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A novel mutation of HFE explains the classical phenotype of genetic hemochromatosis in a C282Y heterozygote  Daniel F. Wallace, James S. Dooley, Ann P.

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Presentation on theme: "A novel mutation of HFE explains the classical phenotype of genetic hemochromatosis in a C282Y heterozygote  Daniel F. Wallace, James S. Dooley, Ann P."— Presentation transcript:

1 A novel mutation of HFE explains the classical phenotype of genetic hemochromatosis in a C282Y heterozygote  Daniel F. Wallace, James S. Dooley, Ann P. Walker  Gastroenterology  Volume 116, Issue 6, Pages (June 1999) DOI: /S (99) Copyright © 1999 American Gastroenterological Association Terms and Conditions

2 Fig. 1 Family tree. Patient RFH is indicated by an arrow; his sister has an identical genotype and evidence of iron overload. One daughter is heterozygous for C282Y and the other is heterozygous for IVS3 + 1G → T, indicating that the two mutations occur on different HFE alleles. Percent transferrin saturations and serum ferritin concentrations (μg/L) are shown where available. HII, hepatic iron index (μmol · g−1 · yr−1);Vx, amount of iron venesected to normalize serum ferritin. Gastroenterology  , DOI: ( /S (99) ) Copyright © 1999 American Gastroenterological Association Terms and Conditions

3 Fig. 2 The IVS3 + 1G → T mutation functionally alters mRNA splicing. (A and B) Southern blots of allele-specific RT-PCRs hybridized with an exon 4 probe, amplified from (A) 282C allele or from (B) 282Y allele. Lane 1, patient RFH, primary leukocytes; lane 2, patient RFH, Epstein–Barr virus–transformed lymphoblastoid cell line; lane 3, control leukocyte, homozygous for H63D; lane 4, control duodenum, wild-type sequence; lane 5, control fibroblast, heterozygous for C282Y; lane 6, no reverse-transcription control; lane 7, no template control; lane 8, genomic DNA control. The bands corresponding to the cognate splicing of exons (717 base pairs) and alternative splicing of exons 2-4 (441 base pairs) are indicated. The 282Y-specific primer gave amplification of both the cognate and alternatively spliced products only in samples containing C282Y. The 282C primer amplified only the alternatively spliced product (exons 2-4) in patient RFH, whereas the cognate product (exons 2-3-4) was also amplified from all other RNA samples. (C) Schematic representation of HFE mRNA splicing around exon 3. Wild-type C282Y and H63D alleles produced 2 splice variants. (i) Splicing of exons in the normal manner; (ii) skipping of exon 3. *The IVS3 + 1G → T mutation resulted in complete skipping of exon 3, consistent with the invariance of this nucleotide in functional splice sites. Gastroenterology  , DOI: ( /S (99) ) Copyright © 1999 American Gastroenterological Association Terms and Conditions

4 Fig. 2 The IVS3 + 1G → T mutation functionally alters mRNA splicing. (A and B) Southern blots of allele-specific RT-PCRs hybridized with an exon 4 probe, amplified from (A) 282C allele or from (B) 282Y allele. Lane 1, patient RFH, primary leukocytes; lane 2, patient RFH, Epstein–Barr virus–transformed lymphoblastoid cell line; lane 3, control leukocyte, homozygous for H63D; lane 4, control duodenum, wild-type sequence; lane 5, control fibroblast, heterozygous for C282Y; lane 6, no reverse-transcription control; lane 7, no template control; lane 8, genomic DNA control. The bands corresponding to the cognate splicing of exons (717 base pairs) and alternative splicing of exons 2-4 (441 base pairs) are indicated. The 282Y-specific primer gave amplification of both the cognate and alternatively spliced products only in samples containing C282Y. The 282C primer amplified only the alternatively spliced product (exons 2-4) in patient RFH, whereas the cognate product (exons 2-3-4) was also amplified from all other RNA samples. (C) Schematic representation of HFE mRNA splicing around exon 3. Wild-type C282Y and H63D alleles produced 2 splice variants. (i) Splicing of exons in the normal manner; (ii) skipping of exon 3. *The IVS3 + 1G → T mutation resulted in complete skipping of exon 3, consistent with the invariance of this nucleotide in functional splice sites. Gastroenterology  , DOI: ( /S (99) ) Copyright © 1999 American Gastroenterological Association Terms and Conditions

5 Fig. 2 The IVS3 + 1G → T mutation functionally alters mRNA splicing. (A and B) Southern blots of allele-specific RT-PCRs hybridized with an exon 4 probe, amplified from (A) 282C allele or from (B) 282Y allele. Lane 1, patient RFH, primary leukocytes; lane 2, patient RFH, Epstein–Barr virus–transformed lymphoblastoid cell line; lane 3, control leukocyte, homozygous for H63D; lane 4, control duodenum, wild-type sequence; lane 5, control fibroblast, heterozygous for C282Y; lane 6, no reverse-transcription control; lane 7, no template control; lane 8, genomic DNA control. The bands corresponding to the cognate splicing of exons (717 base pairs) and alternative splicing of exons 2-4 (441 base pairs) are indicated. The 282Y-specific primer gave amplification of both the cognate and alternatively spliced products only in samples containing C282Y. The 282C primer amplified only the alternatively spliced product (exons 2-4) in patient RFH, whereas the cognate product (exons 2-3-4) was also amplified from all other RNA samples. (C) Schematic representation of HFE mRNA splicing around exon 3. Wild-type C282Y and H63D alleles produced 2 splice variants. (i) Splicing of exons in the normal manner; (ii) skipping of exon 3. *The IVS3 + 1G → T mutation resulted in complete skipping of exon 3, consistent with the invariance of this nucleotide in functional splice sites. Gastroenterology  , DOI: ( /S (99) ) Copyright © 1999 American Gastroenterological Association Terms and Conditions

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Figure 3 Transcripts of the splicing mutation (c

Figure 3 Transcripts of the splicing mutation (c

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