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111.
Compound heterozygosity for COL7A1 mutations in twins with dystrophic epidermolysis bullosa: a recessive paternal deletion/insertion mutation and a dominant negative maternal glycine substitution result in a severe phenotype. 总被引:3,自引:1,他引:2
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112.
Human type VII collagen: genetic linkage of the gene (COL7A1) on chromosome 3 to dominant dystrophic epidermolysis bullosa. 总被引:4,自引:0,他引:4
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M Ryynnen R G Knowlton M G Parente L C Chung M L Chu J Uitto 《American journal of human genetics》1991,49(4):797-803
Epidermolysis bullosa (EB) is a heterogeneous group of heritable blistering disorders affecting the skin and the mucous membranes. Previous ultrastructural studies on the dystrophic (scarring) forms of EB have demonstrated abnormalities in the anchoring fibrils, morphologically distinct structures below the basal lamina at the dermal/epidermal basement membrane zone. Type VII collagen is the major collagenous component of the anchoring fibrils, and it is therefore a candidate gene for mutations in some families with dystrophic forms of EB. In this study, we performed genetic linkage analyses in a large kindred with dominant dystrophic EB. A 1.9-kb type VII collagen cDNA clone was used to identify a PvuII RFLP to follow the inheritance of the gene. This RFLP cosegregated with the EB phenotype in this family, strongly supporting genetic linkage (Z = 5.37; theta = .0). In addition, we assigned the type VII collagen gene (COL7A1) to chromosome 3 by hybridization to a panel of human x rodent somatic cell hybrids. These data demonstrate very close genetic linkage between the clinical phenotype in this family and the polymorphism in the type VII collagen gene mapped to chromosome 3. The absence of recombination between EB and the type VII collagen gene locus, as well as the observed abnormalities in the anchoring fibrils, strongly suggest that this collagen gene is the mutant locus in this kindred. 相似文献
113.
114.
Lasse Ryhänen Edward J. Zaragoza Jouni Uitto 《Archives of biochemistry and biophysics》1983,223(2):562-571
Native collagen polypeptides exist in a unique triple helical conformation resistant to most proteinases. In this study, the stability of type I collagen triple helix, employing a mixture of trypsin and alpha-chymotrypsin as a proteolytic probe, was examined. The degradation of type I [3H]collagen was monitored as 3H-labeled peptides soluble in trichloroacetic acid (TCA) or by sodium dodecyl sulfate (SDS)-polyacrylamide slab gel electrophoresis. In one set of experiments, collagen substrates were preincubated at various temperatures for up to 8 h, followed by a 15-min proteolytic treatment at the same temperature. At 43 degrees C, most of the collagen was degraded, while the fraction of the substrate degraded at 40, 38, and 35 degrees C was 53, 41 and 19%, respectively. This fraction was independent of the preincubation time which varied from 10 to 480 min. Thus, at any given temperature, a constant fraction of the collagen substrate was susceptible to proteolysis. Measurement of the midpoint temperature (Tm) of the helix to coil transformation for type I collagen, at neutral pH employing an increasing temperature gradient and brief proteolysis at the individual temperatures, indicated a value of 38.8 degrees C. However, determination of the Tm by employing proteolytic digestions at a constant temperature (30 degrees C) using conditions under which the nonhelical peptides are readily digested to TCA-soluble peptides while native collagen resists such proteolysis, indicated a value of 42.7 degrees C. In further studies, collagen was subjected to continuous proteolysis for up to 24 h. A large fraction of collagen was digested at 30 or 34 degrees C, temperatures well below the Tm of the helix to coil transformation. SDS-polyacrylamide gel electrophoresis of the degradation products obtained at these temperatures revealed multiple cleavage fragments. Finally, temperature double-jump experiments indicated that the destabilization of the triple helix is reversible provided that the Tm of the substrate is not exceeded. The results provide evidence for reversible and local relaxation of the collagen triple helix. 相似文献
115.
Collagen biosynthesis by human skin fibroblasts. III. The effects of ascorbic acid on procollagen production and prolyl hydroxylase activity 总被引:4,自引:0,他引:4
Human skin fibroblasts were cultured under conditions optimized for collagen synthesis, and the effects of ascorbic acid on procollagen production, proline hydroxylation and the activity of prolyl hydroxylase were examined in cultures. the results indicated that addition of ascorbic acid to confluent monolayer cultures of adult human skin fibroblasts markedly increased the amount of [3H]hydroxyproline synthesized. Ascorbic acid, however, did not increase the synthesis of 3H-labeled collagenous polypeptides assayed independently of hydroxylation of proline residues, nor did it affect the amount of prolyl hydroxylase detectable by an in vitro enzyme assay. Also long-term cultures of the cells or initiation of fibroblast cultures in the presence of ascorbic acid did not lead to an apparent selection of a cell population which might be abnormally responsive to ascorbic acid. Thus, ascorbic acid appears to have one primary action on the synthesis of procollagen by cultured human skin fibroblasts: it is necessary for synthesis of hydroxyproline, and consequently for proper triple helix formation and secretion of procollagen. 相似文献
116.
