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Progress in Molecular Genetics of Heritable Skin Diseases: The Paradigms of Epidermolysis Bullosa and Pseudoxanthoma Elasticum  Jouni Uitto, Leena Pulkkinen,

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Presentation on theme: "Progress in Molecular Genetics of Heritable Skin Diseases: The Paradigms of Epidermolysis Bullosa and Pseudoxanthoma Elasticum  Jouni Uitto, Leena Pulkkinen,"— Presentation transcript:

1 Progress in Molecular Genetics of Heritable Skin Diseases: The Paradigms of Epidermolysis Bullosa and Pseudoxanthoma Elasticum  Jouni Uitto, Leena Pulkkinen, Franziska Ringpfeil  Journal of Investigative Dermatology Symposium Proceedings  Volume 7, Issue 1, Pages 6-16 (December 2002) DOI: /j x Copyright © 2002 The Society for Investigative Dermatology, Inc Terms and Conditions

2 Figure 1 Illustration of the molecular heterogeneity in the dystrophic forms of EB. The structural organization of the type VII collagen α1(VII) polypeptide deduced from the primary nucleotide sequence of full-length cDNA. The polypeptide consists of a collagenous domain that is flanked by N- and C-terminal noncollagenous domains with modular structures, as indicated on the lower left corner. The arrows indicate positions of distinct mutations disclosed in families with dystrophic forms of EB. The mutations depicted above the α1(VII) collagen polypeptide are recessive, and most of them cause premature termination codons, either as a result of nonsense mutations, insertions, or deletions, or as out-of-frame exon skipping mutations, predicting synthesis of a truncated polypeptide or downregulation of the corresponding mRNA transcript through nonsense-mediated mRNA decay. The mutations depicted below the polypeptide are glycine substitution mutations within the collagenous domain. The majority of these missense mutations cause dominantly inherited dystrophic EB through dominant negative interference. (Modified fromPulkkinen and Uitto, 1999.) Journal of Investigative Dermatology Symposium Proceedings 2002 7, 6-16DOI: ( /j x) Copyright © 2002 The Society for Investigative Dermatology, Inc Terms and Conditions

3 Figure 2 Schematic representation of MRP6, a putative transporter protein, altered by mutations in PXE. As shown, MRP6 consists of three transmembrane domains with five, six, and six transmembrane spanning segments, respectively. The protein is predicted to have two intracellular nucleotide binding folds (NBF1 and NBF2). The repertoire of mutations within MRP6, as recently published (Cai et al, 2001;Le Saux et al, 2001;Meloni et al, 2001;Ringpfeil et al, 2001;Pulkkinen et al, 2001) is illustrated by arrows pointing to the regions affected by mutations. The majority of the mutations replace critical amino acid residues within the intracellular domains of MRP6 or cause premature termination of translation. Note the presence of large deletion mutations depicted on the top of the figure. Two recurrent mutations, R1141X and del exons 23–29, are in bold. EC, extracellular; IC, intracellular. Journal of Investigative Dermatology Symposium Proceedings 2002 7, 6-16DOI: ( /j x) Copyright © 2002 The Society for Investigative Dermatology, Inc Terms and Conditions

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