UNIPROT:Q00604 - FACTA Search

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

The X-linked dystrophic animal model, the mdx mouse, shows an extraordinary capacity for sustained muscle regeneration compared with X-linked dystrophic golden retriever dogs and humans with Duchenne muscular dystrophy. To test the hypothesis that muscles of mdx mice might have inherently superior muscle regeneration to that in nondystrophic animals, muscle regeneration in response to a crush injury was examined in mdx mice and in the nondystrophic, parental strain C57Bl/10Sn. Autoradiographic techniques were used specifically to investigate the timing of muscle precursor replication after crush injury. Little difference in the regenerative capacity, either histologically or with respect to the timing of muscle precursor replication, was found between mdx mice and C57Bl/10Sn or other nondystrophic strains of mice.
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PMID:Skeletal muscle regeneration after crush injury in dystrophic mdx mice: an autoradiographic study. 158 49

Common congenital malformations such as cleft lip and cleft palate are in most cases multifactorial in origin, involving both environmental and genetic components. Molecular biology techniques have enabled the successful chromosomal localization of many mutant genes from disorders that exhibit simple Mendelian segregation, whether autosomally dominant (e.g., Huntington's disease), autosomal recessive (e.g., cystic fibrosis), or X-linked (e.g., Duchenne muscular dystrophy). Studying the genetic aspect of multifactorial disorders is more complex. It requires a model family or families within which the common multifactorial phenotype is displayed as a single gene defect. Such a model has been recently exploited in the form of a large Icelandic family (over 280 members) exhibiting X-linked secondary cleft palate (CP) and ankyloglossia (A) (tongue-tied) as a single gene mutation. Using this family and the large bank of well-characterized DNA probes available for the human X chromosome, the gene for CP + A was localized by linkage analysis to Xq13-q21.1 (LOD score = 3.07, linked to anonymous probe DXYS1). Further fine mapping, using other X probes from this region (confirmed by analysis of DNA from a deletion cell-line) has placed the gene between markers DXYS12 and DXS17 (LOD score = 4.1) at Xq21.3-q22. The approximate distance between these two probes is 5 centimorgans (cM), equivalent to approximately 5 million base pairs. Now that the limits of genetic linkage have been fully tested and there are two markers flanking the defect locus, strategies are being pursued to clone the gene responsible.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Localization of a mutant gene for cleft palate and ankyloglossia in an X-linked Icelandic family. 168 71

Alkylating agent damage was quantified in human T-lymphocytes by calculating gene-specific lesion frequencies and repair rates. At 3 time points after exposure to methyl methanesulfonate (0, 6, and 24 h), T-lymphocyte DNA was extracted, digested with HindIII, and divided into 2 aliquots. Apurinic sites were formed in the DNA fragments of both aliquots by heat-induced liberation of the N-methylpurines. The methoxyamine-treated aliquot provided gene fragments which were refractory to alkaline hydrolysis (full-length fragments), while the fragments in the untreated aliquot were cleaved at apurinic sites by hydroxide. After Southern blotting, lesion frequencies were calculated by comparing the band intensity of the full-length fragment to its unprotected counterpart. The restriction fragments analyzed were from the constitutively active dihydrofolate reductase (dhfr) plus hypoxanthine phosphoribosyltransferase (hprt) genes and from the transcriptionally inactive Duchenne muscular dystrophy gene (dmd). In decreasing order, the fragments containing the most lesions per kb of DNA were: hprt greater than dhfr greater than dmd. T-Lymphocytes from 2 females had 30% more heat-labile N-methylpurines in the active X-linked hprt gene than in the inactive X-linked dmd gene. The lesion frequency found in the male's lone hprt allele was the highest observed. These lesion frequency differences are discussed in terms of chromatin structure. After 6 and 24 h, no significant repair rate differences were observed among the 3 genes.
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PMID:Two expressed human genes sustain slightly more DNA damage after alkylating agent treatment than an inactive gene. 171 96