Jouni Uitto Jack R. Lichtenstein 《Biochemical and biophysical research communications》1976,71(1):60-67
Matrix-free chick embryo tendon cells were incubated with [14C]proline for 60 minutes and protein synthesis was stopped by the addition of cycloheximide. Newly synthesized collagen precursors recovered in the incubation medium were mostly intact procollagen molecules which contain both amino-terminal and carboxy-terminal extensions. If the cells were further incubated for 2 hours in the presence of cycloheximide, most of the procollagen was converted to precursor molecules which were devoid of amino-terminal extensions. Removal of the carboxy-terminal extensions from procollagen was not observed. Similar experiments with intact tendons demonstrated that procollagen synthesized by the intact tissues was readily converted to an intermediate form devoid of amino-terminal extensions and then to collagen. The results suggest that the removal of the amino-terminal and carboxy-terminal extensions from procollagen is catalyzed by two separate enzymic activities. 相似文献
117.
118.
Qiaoli Li Annerose Berndt Beth A. Sundberg Kathleen A. Silva Victoria E. Kennedy Clinton L. Cario Matthew A. Richardson Thomas H. Chase Paul N. Schofield Jouni Uitto John P. Sundberg 《Mammalian genome》2016,27(5-6):179-190
Dystrophic cardiac calcinosis (DCC), also called epicardial and myocardial fibrosis and mineralization, has been detected in mice of a number of laboratory inbred strains, most commonly C3H/HeJ and DBA/2J. In previous mouse breeding studies between these DCC susceptible and the DCC-resistant strain C57BL/6J, 4 genetic loci harboring genes involved in DCC inheritance were identified and subsequently termed Dyscalc loci 1 through 4. Here, we report susceptibility to cardiac fibrosis, a sub-phenotype of DCC, at 12 and 20 months of age and close to natural death in a survey of 28 inbred mouse strains. Eight strains showed cardiac fibrosis with highest frequency and severity in the moribund mice. Using genotype and phenotype information of the 28 investigated strains, we performed genome-wide association studies (GWAS) and identified the most significant associations on chromosome (Chr) 15 at 72 million base pairs (Mb) (P < 10?13) and Chr 4 at 122 Mb (P < 10?11) and 134 Mb (P < 10?7). At the Chr 15 locus, Col22a1 and Kcnk9 were identified. Both have been reported to be morphologically and functionally important in the heart muscle. The strongest Chr 4 associations were located approximately 6 Mb away from the Dyscalc 2 quantitative trait locus peak within the boundaries of the Extl1 gene and in close proximity to the Trim63 and Cap1 genes. In addition, a single-nucleotide polymorphism association was found on chromosome 11. This study provides evidence for more than the previously reported 4 genetic loci determining cardiac fibrosis and DCC. The study also highlights the power of GWAS in the mouse for dissecting complex genetic traits. 相似文献
119.
Recent reports have uncovered the key role of the protein filaggrin in maintaining an effective skin barrier against the external environment. Loss-of-function mutations in the profilaggrin gene (FLG) are common and are present in up to 10% of the population. These mutations are the cause of the semi-dominant skin-scaling disorder ichthyosis vulgaris and are a major risk factor for the development of atopic dermatitis. The discovery of these mutations also provides new data concerning the genetics of atopic asthma as well as intriguing insight into disease mechanisms of systemic allergies involving antigen exposure in skin with defective barrier function. Collectively, these novel findings have significant implications for the classification and future clinical management of patients with atopic and allergic diseases. 相似文献
120.
O Montonen M Aho J Uitto S Aho 《The journal of histochemistry and cytochemistry》2001,49(12):1487-1496
Cadherin-based molecular complexes play a major role in cell-cell adhesion. At the adherens junctions the intracellular domain of cadherins specifically interacts with beta-catenin and p120ctn, members of the Armadillo repeat protein family. Differential splicing and utilization of the alternative translation initiation codons lead to many p120ctn isoforms. Two major p120ctn isoforms are expressed in mouse tissues. In this study we used indirect immunofluorescence to demonstrate significant tissue specificity in expression of the p120ctn isoforms. The short isoform is abundant at cell-cell adhesion junctions in epidermis, palatal, and tongue epithelia, in the ducts of excretory glands, bronchiolar epithelium, and in mucosal epithelia of esophagus, forestomach, and small intestine. In contrast, the long isoform, containing an amino terminus highly conserved within the p120ctn subfamily, is expressed at vascular-endothelial cell junctions in blood vessels, at cell-cell junctions in the serosal epithelium lining the internal organs, in choroid plexus of brain, in the pigment epithelium of retina, and in structures such as the outer limiting membrane of retina and intercalated discs of cardiomyocytes. The tissue- and cell type-specific expression of p120ctn isoforms suggests a role for the long p120ctn isoform in cell structures responsible for stable tissue integrity, compared to the role of the short isoform in cell-cell adhesion in the external epithelia with rapid turnover. 相似文献