Global ETD Search

621	Production of ganglioside biosynthetic membrane enzymes for biochemical and functional studies : Expression, purification and crystallization optimization of Thermococcus onnurineus Dolicho l-phosphate mannose synthase, Homosapiens and Branchiostoma floridae Glucosylceramide synthase Lindholm, Ellinor January 2018 (has links) Glycolipids play important roles in the biology of prokaryotes and eukaryotes, including humans, and although theyare found on the cell-membrane surface of all eukaryotic cells, not much is known about their biosynthesis. The aim ofthis project was to characterize two enzymes: glucosylceramide synthase (GCS) which is involved in the biosynthesisof glycolipids such as gangliosides that are abundant in the membranes of nerve cells; and dolicholphosphate mannosesynthase (DPMS), involved in the synthesis precursor for protein glycosylation. Both GCS and DPMS have been shown play a role in cancer as well as in congenital disorders of glycosylation, and are therefore interesting targets tostudy from a therapeutic perspective.With the goal to identify a suitable expression system for GCS, the genes coding for GCS from lancelet (Branchiostoma floridae) and human (Homo sapiens) were cloned and tested for expression in Escherichia coliBL21(DE3)T1 and C41(DE3) using different vectors. Cloning into three different vectors was successful and initial expression testing was performed. SDS-PAGE analysis confirmed initial expression of proteins. Although the correctsize of the protein could be confirmed by Western blot, no fluorescence of the GFP-fusion protein could be detected.DPMS from Thermococcus onnurineus (ToDP) was expressed in E. coli C41(DE3) and purified by immobilized metal ion affinity chromatography and gel filtration. Crystallization optimization was performed for ToDP produced from the vector pNIC28-Bsa4 and plate-like crystals were obtained. X-ray intensity data analysis indicated that thesecrystals contained lipid rather than protein. Crystallization screening for ToDP produced from the vector pNIC-CTHO construct was successful. Crystallization screening using the commercially available MemGold-HT96 crystallization kit resulted in initial crystallization that yielded protein crystals that diffracted to 10 °A resolution. / Glykolipider är viktiga biologiska byggstenar hos prokaryoter och eukaryoter, även människor. Trots att glykolipider finns på cellmembran ytan hos alla eukaryota celler är inte mycket känt kring syntesen av glykolipider. Målet med detta projekt var att karaktärisera två enzym: glukosylceramidsyntas (GCS) som är involverat i biosyntesen av glykolipider som gangliosider vilka förekommer i cellmembranet hos människors nervceller; och dolikolfosfatmannossyntas (DPMS) som är involverat i syntesen av substrat för proteinglykosylering. Både GCS och DPMS harvisat sig spela en roll i cancer och medfödda glykosyleringssjukdomar och är därför intressanta enzym att studera ur ett medicinskt perspektiv.Med målet att identifiera ett lämpligt expressionssystem för GCS, klonades gener från lansett (Branschiostomafloridae) och människa (Homo sapiens) och testades för expression i Escherichia coli BL21(DE3)T1 och C41(DE3)med olika vektorer. Kloning av tre olika vektorer lyckades och expressionstester utfördes. Analys med SDS-PAGE bekräftade expression av protein. Trots att korrekt storlek av proteinet kunde bekräftas med Western blot, detekterades ingen fluorescens från GFP-fusionsproteinet. DPMS från Thermococcus onnurineus (ToDP) i två olika konstrukt uttrycktes i E. coli C41(DE3) och renades med immobiliserad metalljonaffinitetskromatografi och gelfiltrering. Kristalliseringsoptimering utfördes för ToDP uttryckt i vektorn pNIC28-Bsa4 och skivliknande kristaller erhölls. Diffraktionsdata indikerade dock att kristallerna innehöll lipider och inte protein. Kristallisering av ToDP uttryckt i vektorn pNIC-CTHO lyckades och initiala kristallingsförhållanden hittades genom att använda det kommersiellt tillgängliga kristalliseringskitet MemGold-HT96. Diffraktionsdata visade på upplösning ner till 10 Å. glycoconjugates glycolipids integral membrane proteins gangliosides glucosylceramide synthase dolicholphosphate mannose synthase cancer neuroblastoma congenital disorders of glycosylation glykokonjukat glykolipider membranprotein gangliosider glukosylceramidsyntas dolicholfosfat mannossyntas cancer neuroblastom medfdd glykosyleringssjukdom Other Engineering and Technologies Annan teknik
