Functional variation of MC1R alleles from red-haired individuals
Functional variation of MC1R alleles from red-haired individuals
Red hair in humans is associated with variant alleles of the MSH receptor gene, MC1R. Loss of MC1R function in other mammals results in red or yellow hair pigmentation. We show that a mouse bacterial artificial chromosome (BAC) which contains Mc1r will efficiently rescue loss of Mc1r in transgenic mice, and that overexpression of the receptor suppresses the effect of the endogenous antagonist, agouti protein. We engineered the BAC to replace the mouse coding region with the human MC1R sequence and used this in the transgenic assay. The human receptor also efficiently rescued Mc1r deficiency, and in addition, appeared to be completely resistant to the effects of agouti, suggesting agouti protein may not play a role in human pigmentary variation. Three human variant alleles account for 60% of all cases of red hair. We engineered each of these in turn into the BAC and find that they have reduced, but not completely absent, function in transgenic mice. Comparison of the phenotypes of MSH-deficient mice and humans in conjunction with this data suggests that red hair may not be the null phenotype of MC1R.
2397-2402
Healy, Eugene
400fc04d-f81a-474a-ae25-7ff894be0ebd
Jordan, Siobhán A.
b913ffc9-1453-49a8-b51d-8d35cf25ec2e
Budd, Peter S.
e2eb57a3-20bc-4ab1-be23-0854cc274041
Suffolk, Ruth
88429360-f018-4672-877a-78f7694506d1
Rees, Jonathan L.
8a58a967-d239-4300-b363-ca471bf7047f
Jackson, Ian J.
deb175b7-f77e-4b60-b8a9-472ef9cb6770
2001
Healy, Eugene
400fc04d-f81a-474a-ae25-7ff894be0ebd
Jordan, Siobhán A.
b913ffc9-1453-49a8-b51d-8d35cf25ec2e
Budd, Peter S.
e2eb57a3-20bc-4ab1-be23-0854cc274041
Suffolk, Ruth
88429360-f018-4672-877a-78f7694506d1
Rees, Jonathan L.
8a58a967-d239-4300-b363-ca471bf7047f
Jackson, Ian J.
deb175b7-f77e-4b60-b8a9-472ef9cb6770
Healy, Eugene, Jordan, Siobhán A., Budd, Peter S., Suffolk, Ruth, Rees, Jonathan L. and Jackson, Ian J.
(2001)
Functional variation of MC1R alleles from red-haired individuals.
Human Molecular Genetics, 10 (21), .
(doi:10.1093/hmg/10.21.2397).
Abstract
Red hair in humans is associated with variant alleles of the MSH receptor gene, MC1R. Loss of MC1R function in other mammals results in red or yellow hair pigmentation. We show that a mouse bacterial artificial chromosome (BAC) which contains Mc1r will efficiently rescue loss of Mc1r in transgenic mice, and that overexpression of the receptor suppresses the effect of the endogenous antagonist, agouti protein. We engineered the BAC to replace the mouse coding region with the human MC1R sequence and used this in the transgenic assay. The human receptor also efficiently rescued Mc1r deficiency, and in addition, appeared to be completely resistant to the effects of agouti, suggesting agouti protein may not play a role in human pigmentary variation. Three human variant alleles account for 60% of all cases of red hair. We engineered each of these in turn into the BAC and find that they have reduced, but not completely absent, function in transgenic mice. Comparison of the phenotypes of MSH-deficient mice and humans in conjunction with this data suggests that red hair may not be the null phenotype of MC1R.
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Published date: 2001
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Local EPrints ID: 40627
URI: http://eprints.soton.ac.uk/id/eprint/40627
PURE UUID: e43bc98a-9c3e-4c97-9ab3-f9256e319b37
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Date deposited: 07 Jul 2006
Last modified: 15 Mar 2024 08:20
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Author:
Siobhán A. Jordan
Author:
Peter S. Budd
Author:
Ruth Suffolk
Author:
Jonathan L. Rees
Author:
Ian J. Jackson
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