Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UNIPROT:Q00604 (X-linked)
16,883 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Mutations in the STA gene at the Xq28 locus have been found in patients with X-linked Emery-Dreifuss muscular dystrophy (EDMD). This gene encodes a hitherto unknown protein named 'emerin'. To elucidate the subcellular localization of emerin, we raised two antisera against synthetic peptide fragments predicted from emerin cDNA. Using both antisera, we found positive nuclear membrane staining in skeletal, cardiac and smooth muscles in the normal controls and in patients with neuromuscular diseases other than EDMD. In contrast, a deficiency in immunofluorescent staining of skeletal and cardiac muscle from EDMD patients was observed. A 34 kD protein is immunoreactive with the antisera--the protein is equivalent to that predicted for emerin. Together, our findings suggest the specific deficiency of emerin in the nuclear membrane of muscle cells in patients with EDMD.
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PMID:Emerin deficiency at the nuclear membrane in patients with Emery-Dreifuss muscular dystrophy. 858 15

The Emery-Dreifuss Muscular Dystrophy (EDMD) is an X-linked recessive muscular disorder characterized by early contractures of the elbows, Achilles tendons and postcervical muscles, slowly progressing muscle wasting and weakness and a cardiomyopathy characterized by conduction defects. Heart block is a frequent cause of death. Finding of mutations in one of the transcripts in the critical region in distal Xq28 led to the identification of the gene responsible for the disease. We now report the sequence of the gene which is 2100 bp long and the development of a set of primers to amplify and sequence the gene from patients' DNA. Eight unrelated X-linked familial cases were studied and they all carried different mutations, showing that lack of emerin in cardiac and skeletal muscle is the cause of the X-linked disease. No mutations were found in a family where the female carrier was affected nor in a sporadic case with a well established diagnosis of EDMD. Our findings suggest genetic heterogeneity of EDMD, and that at least two genes, the X-linked STA gene and one unidentified autosomal gene, are responsible for the disease.
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PMID:Identification of new mutations in the Emery-Dreifuss muscular dystrophy gene and evidence for genetic heterogeneity of the disease. 859 7

The X-linked form of Emery-Dreifuss muscular dystrophy (EDMD) was recently shown to be due to mutations in the STA gene on chromosome Xq28. We have demonstrated a simple test for the diagnosis of this condition, looking for altered expression of the protein, emerin, in leucocytes and skin with a monoclonal antibody. Full-length emerin is completely absent in affected boys from the EDMD families studied. The method has also enabled identification of a female carrier of the disease by reduced levels of the protein on the leucocyte Western blot and a mosaic pattern of expression by immunofluorescence microscopy of the skin biopsy.
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PMID:Diagnosis of X-linked Emery-Dreifuss muscular dystrophy by protein analysis of leucocytes and skin with monoclonal antibodies. 913 42

Emery-Dreifuss muscular dystrophy (EMD) is an X-linked disorder characterized by contractures, progressive muscle weakness and cardiomyopathy. The emerin gene, located in human Xq28, is approximately 2 kb in length, is composed of 6 exons and falls within a 219-kb region that has been completely sequenced. Immediately centromeric to emerin is the 26-kb filamin gene (FLN1), composed of 48 exons and encoding the actin-binding protein 280 (refs 7,8). Flanking this 48-kb FLN1/emerin region are two large inverted repeats, each 11.3 kb, that exhibit > 99% sequence identity. The high level of genomic detail in this region allowed us to characterize the first complete emerin gene deletion mutation that also involved a partial duplication of the nearby FLN1 gene. This rearrangement could be explained by mispairing of the large inverted repeats, followed by double recombination among one set of mispaired repeats and internal sequences. Furthermore, our characterization of this rare DNA rearrangement revealed a more common result of the mispairing of these large inverted repeats--recombination contained within the inverted repeats leading to the maintenance of repeat sequence homogeneity and inversion of the 48-kb FLN1/emerin region. The presence of this frequent inversion, found in the heterozygous state in 33% of females, helps to explain the discrepancies observed between the genetic and physical map distances in this region of the X chromosome. It also illustrates the biological insights which can be gleaned by sequencing the human genome.
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PMID:Emerin deletion reveals a common X-chromosome inversion mediated by inverted repeats. 914 Mar 86

X-linked Emery-Dreifuss muscular dystrophy (EMD) is a very rare, relatively benign muscle disorder. The disease is associated with potentially lethal cardiac arrhythmias in affected males and some heterozygous females. X-linked EMD can be genetically distinguished from phenotypically similar autosomal EMD. Heterogenic mutations are identified as the cause of X-linked EMD. We introduced heteroduplex analysis to follow the segregation of heterogenic emerin gene mutations in the families of six unrelated EMD patients. Heteroduplex analysis was proved to be a simple, fast and reliable tool for direct molecular genetic diagnosis of EMD in male patients and identification of heterozygotes even in families where affected males are not available as index cases.
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PMID:Direct molecular genetic diagnosis and heterozygote identification in X-linked Emery-Dreifuss muscular dystrophy by heteroduplex analysis. 916 Jan 82

