Your search keyword '"Pyper WR"' showing total 5 results

1. Linkage disequilibrium analysis in Australian haemochromatosis patients indicates bipartite association with clinical expression.

Author

Pratiwi R, Fletcher LM, Pyper WR, Do KA, Crawford DH, Powell LW, and Jazwinska EC

Subjects

Alleles, Amino Acid Substitution, Australia, Female, Genetic Markers, Haplotypes, Hemochromatosis immunology, Hemochromatosis Protein, Homozygote, Humans, Major Histocompatibility Complex, Male, Phenotype, Sex Characteristics, Chromosome Mapping, HLA Antigens genetics, Hemochromatosis genetics, Histocompatibility Antigens Class I genetics, Linkage Disequilibrium, Membrane Proteins, Mutation, Missense

Abstract

Background/aims: Hereditary haemochromatosis shows a wide variation in phenotypic expression, which is thought to be due, in part, to genetic factors. A single missense mutation in HFE, leading to an amino acid substitution (C282Y) has been shown to be the causative mutation, clearly responsible for clinical expression of the disorder. Since homozygosity for the C282Y mutation can give rise to a disorder which shows wide variation in clinical expression, we investigated the possibility that genetic modifiers of HFE may exist., Methods: Linkage disequilibrium analysis was performed on chromosome 6p21.3 in 74 patients homozygous for the C282Y mutation using microsatellite markers spanning the haemochromatosis gene region. Phenotypic expression was evaluated based on transferrin saturation, serum ferritin, hepatic iron concentration and index, and iron grade., Results: Linkage disequilibrium (LD) analysis showed a predominant ancestral haplotype from D6S265 to D6S2236 covering a region of approximately 5 Mb. The overall LD distribution in this region showed two peaks of highly significant association at D6S105 (2 Mb proximal to HFE) and at D6S2239 approximately 50 kb distal to HFE. Male patients homozygous for D6S105 allele 8, had significantly higher hepatic iron indices than patients heterozygous or nullizygous for D6S105-8 (p<0.038)., Conclusion: This analysis indicates that modifying gene(s) or another mutation affecting HHC clinical expression may be located in the region of D6S105.

Published

1999

2. The circumsporozoite protein of Plasmodium chabaudi contains a large, pre-region I repeat domain.

Author

Pyper WR, Tchavtchitch M, and Saul A

Subjects

Amino Acid Sequence, Animals, DNA, Protozoan analysis, Genes, Protozoan, Molecular Sequence Data, Plasmodium chabaudi chemistry, Plasmodium chabaudi growth & development, Protozoan Proteins isolation & purification, Plasmodium chabaudi genetics, Protozoan Proteins chemistry, Protozoan Proteins genetics

Published

1998

3. Haemochromatosis and HLA-H.

Author

Jazwinska EC, Cullen LM, Busfield F, Pyper WR, Webb SI, Powell LW, Morris CP, and Walsh TP

Subjects

Australia, Genetic Markers, Haplotypes, Hemochromatosis epidemiology, Hemochromatosis Protein, Homozygote, Humans, HLA Antigens genetics, Hemochromatosis genetics, Histocompatibility Antigens Class I genetics, Membrane Proteins, Mutation

Published

1996

4. A 4.5-megabase YAC contig and physical map over the hemochromatosis gene region.

Author

Burt MJ, Smit DJ, Pyper WR, Powell LW, and Jazwinska EC

Subjects

Base Sequence, Chromosome Walking, Chromosomes, Artificial, Yeast, DNA Primers, Genetic Markers, Humans, Molecular Sequence Data, Chromosome Mapping, Hemochromatosis genetics

Abstract

We have constructed a yeast artificial chromosome (YAC) contig over the candidate hemochromatosis gene region. This contig comprises 16 YACs from the CEPH, Washington University, and ICI YAC libraries and covers 4.5 Mb at 6p21.3-6p22. The complete contig has been restriction mapped, enabling the precise relationship between the YACs to be determined and the mapping of a total of 12 STSs. Nine of these are highly polymorphic STSs that are closely linked to hemochromatosis; this series includes D6S265 and D6S1260, which comprise the most proximal and distal markers linked to HC. This is the first YAC contig that spans the hemochromatosis candidate region, and it provides valuable resource material for the cloning of this and other genes in the region distal to the MHC class I complex.

Published

1996

5. Haplotype analysis in Australian hemochromatosis patients: evidence for a predominant ancestral haplotype exclusively associated with hemochromatosis.

Author

Jazwinska EC, Pyper WR, Burt MJ, Francis JL, Goldwurm S, Webb SI, Lee SC, Halliday JW, and Powell LW

Subjects

Australia epidemiology, Chromosome Mapping, Chromosomes, Artificial, Yeast, DNA, Satellite, Founder Effect, Genetic Markers, HLA Antigens genetics, Hemochromatosis epidemiology, Humans, Ireland ethnology, Linkage Disequilibrium, Mutation, Polymorphism, Genetic, Scotland ethnology, Haplotypes, Hemochromatosis genetics

Abstract

Hemochromatosis (HC), an inherited disorder of iron metabolism, shows a very strong founder effect in Australia, with the majority of patients being of Celtic (Scots/Irish) origin. Australian HC patients thus provide an ideal group in which to examine HC-gene-region haplotypes, to analyze the extent of linkage disequilibrium and genetic heterogeneity in HC. We have analyzed chromosomes from 26 multiply affected HC pedigrees, and we were able to assign HC status unambiguously to 107 chromosomes--64 as affected and 43 as unaffected. The haplotypes examined comprise the following highly polymorphic markers: the serological marker HLA-A and the microsatellites D6S248, D6S265, HLA-F, and D6S105. All show highly significant allelic association with HC and no evidence of separation from the disease locus by recombination. Analysis identified a predominant ancestral haplotype comprising alleles 5-1-3-2-8 (marker order: D6S248-D6S265-HLA-A-HLA-F-D6S105), present in 21 (33%) of 64 affected chromosomes, and exclusively associated with HC (haplotype relative risk 903). No other common haplotype was significantly associated with HC. Haplotype analysis in Australian HC patients thus provides strong evidence for (a) the introduction of HC into this population on an ancestral haplotype, (b) a common mutation associated with HC in Australian patients, and (c) a candidate HC-gene region extending between and including D6S248 and D6S105.

Published

1995