622	Biallelic Mutations in the Autophagy Regulator DRAM2 Cause Retinal Dystrophy with Early Macular Involvement El-Asrag, M.E., Sergouniotis, P.I., McKibbin, M., Plagnol, V., Sheridan, E., Waseem, N., Abdelhamed, Z., McKeefry, Declan J., Van Schil, K., Poulter, J.A., UK Inherited Retinal Disease Consortium, Johnson, C.A., Carr, I.M., Leroy, B.P., Baere, E. de, Inglehearn, C.F., Webster, A.R., Toomes, C.l., Ali, M. 14 May 2015 (has links) No / Retinal dystrophies are an overlapping group of genetically heterogeneous conditions resulting from mutations in more than 250 genes. Here we describe five families affected by an adult-onset retinal dystrophy with early macular involvement and associated central visual loss in the third or fourth decade of life. Affected individuals were found to harbor disease-causing variants in DRAM2 (DNA-damage regulated autophagy modulator protein 2). Homozygosity mapping and exome sequencing in a large, consanguineous British family of Pakistani origin revealed a homozygous frameshift variant (c.140delG [p.Gly47Valfs∗3]) in nine affected family members. Sanger sequencing of DRAM2 in 322 unrelated probands with retinal dystrophy revealed one European subject with compound heterozygous DRAM2 changes (c.494G>A [p.Trp165∗] and c.131G>A [p.Ser44Asn]). Inspection of previously generated exome sequencing data in unsolved retinal dystrophy cases identified a homozygous variant in an individual of Indian origin (c.64_66del [p.Ala22del]). Independently, a gene-based case-control association study was conducted via an exome sequencing dataset of 18 phenotypically similar case subjects and 1,917 control subjects. Using a recessive model and a binomial test for rare, presumed biallelic, variants, we found DRAM2 to be the most statistically enriched gene; one subject was a homozygote (c.362A>T [p.His121Leu]) and another a compound heterozygote (c.79T>C [p.Tyr27His] and c.217_225del [p.Val73_Tyr75del]). DRAM2 encodes a transmembrane lysosomal protein thought to play a role in the initiation of autophagy. Immunohistochemical analysis showed DRAM2 localization to photoreceptor inner segments and to the apical surface of retinal pigment epithelial cells where it might be involved in the process of photoreceptor renewal and recycling to preserve visual function. Retinal dystrophy Macular involvement Central visual loss Autophagy Regulator DRAM2 Biallelic mutations Adult base sequence Exome Genetics Great Britain Homozygote Humans Immunohistochemistry Macular degeneration Pathology Membrane proteins Molecular sequence data mutation Pakistan Ethnology Retinal dystrophies Sequence Aaalysis DNA
623	Single molecule studies of F1-ATPase and the application of external torque Bilyard, Thomas January 2009 (has links) F<sub>1</sub>-ATPase, the sector of ATP synthase where the synthesis of cellular ATP occurs, is a rotary molecular motor in its own right. Driven by ATP hydrolysis, direct observation of the rotation of the central axis within single molecules of F<sub>1</sub> is possible. Operating at close to 100% efficiency, F<sub>1</sub> from thermophilic Bacillus has been shown to produce ~40pN&dot;nm of torque during rotation. This thesis details the groundwork required for the direct measurement of the torque produced by F<sub>1</sub> using a rotary angle clamp, an optical trapping system specifically designed for application to rotary molecular motors. Proof-of-concept experiments will be presented thereby demonstrating the ability to directly manipulate single F<sub>1</sub> molecules from Escherichia coli and yeast mitochondria (Saccharomyces cerevisiae), along with activation of F<sub>1</sub> out of its inhibited state by the application of external torque. Despite in-depth knowledge of the rotary mechanism of F<sub>1</sub> from thermophilic Bacillus, the rotation of F<sub>1</sub> from Escherichia coli is relatively poorly understood. A detailed mechanical characterization of E.coli F<sub>1</sub> will be presented here, with particular attention to the ground states within the catalytic cycle, notably the ATP-binding state, the catalytic state and the inhibited state. The fundamental mechanism of E.coli F<sub>1</sub> appears to depart little from that of F<sub>1</sub> from thermophilic Bacillus, although, at room temperature, chemical processes occur faster within the E.coli enzyme, in line with considerations regarding the physiological conditions of the different species. Also presented here is the verification of the rotary nature of yeast mitochondrial F<sub>1</sub>. The torque produced by F<sub>1</sub> from thermophilic Bacillus, E.coli and yeast mitochondria is the same, within experimental error, despite their diverse evolutionary and environmental origins. 579