Two 2-year-old males underwent muscle biopsy that established the histopathologic diagnosis of Becker dystrophy in one, and Duchenne dystrophy in the other. Concomitant contracture testing with caffeine or halothane was normal for malignant hyperthermia (MH). The results suggest that acute hypermetabolism or acute rhabdomyolysis during anesthesia, in patients with these disorders, is related to the X-linked myopathy and its associated muscle deterioration, rather than to the autosomal dominant MH.
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PMID:Absence of malignant hyperthermia contractures in Becker-Duchenne dystrophy at age 2. 173 62

Duchenne muscular dystrophy (DMD) is an X-linked disease characterized by progressive muscle weakness and degeneration. Dystrophin is the product of the missing gene in this disorder. However, the cause of the dystrophic process is not understood. Transient muscle injury is normally seen after muscle exercise, and may be a necessary process in muscle growth and preservation. We, therefore, chose to evaluate the role of exercise in Duchenne dystrophy by studying the canine X-linked animal model (CXMD). These dogs also lack dystrophin and have clinical signs similar to humans. Exercise was initiated by electrical stimulation, and muscle metabolism was monitored with phosphorus magnetic resonance spectroscopy (P-MRS). Dogs with CXMD had abnormal muscle pathology and markedly elevated serum CK. The inorganic phosphate (Pi) to phosphocreatine (PCr) ratio was increased in CXMD dogs at rest compared with normal dogs (Pi/(Pi + PCr) = 0.166 +/- 0.054 for CXMD and 0.073 +/- 0.017 for normals, mean +/- SE). No changes in resting ATP, pH, phosphomonoesters (PME), and phosphodiesters (PDE) were seen. The mean Pi/(Pi + PCr) and pH values during stimulation were normal in the CXMD dogs. Two to three days after electrical stimulation, resting Pi/(Pi + PCr) ratios were significantly increased in the CXMD dogs (0.127 +/- 0.029 compared with 0.172 +/- 0.054, mean +/- SD). Normal dogs showed no increase in Pi/(Pi + PCr) following stimulation. There was a 50-fold greater increase in serum CK in CXMD compared with normal dogs following exercise. These results indicate greater muscle injury in CXMD muscle, and suggest that in the absence of dystrophin, exercise-induced muscle injury may play a role in the dystrophic process.
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PMID:Canine X-linked muscular dystrophy studied with in vivo phosphorus magnetic resonance spectroscopy. 174 83

mAbs have been raised against different epitopes on the protein product of the DMDL gene, which is an autosomal homologue of the X-linked DMD gene for dystrophin. These antibodies provide direct evidence that DMDL protein is localized near acetylcholine receptors at neuromuscular junctions in normal and mdx mouse intercostal muscle. The primary location in tissues other than skeletal muscle is smooth muscle, especially in the vascular system, which may account for the wide tissue distribution previously demonstrated by Western blotting. The DMDL protein was undetectable in the nonjunctional sarcolemma of normal human muscle, but was observed in nonjunctional sarcolemma of Duchenne muscular dystrophy patients, where dystrophin itself is absent or greatly reduced. The expression of DMDL protein is not restricted to smooth and skeletal muscle, however, since relatively large amounts are present in transformed brain cell lines of both glial and Schwann cell origin. This contrasts with the low levels of DMDL protein in adult brain tissue.
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PMID:Localization of the DMDL gene-encoded dystrophin-related protein using a panel of nineteen monoclonal antibodies: presence at neuromuscular junctions, in the sarcolemma of dystrophic skeletal muscle, in vascular and other smooth muscles, and in proliferating brain cell lines. 175 69

The discovery and characterization of the X-linked gene which is defective in Duchenne muscular dystrophy (DMD) and of its protein product, dystrophin, has led to the identification of biochemical homologues of this disease in the mouse, the dog and the cat. All three animal models resemble DMD in that they lack dystrophin and that their skeletal muscle fibres undergo spontaneous necrosis and regeneration. In the dog and man, the degenerative and fibrotic aspects predominate, leading to a progressive loss of muscle structure and function, and to severe clinical disability. By contrast, in the mouse and the cat there is little fibrosis and the regenerative process seems to overcompensate, producing a true muscle hypertrophy and little or no clinical deficit. This interspecies variation in pathological response limits the usefulness of these animals as models for therapeutic testing, calling into question the strength of linkage between a given biochemical lesion and a particular pattern of pathology. However, these differences do give a valuable perspective to the pathology of the dystrophin-deficiency diseases, permitting identification of the immediate and secondary consequences of the lack of dystrophin. Moreover, the dystrophic mouse and dog are readily bred as colonies, thus providing consistent material for investigating the function of dystrophin and for testing methods of replacing its function or compensating for the absence of this function in the muscles of DMD patients. The fact that a lack of dystrophin is compatible, in some species, with only minor muscle dysfunction, raises hopes for an effective therapy in man.
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PMID:Animal models of muscular dystrophy--what can they teach us? 175 68

