Global ETD Search

1	Caractérisation clinique et génétique des myotonies congénitales classiques et atypiques au Saguenay Lac St-Jean Rossignol, Elsa 12 1900 (has links) Les syndromes myotoniques congénitaux atypiques dus à des mutations du canal sodé voltage-dépendant Nav1.4 se distinguent des myotonies congénitales classiques (canal chlore ClC-1) par la présence de traits atypiques incluant des myotonies douloureuses aggravées au froid et à l’ingestion de potassium. La caractérisation clinique et moléculaire de plusieurs familles atteintes de ces conditions rares dans la région du Saguenay-Lac-St-Jean nous a permis de découvrir une nouvelle mutation SCN4A à effet fondateur causant un phénotype de myotonies douloureuses aggravées au froid, parfois accompagné de phénomènes dystrophiques ou paralytiques. L’ampleur de notre cohorte nous permet de commenter sur l’hétérogénité phénotypique observée, sur les traits caractéristiques des syndromes associés au gène SCN4A, sur les implications physiologiques probables d’une telle mutation ainsi que sur les facteurs modulant le phénotype observé. Enfin, notre étude nous permet de souligner l’importance du dépistage familial systématique afin de prévenir les complications anesthésiques potentielles associées à ces conditions. / Congenital myotonic syndromes due to mutations of the voltage-gated sodium channel Nav1.4 differ from those due to mutations of the chloride channel CLC-1 as they tend to present atypical traits including painful myotonias and aggravation of symptoms with cold and potassium ingestion. Indeed, after completing the clinical and molecular characterization of a large cohort of patients affected with these rare conditions in the Saguenay Lac-St-Jean area, we were able to describe a new founder SCN4A mutation presenting with painful cold-induced myotonias and occasional dystrophic and paralytic episodes. Our study illustrates the wide phenotypic variability and the typical traits of SCN4A mutations. In addition, we were able to speculate on the probable physiological consequences of such mutations. Finally, we conclude by stressing the importance of familial screening in order to reduce the incidence of anesthetic complications associated with these conditions. myotonie congénitale paralysie périodique canaux voltage-dépendants SCN4A CLCN1 congenital myotonia periodic paralysis potassium-aggravated myotonia voltage-gated channels SCN4A CLCN1
2	Caractérisation clinique et génétique des myotonies congénitales classiques et atypiques au Saguenay Lac St-Jean Rossignol, Elsa 12 1900 (has links) Les syndromes myotoniques congénitaux atypiques dus à des mutations du canal sodé voltage-dépendant Nav1.4 se distinguent des myotonies congénitales classiques (canal chlore ClC-1) par la présence de traits atypiques incluant des myotonies douloureuses aggravées au froid et à l’ingestion de potassium. La caractérisation clinique et moléculaire de plusieurs familles atteintes de ces conditions rares dans la région du Saguenay-Lac-St-Jean nous a permis de découvrir une nouvelle mutation SCN4A à effet fondateur causant un phénotype de myotonies douloureuses aggravées au froid, parfois accompagné de phénomènes dystrophiques ou paralytiques. L’ampleur de notre cohorte nous permet de commenter sur l’hétérogénité phénotypique observée, sur les traits caractéristiques des syndromes associés au gène SCN4A, sur les implications physiologiques probables d’une telle mutation ainsi que sur les facteurs modulant le phénotype observé. Enfin, notre étude nous permet de souligner l’importance du dépistage familial systématique afin de prévenir les complications anesthésiques potentielles associées à ces conditions. / Congenital myotonic syndromes due to mutations of the voltage-gated sodium channel Nav1.4 differ from those due to mutations of the chloride channel CLC-1 as they tend to present atypical traits including painful myotonias and aggravation of symptoms with cold and potassium ingestion. Indeed, after completing the clinical and molecular characterization of a large cohort of patients affected with these rare conditions in the Saguenay Lac-St-Jean area, we were