624	Imaging the assembly of the Staphylococcal pore-forming toxin alpha-Hemolysin Thompson, James Russell January 2009 (has links) Alpha-hemolysin is a pore-forming toxin secreted by pathogenic Staphylococcus aureus. Its spontaneous oligomerization and assembly into a trans-bilayer beta-barrel pore is a model for the assembly of many other pore-forming toxins. It is studied here in vitro as a means to probe general membrane protein oligomerization and lipid bilayer insertion. This thesis details the results of experiments to develop and implement a novel in vitro lipid bilayer system, Droplet-on-Hydrogel Bilayers (DHBs) for the single-molecule imaging of alpha-hemolysin assembly. Chapter 2 describes the development of DHBs and their electrical characterization. Experiments show the detection of membrane channels in SDS-PAGE gels post-electrophoresis and DHBs use as a platform for nanopore stochastic sensing. Chapter 3 describes the engineering and characterization of fluorescently-labelled monomeric alpha-hemolysin for use in protein assembly imaging experiments described in Chapter 6. Chapter 4 describes the characterization of DHB lipid fluidity and suitability for single-molecule studies of membrane protein diffusion. In addition, a novel single-particle tracking algorithm is described. Chapter 5 describes experiments demonstrating simultaneous electrical and fluorescence measurements of alpha-hemolysin pores embedded within DHBs. The first multiple-pore stochastic sensing in a single-lipid bilayer is also described. Chapter 6 describes experiments studying the assembly of alpha-hemolysin monomers in DHBs. Results show that alpha-hemolysin assembles rapidly into its oligomeric state, with no detection of long-lived intermediate states. 572
625	Étude structure/fonction des cotransporteurs Na+/glucose Sasseville, Louis 06 1900 (has links) Cette thèse porte sur l’étude de la relation entre la structure et la fonction chez les cotransporteurs Na+/glucose (SGLTs). Les SGLTs sont des protéines membranaires qui se servent du gradient électrochimique transmembranaire du Na+ afin d’accumuler leurs substrats dans la cellule. Une mise en contexte présentera d’abord un bref résumé des connaissances actuelles dans le domaine, suivi par un survol des différentes techniques expérimentales utilisées dans le cadre de mes travaux. Ces travaux peuvent être divisés en trois projets. Un premier projet a porté sur les bases structurelles de la perméation de l’eau au travers des SGLTs. En utilisant à la fois des techniques de modélisation moléculaire, mais aussi la volumétrie en voltage imposé, nous avons identifié les bases structurelles de cette perméation. Ainsi, nous avons pu identifier in silico la présence d’une voie de perméation passive à l’eau traversant le cotransporteur, pour ensuite corroborer ces résultats à l’aide de mesures faites sur le cotransporteur Na/glucose humain (hSGLT1) exprimé dans les ovocytes. Un second projet a permis d’élucider certaines caractéristiques structurelles de hSGLT1 de par l’utilisation de la dipicrylamine (DPA), un accepteur de fluorescence dont la répartition dans la membrane lipidique dépend du potentiel membranaire. L’utilisation de la DPA, conjuguée aux techniques de fluorescence en voltage imposé et de FRET (fluorescence resonance energy transfer), a permis de démontrer la position extracellulaire d’une partie de la boucle 12-13 et le fait que hSGLT1 forme des dimères dont les sous-unités sont unies par un pont disulfure. Un dernier projet a eu pour but de caractériser les courants stationnaires et pré-stationaires d’un membre de la famille des SGLTs, soit le cotransporteur Na+/myo-inositol humain hSMIT2 afin de proposer un modèle cinétique qui décrit son fonctionnement. Nous avons démontré que la phlorizine inhibe mal les courants préstationnaires suite à une dépolarisation, et la présence de courants de fuite