A genetic locus (RP3) for X-linked retinitis pigmentosa (XLRP) has been assigned to Xp21 by genetic linkage studies and has been supported by two Xp21 male deletion patients with XLRP. RP3 appears to be the most centromeric of several positioned loci, including chronic granulomatous disease (CGD), McLeod phenotype (XK), and Duchenne muscular dystrophy (DMD). In one patient, BB, the X-chromosome deletion includes RP3 and extends to within the DMD locus. Using a DMD cDNA, the centromeric endpoint of this patient was cloned and used as a starting point for chromosome walking along a normal X chromosome. A single-copy probe, XH1.4, positioned near the centromeric junction but deleted in BB, was used along with a CGD cDNA probe to establish a refined long-range physical map. Both probes recognized a common SfiI fragment of 205 kb. As the CGD gene covers approximately 30-60 kb, the RP3 locus has been restricted to approximately 150-170 kb. A CpG island, potentially marking a new gene, was identified within the SfiI fragment at a position approximately 35 kb from the deletion endpoint in BB.
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PMID:Physical mapping at a potential X-linked retinitis pigmentosa locus (RP3) by pulsed-field gel electrophoresis. 176 46

Animal models have proven very useful in furthering insight into a number of muscle diseases. Studies of ethanol-fed rats are being used to understand the pathogenetic mechanisms underlying acute and chronic myopathy induced by ethanol. Several animal species, including mice, dogs, and cats, develop X-linked muscular dystrophies, which have genetic defects identical to those of Duchenne muscular dystrophy. As in the human disease, these animals lack dystrophin. They are being used to investigate the mechanisms by which lack of dystrophin results in weakness and to examine myoblast transfer as a treatment modality. A model of eosinophilia-myalgia syndrome has recently been induced in Lewis rats by the feeding of L-tryptophan samples that were implicated in the clinical syndrome in humans, making possible studies of the pathogenesis of this interesting new entity. A dermatomyositis-like syndrome occurs spontaneously in dogs, and polymyositis-like illnesses can be induced in mice by immunization with muscle or following infection with selected viruses, especially enteroviruses. Study of the latter is helping us understand mechanisms in the etiology and pathogenesis of inflammatory myositis and virus-induced autoimmunity.
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PMID:Animal models of myopathy. 177 47

The differential clinical diagnosis between the X-linked muscular dystrophies (DMD and BMD) and autosomal recessive limb-girdle muscular dystrophy (LGMD), which is extremely important for genetic counseling, may be very difficult. The aim of the present report is to describe clinical and laboratory findings in patients from large families, with AR inheritance, in an attempt to characterize better cases which have been diagnosed as LGMD compared with the X-linked forms. The main features analysed are: age of onset and of confinement to a wheelchair, reproductive performance, serum enzymes (CK and PK) and dystrophin assessment (through immunohistochemistry and Western blot). Twenty-two families, with 62 affected patients diagnosed as limb-girdle muscular dystrophy, were included in this report. In 19 families, the patients had a milder clinical course, while in the remaining 3, the progression of the disease was continuous and clinically similar to X-linked DMD ("DMD-like"). A high consanguinity rate was observed among the parents of the affected patients (77%). No major clinical difference was observed between the X-linked and the AR forms. However, muscle dystrophin was found qualitatively and quantitatively normal in the autosomal forms but absent or abnormal in the X-linked ones. The reproductive performance was significantly higher for male than female patients. In addition, a surprising finding was the significantly greater fitness estimated for male LGMD cases as compared with Becker patients of comparable age studied in our center. The implications of such findings are discussed.
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PMID:Limb-girdle syndrome: a genetic study of 22 large Brazilian families. Comparison with X-linked Duchenne and Becker dystrophies. 186 35

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