Mutations in the emerin gene, also referred to as the STA- or EMD-gene, have been found to be the cause of X-linked Emery-Dreifuss muscular dystrophy (EMD). For the present study an optimized set of primers was designed to amplify and sequence each of the six emerin gene exons, including the intron/exon boundaries. All emerin gene exons of 30 unrelated EMD patients have been screened by heteroduplex analysis. Aberrant patterns of single exons were found in seven patients. Direct sequencing of the respective exons revealed six novel mutations distributed in the promotor region and exons 3-6 (delta nt -19 to -40; delta AG nt 620-621; ins A nt 895; delta AT nt 908-909; C-->A nt 1420; ins TA nt 1570). By this study, the first mutations in the promotor region and in exon 5 have been identified. Each of the 25 mutations that have been described so far, including those from the present study, abolishes the synthesis of functional emerin. The mutations were submitted to the EMD Mutation database (http://www.path.cam.ac.uk/emd).
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PMID:Six novel mutations in the emerin gene causing X-linked Emery-Dreifuss muscular dystrophy. 919 26

We have raised an anti-emerin polyclonal antibody against a fusion protein encompassing most of the hydrophilic portion of emerin. Using this antibody, we have analyzed emerin expression in Emery-Dreifuss muscular dystrophy (EDMD) patients and controls, by immunocytochemistry, in skeletal muscle and skin, and by immunoblot, in peripheral blood mononuclear cells and lymphoblasts. Emerin was localized on the surfaces of nuclei in control skeletal muscle and skin but was absent or reduced in patient skeletal muscle, was absent from the skin of patients, and was expressed only in a few nuclei in a patient's mother. Immunoblot of peripheral blood cells from EDMD patients showed absence of the emerin band, altered-size emerin, or a protein of normal molecular mass but slightly reduced quantity. The diagnosis of X-linked EDMD is normally confirmed by genetic analysis of the STA gene coding for emerin. We propose immunocytochemical evaluation of emerin expression in skin biopsies as a sensitive and more convenient tool for diagnosing X-linked EDMD and, in particular, for distinguishing it from the autosomal dominant form. This technique may be applied to suspected EDMD patients, especially sporadic cases or those with incomplete clinical phenotype, and also suspected carriers. Immunoblot of peripheral blood cells is also useful, but it may not unequivocally identify carriers and some patients.
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PMID:X-linked Emery-Dreifuss muscular dystrophy can be diagnosed from skin biopsy or blood sample. 926 37

Emery-Dreifuss muscular dystrophy (EDMD) is an X-linked inherited disease characterized by early contracture of the elbows, Achilles tendons and post-cervical muscles, slow progressive muscle wasting and weakness and cardiomyopathy presenting with arrhythmia and atrial paralysis: heart block can eventually lead to sudden death. The EDMD geneencodes a novel ubiquitous protein, emerin, which decorates the nuclear rim of many cell types. Amino acid sequence homology and cellular localization suggested that emerin is a member of the nuclear lamina-associated protein family. These findings did not explain the role of emerin nor account for the skeletal muscle- and heart-specific clinical manifestations associated with the disorder. Now we report that emerin localizes to the inner nuclear membrane, via its hydrophobic C-terminal domain, but that in heart and cultured cardiomyocytes it is also associated with the intercalated discs. We propose a general role for emerin in membrane anchorage to the cytoskeleton. In the nuclear envelope emerin plays a ubiquitous and dispensable role in association of the nuclear membrane with the lamina. In heart its specific localization to desmosomes and fasciae adherentes could account for the characteristic conduction defects described in patients.
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PMID:Heart-specific localization of emerin: new insights into Emery-Dreifuss muscular dystrophy. 936 Oct 31

Emery-Dreifuss muscular dystrophy (EMD) is an X-linked disorder characterized by contractures, progressive weakness and cardiomyopathy. EMD is caused by mutations in the 2 kb emerin gene that is located within human Xq28. Emerin is immediately distal to the 26 kb filamin gene, and flanking the filamin-emerin region are two large inverted repeats. This entire region previously has been found to be inverted in approximately 20% of X chromosomes, presumably mediated by the inverted repeats. Only one complete emerin deletion has been reported previously. It was found to be due to a complex rearrangement involving the inverted repeats which partially duplicated filamin. We report here two additional EMD patients who have large deletions of 20 and 34 kb, respectively. Unlike the previously reported deletion, these deletions appear to be simple deletions, with each breakpoint junction showing only 2 bp of overlap, suggesting an end-joining mechanism. However, the two deletions were found on each of the two inverted backgrounds. The 20 kb deletion includes the entire emerin gene and extends well into most of the distal inverted repeat. In contrast, the 34 kb deletion occurs on the inverted X chromosome and extends centromeric, well beyond the proximal inverted repeat. In addition, at least three nearby putative genes detected by previous sequence analysis are deleted among these patients but without obvious deviation from a typical EMD phenotype. Similarly to the previously reported deletion, filamin remains intact in these two deletions. All three deletions involve distinct breakpoints within the 4.7 kb filamin-emerin intergenic region, suggesting that loss of filamin is a lethal event. Thus, the close proximity of filamin to emerin may place constraints upon potential emerin deletions and probably accounts for the rarity of complete emerin deletions in EMD patients.
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PMID:Emerin deletions occurring on both Xq28 inversion backgrounds. 938 14

Emery-Dreifuss muscular dystrophy (EDMD) is an inherited muscular disorder characterized by the triad of progressive weakness in humero-peroneal muscles, early onset contractures and cardiomyopathy with conduction block that shows a high risk of sudden death. In 1994, the gene responsible for X-linked EDMD has been identified to Xq28 (designated as STA), that encodes a serine-rich protein of 254 amino acids, named emerin. In 1996, we discovered a nuclear membrane localization of emerin in the normal skeletal, cardiac and smooth muscles, but not in the tissues from patients with X-linked EDMD who had a nonsense mutation in the gene. In conclusion, molecular and genetic analyses of emerin are essential for accurate diagnosis of patients with EDMD.
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PMID:[Emery-Dreifuss muscular dystrophy]. 943 33


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