Literature DB >> 7666396

Allelic associations and homozygosity at loci from HLA-B to D6S299 in genetic haemochromatosis.

R Raha-Chowdhury1, D J Bowen, A K Burnett, M Worwood.   

Abstract

Haemochromatosis (GH) is an autosomal recessive disorder in which increased iron absorption causes iron overload. The gene (HFE) is closely linked to HLA-A on chromosome 6 (6p21.3) but has not yet been identified. We have examined eight polymorphic loci, HLA-B (most centromeric), I82, D6S265, HLA-A, D6S128, HLA-F, D6S105, and D6S299 (most telomeric) in 37 unrelated patients and 60 control subjects. There are also significant positive associations between GH and alleles at all loci except D6S299. Analysis of 48 GH chromosomes in which haplotypes could be established showed that the most common haplotype was I82-2:D6S265-1:HLA-A3:D6S128-2:HLA-F1:D6S105-8. This was present in 28 of 48 chromosomes. In 14 the haplotype included HLA-B7 but only in seven did this extend beyond the telomere to D6S299-2 (the most common allele on GH chromosomes at this locus). In 36 out of 48 chromosomes the two locus haplotype, F1:D6S105-8 was present. Since haemochromatosis appears to originate from a founder mutation we have examined linkage disequilibrium between these various loci and GH using calculations of pexcess. The maximum value (0.72, 95% CI 0.55-0.85) is given by D6S105-8 but is not significantly different from values for HLA-A3 and HLA-F1 (0.50, 95% CI 0.34-0.61 and 0.49, 0.25-0.66 respectively). However, both HLA-A and D6S105 give a value for pexcess which is significantly higher than that for the most centromeric marker, HLA-B (0.17, 95% CI 0.02-0.30). We have counted the number of patients who are homozygous for the common allele at each locus. At D6S105, 22 patients are homozygous for allele 8, with 18 homozygous for HLA-F1 and 10 homozygous for A3. The pattern of cumulative homozygosity suggests a gene location closer to D6S105 than HLA-A. We have also analysed our data for divergence from the apparent founder haplotype (A3:F1:105-8) and have calculated the theoretical frequencies of crossovers between loci. These data suggest a location telomeric to D6S105. A more precise localisation of the gene may be possible with the identification of new markers around D6S105.

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Year:  1995        PMID: 7666396      PMCID: PMC1050484          DOI: 10.1136/jmg.32.6.446

Source DB:  PubMed          Journal:  J Med Genet        ISSN: 0022-2593            Impact factor:   6.318


  31 in total

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2.  The HLA class I gene family includes at least six genes and twelve pseudogenes and gene fragments.

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3.  A study of 609 HLA haplotypes marking for the hemochromatosis gene: (1) mapping of the gene near the HLA-A locus and characters required to define a heterozygous population and (2) hypothesis concerning the underlying cause of hemochromatosis-HLA association.

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4.  Genes in one megabase of the HLA class I region.

Authors:  H Wei; W F Fan; H Xu; S Parimoo; H Shukla; D D Chaplin; S M Weissman
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Review 5.  Microdroplet testing for HLA-A, -B, -C, and -D antigens. The Phillip Levine Award Lecture.

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6.  Survival and causes of death in cirrhotic and in noncirrhotic patients with primary hemochromatosis.

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7.  Localization of seven new genes around the HLA-A locus.

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8.  Localization of the hemochromatosis gene close to D6S105.

Authors:  E C Jazwinska; S C Lee; S I Webb; J W Halliday; L W Powell
Journal:  Am J Hum Genet       Date:  1993-08       Impact factor: 11.025

9.  Physical and genetic mapping of the telomeric major histocompatibility complex region in man and relevance to the primary hemochromatosis gene (HFE).

Authors:  J R Gruen; V L Goei; K M Summers; A Capossela; L Powell; J Halliday; H Zoghbi; H Shukla; S M Weissman
Journal:  Genomics       Date:  1992-10       Impact factor: 5.736

10.  Anonymous markers located on chromosome 6 in the HLA-A class I region: allelic distribution in genetic haemochromatosis.

Authors:  J Boretto; A M Jouanolle; J Yaouanq; A el Kahloun; V Mauvieux; M Blayau; M Perichon; A Le Treut; J Clayton; N Borot
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  3 in total

1.  Recombinations defining centromeric and telomeric borders for the hereditary haemochromatosis locus.

Authors:  R S Ajioka; P Yu; J R Gruen; C Q Edwards; L M Griffen; J P Kushner
Journal:  J Med Genet       Date:  1997-01       Impact factor: 6.318

2.  Haplotype analysis of hemochromatosis: evaluation of different linkage-disequilibrium approaches and evolution of disease chromosomes.

Authors:  R S Ajioka; L B Jorde; J R Gruen; P Yu; D Dimitrova; J Barrow; E Radisky; C Q Edwards; L M Griffen; J P Kushner
Journal:  Am J Hum Genet       Date:  1997-06       Impact factor: 11.025

3.  A new highly polymorphic marker in the 5' untranslated region of HLA-F shows strong allelic association with haemochromatosis.

Authors:  R Raha-Chowdhury; D J Bowen; M Worwood
Journal:  Hum Genet       Date:  1996-02       Impact factor: 4.132
  3 in total

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