carried dominant black, which is independent of and epistatic to Agouti. This work resolves some of the complexity in dog coat color genetics and provides diagnostic opportunities and practical guidelines for breeders.

Entities: Chemical Disease Gene Mutation Species

Mesh：

Substances：

Year: 2005 PMID： 15965787 DOI： 10.1007/s00335-004-2445-6

Source DB: PubMed Journal: Mamm Genome ISSN： 0938-8990 Impact factor: 2.957

26 in total

1. Genetic determinants of sable and umbrous coat color phenotypes in mice.

Authors: Jun-ichi Suto; Kenji Sekikawa
Journal: Pigment Cell Res Date: 2003-08

2. MC1R studies in dogs with melanistic mask or brindle patterns.

Authors: S M Schmutz; T G Berryere; N M Ellinwood; J A Kerns; G S Barsh
Journal: J Hered Date: 2003 Jan-Feb Impact factor: 2.645

3. Differences in dorsal and ventral pigmentation result from regional expression of the mouse agouti gene.

Authors: H Vrieling; D M Duhl; S E Millar; K A Miller; G S Barsh
Journal: Proc Natl Acad Sci U S A Date: 1994-06-07 Impact factor: 11.205

4. Interaction of Agouti protein with the melanocortin 1 receptor in vitro and in vivo.

Authors: M M Ollmann; M L Lamoreux; B D Wilson; G S Barsh
Journal: Genes Dev Date: 1998-02-01 Impact factor: 11.361

5. Characterization of the dog Agouti gene and a nonagoutimutation in German Shepherd Dogs.

Authors: Julie A Kerns; J Newton; Tom G Berryere; Edward M Rubin; Jan-Fang Cheng; Sheila M Schmutz; Gregory S Barsh
Journal: Mamm Genome Date: 2004-10 Impact factor: 2.957

6. Melanocortin 1 receptor variation in the domestic dog.

Authors: J M Newton; A L Wilkie; L He; S A Jordan; D L Metallinos; N G Holmes; I J Jackson; G S Barsh
Journal: Mamm Genome Date: 2000-01 Impact factor: 2.957

Review 7. Accessory proteins for melanocortin signaling: attractin and mahogunin.

Authors: Lin He; Adam G Eldridge; Peter K Jackson; Teresa M Gunn; Gregory S Barsh
Journal: Ann N Y Acad Sci Date: 2003-06 Impact factor: 5.691

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Journal: Nature Date: 1994-10-27 Impact factor: 49.962

9. Cloning of the mouse agouti gene predicts a secreted protein ubiquitously expressed in mice carrying the lethal yellow mutation.

Authors: M W Miller; D M Duhl; H Vrieling; S P Cordes; M M Ollmann; B M Winkes; G S Barsh
Journal: Genes Dev Date: 1993-03 Impact factor: 11.361

10. Genetic structure of the purebred domestic dog.

Authors: Heidi G Parker; Lisa V Kim; Nathan B Sutter; Scott Carlson; Travis D Lorentzen; Tiffany B Malek; Gary S Johnson; Hawkins B DeFrance; Elaine A Ostrander; Leonid Kruglyak
Journal: Science Date: 2004-05-21 Impact factor: 47.728

19 in total

Review 1. Man's best friend becomes biology's best in show: genome analyses in the domestic dog.

Authors: Heidi G Parker; Abigail L Shearin; Elaine A Ostrander
Journal: Annu Rev Genet Date: 2010 Impact factor: 16.830

2. Investigation of the role of the agouti signaling protein gene (ASIP) in coat color evolution in primates.

Authors: Nicholas I Mundy; Joanne Kelly
Journal: Mamm Genome Date: 2006-12-01 Impact factor: 2.957

3. Recessive black is allelic to the yellow plumage locus in Japanese quail and associated with a frameshift deletion in the ASIP gene.

Authors: Takahiro Hiragaki; Miho Inoue-Murayama; Mitsuru Miwa; Akira Fujiwara; Makoto Mizutani; Francis Minvielle; Shin'ichi Ito
Journal: Genetics Date: 2008-02 Impact factor: 4.562

4. Linkage and segregation analysis of black and brindle coat color in domestic dogs.

Authors: Julie A Kerns; Edward J Cargill; Leigh Anne Clark; Sophie I Candille; Tom G Berryere; Michael Olivier; George Lust; Rory J Todhunter; Sheila M Schmutz; Keith E Murphy; Gregory S Barsh
Journal: Genetics Date: 2007-05-04 Impact factor: 4.562

5. Breed relationships facilitate fine-mapping studies: a 7.8-kb deletion cosegregates with Collie eye anomaly across multiple dog breeds.

Authors: Heidi G Parker; Anna V Kukekova; Dayna T Akey; Orly Goldstein; Ewen F Kirkness; Kathleen C Baysac; Dana S Mosher; Gustavo D Aguirre; Gregory M Acland; Elaine A Ostrander
Journal: Genome Res Date: 2007-10-04 Impact factor: 9.043

10. Genomic Characterization of External Morphology Traits in Kelpies Does Not Support Common Ancestry with the Australian Dingo.

Authors: Tracy Chew; Cali E Willet; Bianca Haase; Claire M Wade
Journal: Genes (Basel) Date: 2019-05-03 Impact factor: 4.096