qui varient en fonction du temps, du potentiel membranaire et des substrats. Un algorithme de recuit simulé a été mis au point afin de permettre la détermination objective de la connectivité et des différents paramètres associés à la modélisation cinétique. / This thesis is about the structure/function relationship in Na+/glucose cotransporters (SGLTs). SGLTs are membrane proteins which use the Na+ transmembrane electrochemical gradient to accumulate their substrates within the cell. As an introduction, a short review of the current state of the field will be followed by a presentation of the different technics used in this work. This work can be divided in three main projects. In the first project, we investigated the structural basis of water permeation through SGLTs. By using molecular modeling technics, we have identified, in silico, a passive permeation pathway used by water to go through the cotransporter across the membrane. Using voltage-clamp volumetric measurement, we were able to corroborate these findings for hSGLT1 expressed in oocytes. A second project allowed elucidation of some of hSGLT1 structural characteristics through the use of dipicrylamine (DPA), a fluorescence acceptor whose repartition in the lipid membrane is voltage-dependant. Use of DPA concomitantly with voltage-clamp fluorescence and FRET (fluorescence resonance energy transfer) has clearly demonstrated the extracellular localisation of part of the 12-13 loop which was previously assumed to be intracellular. In addition, we have shown that hSGLT1 forms a dimeric structure where the subunits are linked by a disulfide bridge. A last project aimed at characterizing the steady-state and pre-steadystate currents of a member of the SGLT family named hSMIT2 (human Na/myo-inositol transporter 2). We showed that phlorizin is a poor inhibitor of pre-steady state currents following depolarisation, and the presence of a time, membrane potential and substrate dependent leak current. A simulated annealing algorithm was developed in order to allow objective determination of both the connectivity and the parameters associated with the optimal kinetic model. Biophysique Protéines membranaires Cotransporteurs Na+/glucose (SGLTs) Famille structurelle de LeuT Électrophysiologie Spectroscopie de fluorescence Modélisation moléculaire Modélisation cinétique Ovocytes de xénopes Biophysics Membrane proteins Na+/glucose transporters (SGLTs) LeuT structural family Electrophysiology Fluorescence spectroscopy Molecular modeling Kinetic modeling Xenopus laevis oocytes
626	Computational studies of protein helix kinks Wilman, Henry R. January 2014 (has links) Kinks are functionally important structural features found in the alpha-helices of many proteins, particularly membrane proteins. Structurally, they are points at which a helix abruptly changes direction. Previous kink definition and identification methods often disagree with one another. Here I describe three novel methods to characterise kinks, which improve on existing approaches. First, Kink Finder, a computational method that consistently locates kinks and estimates the error in the kink angle. Second the B statistic, a statistically robust method for identifying kinks. Third, Alpha Helices Assessed by Humans, a crowdsourcing approach that provided a gold-standard data set on which to train and compare existing kink identification methods. In this thesis, I show that kinks are a feature of long -helices in both soluble and membrane proteins, rather than just transmembrane -helices. Characteristics of kinks in the two types of proteins are similar, with Proline being the dominant feature in both types of protein. In soluble proteins, kinked helices also have a clear structural preference in that they typically point into the solvent. I also explored the conservation of kinks in homologous proteins. I found examples of conserved and non-conserved kinks in both the helix pairs and the helix families. Helix pairs with non-conserved kinks generally have less similar sequences than helix pairs with conserved kinks. I identified helix families that show highly conserved kinks, and families that contain non-conserved kinks, suggesting that some kinks may be flexible points in protein structures. 572
