UMLS:C0026850 - FACTA Search

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Query: UMLS:C0026850 (muscular dystrophy)
5,870 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Myodystrophy (myd), an autosomal recessive mutation of the mouse characterized by progressive weakness and dystrophic muscle histology, maps to the central portion of Chromosome (Chr) 8 (Lane et al. J. Hered 67, 135, 1976). This portion of Chr 8 contains the genes for a mitochondrial uncoupling protein (Ucp) and kallikrein (Kal3), which map to distal 4q in the human, providing evidence for a segment of homology. Characteristics of the myd phenotype coupled with this homology suggest that myd may be a mouse homolog of facioscapulohumeral muscular dystrophy (FSHD), which maps to human 4q35. We have confirmed and expanded the region of mouse 8-human 4 homology by generating a map of Chr 8 in an interspecific backcross of C57BL/6J and a partially inbred strain derived from M. spretus. The map is comprised of the genes for Ucp, coagulation factor XI (Cfl1), and chloride channel 5 (Clc5), all of which have homologs on distal human 4q, 15 microsatellite loci, and the membrane cofactor protein pseudogene (Mcp-ps). To place myd in the genetic map, 75 affected progeny from an intersubspecific backcross of animals heterozygous for myd with Mus musculus castaneus were genotyped with Chr 8 microsatellite loci. The mutation maps between D8Mit30 and D8Mit75, an interval that is flanked by genes with human homologs at distal 4q. These results are consistent with the possibility that myd is the mouse homolog of FSHD.
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PMID:Genetic mapping near the myd locus on mouse chromosome 8. 761 34

Myodystrophy (myd) is an autosomal-recessive mouse mutation with dystrophic skeletal muscle. We propose that myd may be a model of the human disorder facioscapulohumeral dystrophy (FSHD) on the basis of clinical features and homologous genetic map locations. FSHD maps to human 4q35, while myd maps to mouse chromosome 8. To explore the relationship between FSHD and myd, it is necessary to define the homologous regions of human chromosome 4 and mouse chromosome 8, and ultimately, identify the genes underlying both disorders. A kallikrein gene (Kal3) was previously mapped by in situ hybridization to mouse chromosome 8 and human 4q35. We report the genetic map location of Kal3, bringing to 4 the number of genes with homologues on human 4q31-35 placed on the genetic map of mouse chromosome 8. As a first step in gene isolation, we have narrowed the interval containing myd by typing 125 affected mice with microsatellite markers. Analysis of recombinants placed myd in an interval that is flanked by genes with homologues in human 4q.
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PMID:Mouse myodystrophy (myd) mutation: refined mapping in an interval flanked by homology with distal human 4q. 773 34

Myodystrophy (myd) is an autosomal-recessive mouse mutation with dystrophic skeletal muscle. We propose that myd may be a model of the human disorder facioscapulohumeral dystrophy (FSHD) on the basis of clinical features and homologous genetic map locations. FSHD maps to human 4q35, while myd maps to mouse chromosome 8. To explore the relationship between FSHD and myd, it is necessary to define the homologous regions of human chromosome 4 and mouse chromosome 8, and ultimately, identify the genes underlying both disorders. A kallikrein gene (KaL3) was previously mapped by in situ hybridization to mouse chromosome 8 and human 4q35. We report the genetic map location of Kal3, bringing to 4 the number of genes with homologues on human 4q31-35 placed on the genetic map of mouse chromosome 8. As a first step in gene isolation, we have narrowed the interval containing myd by typing 125 affected mice with microsatellite markers. Analysis of recombinants placed myd in an interval that is flanked by genes with homologues in human 4q.
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PMID:Mouse myodystrophy (myd) mutation: refined mapping in an interval flanked by homology with distal human 4q. 2357 94

Dystrophinopathies are multi-system disorders that affect the skeletal musculature, the cardio-respiratory system and the central nervous system. The systematic screening of suitable biofluids for released or altered proteins promises new insights into the highly complex pathophysiology of X-linked muscular dystrophy. However, standard detection approaches using antibody-based assays often fail to reproducibly detect low-abundance protein isoforms in dilute biological fluids. In contrast, mass spectrometric screening approaches enable the proteome-wide identification of minor protein changes in biofluids. This report describes the findings from the comparative proteomic analysis of whole saliva samples from wild type versus the established mdx-4cv mouse model of highly progressive muscular dystrophy, focusing on the kallikrein protein family. Kallikrein-1 (Klk1) and 13 Klk1-related peptidases were identified in saliva and serum from normal mice. Comparative proteomics revealed elevated saliva levels of the Klk1-related peptidases Klk1-b1, Klk1-b5 and Klk-b22, as well as an increased Klk-1 concentration, which agrees with higher Klk-1 levels in serum from mdx-4cv mice. This indicates altered cellular signaling, extracellular matrix remodeling and an altered immune response in the mdx-4cv mouse, and establishes liquid biopsy procedures as suitable bioanalytical tools for the systematic survey of complex pathobiochemical changes in animal models of muscular dystrophy.
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PMID:Proteomic identification of elevated saliva kallikrein levels in the mdx-4cv mouse model of Duchenne muscular dystrophy. 3119 43