able to describe a new founder SCN4A mutation presenting with painful cold-induced myotonias and occasional dystrophic and paralytic episodes. Our study illustrates the wide phenotypic variability and the typical traits of SCN4A mutations. In addition, we were able to speculate on the probable physiological consequences of such mutations. Finally, we conclude by stressing the importance of familial screening in order to reduce the incidence of anesthetic complications associated with these conditions. myotonie congénitale paralysie périodique canaux voltage-dépendants SCN4A CLCN1 congenital myotonia periodic paralysis potassium-aggravated myotonia voltage-gated channels SCN4A CLCN1
3	Phylogeny and Molecular Evolution of the Voltage-gated Sodium Channel Gene scn4aa in the Electric Fish Genus Gymnotus Xiao, Dawn Dong-yi 19 March 2014 (has links) Analyses of the evolution and function of voltage-gated sodium channel proteins (Navs) have largely been limited to mutations from individual people with diagnosed neuromuscular disease. This project investigates the carboxyl-terminus of the Nav paralog (locus scn4aa 3’) that is preferentially expressed in electric organs of Neotropical weakly-electric fishes (Order Gymnotiformes). As a model system, I used the genus Gymnotus, a diverse clade of fishes that produce species-specific electric organ discharges (EODs). I clarified evolutionary relationships among Gymnotus species using mitochondrial (cytochrome b, and 16S ribosome) and nuclear (rag2, and scn4aa) gene sequences (3739 nucleotide positions from 28 Gymnotus species). I analyzed the molecular evolution of scn4aa 3’, and detected evidence for positive selection at eight amino acid sites in seven Gymnotus lineages. These eight amino acid sites are located in motifs that may be important for modulation of EOD frequencies. phylogeny systematics molecular evolution evolution voltage-gated sodium channel scn4a Nav1.4 sodium channel gene protein fish electric fish knifefish Neotropical fish Gymnotiform Gymnotus electric organ discharge electric field electric organ electric signal cytochrome b 16S ribosome phylogenetic reconstruction phylogenetic tree evolutionary history positive selection patterns of selection neuromuscular disease gene duplication differential expression maximum parsimony parsimony PAUP* Bayesian inference MrBayes Bayesian maximum likelihood PAML 0307
4	Phylogeny and Molecular Evolution of the Voltage-gated Sodium Channel Gene scn4aa in the Electric Fish Genus Gymnotus Xiao, Dawn Dong-yi 19 March 2014 (has links) Analyses of the evolution and function of voltage-gated sodium channel proteins (Navs) have largely been limited to mutations from individual people with diagnosed neuromuscular disease. This project investigates the carboxyl-terminus of the Nav paralog (locus scn4aa 3’) that is preferentially expressed in electric organs of Neotropical weakly-electric fishes (Order Gymnotiformes). As a model system, I used the genus Gymnotus, a diverse clade of fishes that produce species-specific electric organ discharges (EODs). I clarified evolutionary relationships among Gymnotus species using mitochondrial (cytochrome b, and 16S ribosome) and nuclear (rag2, and scn4aa) gene sequences (3739 nucleotide positions from 28 Gymnotus species). I analyzed the molecular evolution of scn4aa 3’, and detected evidence for positive selection at eight amino acid sites in seven Gymnotus lineages. These eight amino acid sites are located in motifs that may be important for modulation of EOD frequencies. phylogeny systematics molecular evolution evolution voltage-gated sodium channel scn4a Nav1.4 sodium channel gene protein fish electric fish knifefish Neotropical fish Gymnotiform Gymnotus electric organ discharge electric field electric organ electric signal cytochrome b 16S ribosome phylogenetic reconstruction phylogenetic tree evolutionary history positive selection patterns of selection neuromuscular disease gene duplication differential expression maximum parsimony parsimony PAUP* Bayesian inference MrBayes Bayesian maximum likelihood PAML 0307

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