627	Functional characterization of the teleost multiple tissue (tmt) opsin family and their role in light detection Fu, Josephine K. Y. January 2013 (has links) In addition to a central circadian clock in the suprachiasmatic nucleus (SCN), zebrafish (Danio rerio) have local clock systems in their peripheral tissues. These peripheral tissues express a complement of clock genes that can be synchronized with the 24 h light/dark cycle and thus may be entrained by light. To date, teleost multiple tissue (tmt) opsin identified from Fugu rubripes and Danio rerio is the only opsin that has been proposed as a candidate to mediate this cellular photoentrainment (Moutsaki et al., 2003). Here we report the discovery of a multigene family of tmt opsins found not only in the teleost fishes, but in vertebrates,including amphibians, birds, reptiles, and some mammals. Phylogenetic analysis demonstrated that this gene family consists of three main classes, tmtI, tmtII and tmtIII, with each duplicating further to give two paralogues in the zebrafish genome. Their predicted amino acid sequences contain most of the characteristic features for the function of a photopigment opsin, as well as seven transmembrane segments indicative of a G protein coupled receptor (GPCR) superfamily. Significantly, reverse transcription polymerase chain reaction (RT-PCR) reveals that the tmt opsin genes in zebrafish are both temporally and spatially regulated. To investigate if these tmt photopigments mediate light-activated currents in cells, each opsin was expressed in vitro and the responses characterised by calcium imaging, whole-cell patch clamp electrophysiology, UV-Vis spectrophotometric analysis, and bioluminescence reporter assay. Collectively, these data suggest that some of the opsin photoproteins signal via Gi-type G protein pathway. Interestingly, the spectral analysis obtained shows that most tmt opsins tested are UV-sensitive when reconstituted in vitro with 11-cis and all-trans retinal, indicating an intrinsic bistable dynamics. Using site directed mutagenesis on one of the tmt opsins, tmt10, the potential spectral tuning sites involved in UV detection were tested. As part of this study, tmt opsin cDNAs were isolated from three populations of Mexican tetra (Astyanax mexicanus): surface, Pachon and Steinhardt. This allowed for a direct comparison between the tmt opsins present in the dark adapted species (cavefish) versus those of the light adapted species (zebrafish). It is hoped that the findings from this project will contribute to our understanding of non-visual light detection in fish and the evolution of their non-image forming photoreception. 573.8
628	Structural studies of Norrin dependent Wnt/beta-catenin signaling Chang, Tao-Hsin January 2014 (has links) Norrin is a secreted cystine-knot growth factor that plays critical roles in vascular development in the brain, retina, and cochlea, as well as the uterus. Although Norrin is unrelated to the lipid-modified morphogens Wnts, Norrin activates the canonical Wnt/β-catenin pathway by binding to receptor Frizzled4 cysteine-rich domain (Fz4-CRD) and co-receptors of low density lipoprotein receptor related protein 5/6 ectodomain (Lrp5/6-ECD) in conjunction with Tetraspanin-12 (Tspan-12). Like Wnts, Norrin has limited extracellular diffusion properties as a result of associating with heparan sulfate proteoglycans (HSPGs). Mutations lead to inherited disordered retinal vascularization diseases such as Norrie disease, familial exudative vitreoretinopathy and coats' disease. However, the molecular mechanism of how Norrin initiates signalling by engagement with Fz4, Lrp5/6, and HSPGs has remained unresolved. Here, novel strategies for protein production of recombinant human Norrin and Fz4-CRD as well as the complex are developed. The crystal structures of Norrin and its complex with Fz4-CRD, plus complex bound with the heparin mimic sucrose octasulphate, and unliganded structures of Fz4-CRD are presented. These structural data together with biophysical and cellular assays not only reveal the Fz4 and Lrp5/6 binding sites on distinct patches of the Norrin surface, but also indicate the HSPGs binding site on Norrin and Fz4-CRD as well as providing a framework to explain numerous disease-related mutations. Structural comparison with Xenopus Wnt8 in complex with mouse Fz8-CRD provides molecular insights for our understanding of ligand-receptor binding specificity and promiscuity, which has important implications for developing therapeutic strategies against Norrin dependent retinal disorders, and cancers caused by abnormal Wnt signaling. 572
