Letter. Mutation of ALMS1, a large gene with a tandem repeat encoding 47 amino acids, causes Alström syndrome
Letter. Mutation of ALMS1, a large gene with a tandem repeat encoding 47 amino acids, causes Alström syndrome
Alström syndrome (OMIM 203800) is an autosomal recessive disease, characterized by cone-rod retinal dystrophy, cardiomyopathy and type 2 diabetes mellitus, that has been mapped to chromosome 2p13 (refs 1-5). We have studied an individual with Alström syndrome carrying a familial balanced reciprocal chromosome translocation (46, XY,t(2;11)(p13;q21)mat) involving the previously implicated critical region. We postulated that this individual was a compound heterozygote, carrying one copy of a gene disrupted by the translocation and the other copy disrupted by an intragenic mutation. We mapped the 2p13 breakpoint on the maternal allele to a genomic fragment of 1.7 kb which contains exon 4 and the start of exon 5 of a newly discovered gene (ALMS1); we detected a frameshift mutation in the paternal copy of the gene. The 12.9-kb transcript of ALMS1 encodes a protein of 4,169 amino acids whose function is unknown. The protein contains a large tandem-repeat domain comprising 34 imperfect repetitions of 47 amino acids. We have detected six different mutations (two nonsense and four frameshift mutations causing premature stop codons) in seven families, confirming that ALMS1 is the gene underlying Alström syndrome. We believe that ALMS1 is the first human disease gene characterized by autosomal recessive inheritance to be identified as a result of a balanced reciprocal translocation.
79-83
Hearn, Tom
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Renforth, Glenn L.
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Spalluto, Cosma
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Hanley, Neil A.
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Piper, Karen
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Brickwood, Sarah
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White, Chris
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Connolly, Vincent
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Taylor, James F.N.
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Russell-Eggitt, Isabelle
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Bonneau, Dominique
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Walker, Mark
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Wilson, David I.
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2002
Hearn, Tom
2665cc10-6632-47cb-9460-bd0ea745380e
Renforth, Glenn L.
462fb483-fb14-4408-a326-7e122c554a8a
Spalluto, Cosma
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Hanley, Neil A.
bf03f7bb-f377-44fb-8344-0bb1ca8b2ef9
Piper, Karen
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Brickwood, Sarah
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White, Chris
7839babc-da01-4c91-b03c-958189d2c744
Connolly, Vincent
fca69001-2bdb-468b-83b3-4434408ba2b3
Taylor, James F.N.
d6c51acc-d7c3-40ad-ba00-658d0ab80204
Russell-Eggitt, Isabelle
83483d9f-dd00-47c6-b46e-7d08b8b3a1e6
Bonneau, Dominique
dfd568bd-1b53-4366-b011-448ebaa073c2
Walker, Mark
440e66f0-fce4-45cf-a73d-3716f254d87f
Wilson, David I.
1500fca1-7082-4271-95f4-691f1d1252a2
Hearn, Tom, Renforth, Glenn L., Spalluto, Cosma, Hanley, Neil A., Piper, Karen, Brickwood, Sarah, White, Chris, Connolly, Vincent, Taylor, James F.N., Russell-Eggitt, Isabelle, Bonneau, Dominique, Walker, Mark and Wilson, David I.
(2002)
Letter. Mutation of ALMS1, a large gene with a tandem repeat encoding 47 amino acids, causes Alström syndrome.
Nature Genetics, 31 (1), .
(doi:10.1038/ng874).
Abstract
Alström syndrome (OMIM 203800) is an autosomal recessive disease, characterized by cone-rod retinal dystrophy, cardiomyopathy and type 2 diabetes mellitus, that has been mapped to chromosome 2p13 (refs 1-5). We have studied an individual with Alström syndrome carrying a familial balanced reciprocal chromosome translocation (46, XY,t(2;11)(p13;q21)mat) involving the previously implicated critical region. We postulated that this individual was a compound heterozygote, carrying one copy of a gene disrupted by the translocation and the other copy disrupted by an intragenic mutation. We mapped the 2p13 breakpoint on the maternal allele to a genomic fragment of 1.7 kb which contains exon 4 and the start of exon 5 of a newly discovered gene (ALMS1); we detected a frameshift mutation in the paternal copy of the gene. The 12.9-kb transcript of ALMS1 encodes a protein of 4,169 amino acids whose function is unknown. The protein contains a large tandem-repeat domain comprising 34 imperfect repetitions of 47 amino acids. We have detected six different mutations (two nonsense and four frameshift mutations causing premature stop codons) in seven families, confirming that ALMS1 is the gene underlying Alström syndrome. We believe that ALMS1 is the first human disease gene characterized by autosomal recessive inheritance to be identified as a result of a balanced reciprocal translocation.
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Published date: 2002
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Local EPrints ID: 24743
URI: http://eprints.soton.ac.uk/id/eprint/24743
ISSN: 1061-4036
PURE UUID: 47eab69b-b4bf-4529-8ed8-97e5f651bcaa
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Date deposited: 03 Apr 2006
Last modified: 16 Mar 2024 03:24
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Author:
Tom Hearn
Author:
Glenn L. Renforth
Author:
Cosma Spalluto
Author:
Neil A. Hanley
Author:
Karen Piper
Author:
Sarah Brickwood
Author:
Chris White
Author:
Vincent Connolly
Author:
James F.N. Taylor
Author:
Isabelle Russell-Eggitt
Author:
Dominique Bonneau
Author:
Mark Walker
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