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X-linked cerebellar ataxia and sideroblastic anaemia associated with a missense mutation in the ABC7 gene predicting V411L

X-linked cerebellar ataxia and sideroblastic anaemia associated with a missense mutation in the ABC7 gene predicting V411L
X-linked cerebellar ataxia and sideroblastic anaemia associated with a missense mutation in the ABC7 gene predicting V411L
Two brothers with X-linked ataxia (XLA) were found to have hypochromic red cells and increased erythrocyte protoporphyrin despite normal iron stores. The mother was unaffected by ataxia and had normal iron stores but showed evidence of some red cell hypochromia with heavy basophilic stippling that stained positive for iron. Bone marrow biopsy confirmed the presence of ring sideroblasts in one of the brothers. The absence of mutations in the ALAS2 gene and the predominance of zinc over free protoporphyrin led to a search using a combination of DNA and cDNA analysis for the presence of mutations in the ABC7 gene. ABC7 encodes a mitochondrial half-type ATP Binding Cassette transporter involved in iron homeostasis. The published cDNA sequence was used to search databases for the genomic sequence of which 12 exons spanning 23.4 kb were mapped leaving the most 5' nucleotides unaccounted for. The identified exons and their exon-intron boundaries were amplified from DNA while the most 5' sequence including the initiation codon was amplified from cDNA of peripheral blood cells. Direct sequencing revealed hemizygosity in the brothers and heterozygosity in the mother for a G-->C transversion at position 1299 of the published cDNA. This predicts a V411L substitution at the beginning of the last of six putative transmembrane regions of the protein. Restriction enzyme digestion confirmed the presence of this mutation in the three family members but could not detect it in 200 normal alleles. An uncle affected by ataxia also carried this mutation. This study supports the recently hypothesized involvement of the ABC7 gene in XLSA/A and highlights a protein structure region of importance to this syndrome.
nucleotides, analysis, bone marrow, genetics, wales, exons, sequence analysis, blood, male, mutation, sideroblastic, non-u.s.gov't, x chromosome, polymerase chain reaction, codon, blood cells, dna, leucine, metabolism, cerebellar ataxia, female, digestion, protein, anemia, syndrome, atp-binding cassette transporters, iron, alleles, research support, databases, bone, zinc, missense, humans, family, valine, linkage (genetics), ataxia, mitochondria, homeostasis, biopsy
0007-1048
910-917
Maguire, Andrew
26cba6ea-9e0e-4939-a05b-8d56f427eb23
Hellier, Kate
8aeb1391-c3ba-4fa2-a2a0-bbfd4908baf1
Hammans, Simon
6553eac5-9322-4f2b-b677-d4ba698fc10b
May, Alison
f0584cf3-5f41-4dd3-a6cf-9b2e403552e3
Maguire, Andrew
26cba6ea-9e0e-4939-a05b-8d56f427eb23
Hellier, Kate
8aeb1391-c3ba-4fa2-a2a0-bbfd4908baf1
Hammans, Simon
6553eac5-9322-4f2b-b677-d4ba698fc10b
May, Alison
f0584cf3-5f41-4dd3-a6cf-9b2e403552e3

Maguire, Andrew, Hellier, Kate, Hammans, Simon and May, Alison (2001) X-linked cerebellar ataxia and sideroblastic anaemia associated with a missense mutation in the ABC7 gene predicting V411L. British Journal of Haematology, 115 (4), 910-917. (doi:10.1046/j.1365-2141.2001.03015.x).

Record type: Article

Abstract

Two brothers with X-linked ataxia (XLA) were found to have hypochromic red cells and increased erythrocyte protoporphyrin despite normal iron stores. The mother was unaffected by ataxia and had normal iron stores but showed evidence of some red cell hypochromia with heavy basophilic stippling that stained positive for iron. Bone marrow biopsy confirmed the presence of ring sideroblasts in one of the brothers. The absence of mutations in the ALAS2 gene and the predominance of zinc over free protoporphyrin led to a search using a combination of DNA and cDNA analysis for the presence of mutations in the ABC7 gene. ABC7 encodes a mitochondrial half-type ATP Binding Cassette transporter involved in iron homeostasis. The published cDNA sequence was used to search databases for the genomic sequence of which 12 exons spanning 23.4 kb were mapped leaving the most 5' nucleotides unaccounted for. The identified exons and their exon-intron boundaries were amplified from DNA while the most 5' sequence including the initiation codon was amplified from cDNA of peripheral blood cells. Direct sequencing revealed hemizygosity in the brothers and heterozygosity in the mother for a G-->C transversion at position 1299 of the published cDNA. This predicts a V411L substitution at the beginning of the last of six putative transmembrane regions of the protein. Restriction enzyme digestion confirmed the presence of this mutation in the three family members but could not detect it in 200 normal alleles. An uncle affected by ataxia also carried this mutation. This study supports the recently hypothesized involvement of the ABC7 gene in XLSA/A and highlights a protein structure region of importance to this syndrome.

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More information

Published date: 20 December 2001
Keywords: nucleotides, analysis, bone marrow, genetics, wales, exons, sequence analysis, blood, male, mutation, sideroblastic, non-u.s.gov't, x chromosome, polymerase chain reaction, codon, blood cells, dna, leucine, metabolism, cerebellar ataxia, female, digestion, protein, anemia, syndrome, atp-binding cassette transporters, iron, alleles, research support, databases, bone, zinc, missense, humans, family, valine, linkage (genetics), ataxia, mitochondria, homeostasis, biopsy

Identifiers

Local EPrints ID: 60013
URI: http://eprints.soton.ac.uk/id/eprint/60013
ISSN: 0007-1048
PURE UUID: 88fb53fd-9509-4531-bcb9-99c6fea48867

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Date deposited: 08 Sep 2008
Last modified: 15 Mar 2024 11:18

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Contributors

Author: Andrew Maguire
Author: Kate Hellier
Author: Simon Hammans
Author: Alison May

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