629	Charakterisierung des Proteoms von Ralstonia eutropha H16 unter lithoautotrophen und anaeroben Bedingungen Kohlmann, Yvonne 18 June 2015 (has links) Das Biopolymer-produzierende Knallgasbakterium Ralstonia eutropha H16 gilt mit seinem außergewöhnlichen Stoffwechsel als vielversprechender Produktionsstamm für die weiße Biotechnologie. Es wächst auf einer Vielzahl organischer Substrate sowie chemolithoautotroph mit H2 und CO2 als einzige Energie- bzw. Kohlenstoffquelle. Unter anaeroben Bedingungen ist es zudem zur Denitrifikation befähigt. In dieser Arbeit wurde das Proteinprofil von R. eutropha unter chemolithoautotrophen sowie anaeroben Bedingungen mittels GeLC-MS/MS untersucht. Beide Proteomstudien offenbarten, dass die Nutzung unterschiedlicher Elektronendonoren bzw. -akzeptoren mit zahlreichen Veränderungen im Proteinbestand der Zellen einherging. Hierbei waren neben Proteinen metabolischer und Transportprozesse auch jene der Zellbewegung betroffen. Die Ergebnisse stellen im Vergleich zu vorangegangenen Studien den bisher umfassendsten Überblick zum Proteinbestand beim H2-basierten sowie anaeroben Wachstum in R. eutropha dar. Von besonderer Bedeutung war dabei das Einbinden der Analyse der Membran als Ort wichtiger Energie- und Transportprozesse. Besonderes Interesse galt einem unter H2/CO2-Bedingungen abundanten Zweikomponentensystem. Sequenzvergleiche zeigten Ähnlichkeit zum Regulationssystem der Katabolitrepression des Biphenylabbaus in Acidovorax sp. KKS102. Die Deletion des Response-Regulator-Gens führte zu vielfältigen Wachstumseffekten auf Substraten wie Fructose, Glycerin sowie auf H2/CO2. Der pleiotrope Phänotyp sowie die Ergebnisse von Genexpressionsstudien und der Suche nach Regulator-Bindestellen lassen eine globale Rolle des Systems im Energie- und/oder Kohlenstoffmetabolismus von R. eutropha H16 annehmen. Histidin-Kinase und Response Regulator wurden in GloS bzw. GloR umbenannt. Die vorliegende Arbeit zeigt eindrucksvoll das Potential der Proteomik als Teil der funktionellen Genomik für den Anstoß neuer Forschungsansätze zur Evaluierung des biotechnologischen Potentials von Mikroorganismen. / Due to its remarkable metabolism the bioplastic-producing “Knallgas” bacterium Ralstonia eutropha H16 is ranked as a promising production strain for white biotechnology. It grows on a wide range of organic substrates as well as lithoautotrophically on H2 and CO2 as sole energy and carbon source, respectively. Under anaerobic conditions it thrives by denitrification. This thesis focused on characterizing the protein profiles of lithoautotrophically and anaerobically grown R. eutropha cells. Proteome analyses revealed an extensive protein repertoire adapting the organism to alternative electron donors and acceptors, respectively. Changes concerned proteins involved in metabolic and transport processes as well as in cell movement. Compared to previous studies the results reported here offer the most comprehensive proteomic survey regarding the H2-based as well as anaerobic lifestyle of R. eutropha so far. In this context analyzing the cell membrane as a place for a number of energy, transport and signal transduction processes was of particular importance. Special interest aroused the identification of a two-component system upregulated on H2/CO2. Sequence analysis offered high similarity to the regulatory system for catabolite control of biphenyl degradation in Acidovorax sp. KKS102. Deletion of the response regulator gene led to versatile growth effects on substrates such as fructose and glycerol as well as H2/CO2. This pleiotrophic phenotype as well as the results of gene expression studies and the search for regulator binding sites suggests that the two-component system is a global player in energy and/or carbon metabolism in R. eutropha and possibly other bacteria. Thus, histidine kinase and response regulator have been renamed GloS/R. Since their characterization was initiated by proteomic data this study impressively elucidates the power of functional genomics in terms of revealing new research approaches to evaluate the biotechnological use of microbes. Mikrobiologie Chemotaxis Hydrogenase anaerob 15N-metabolische Markierung Chemolithoautotrophie Denitrifikation GloS GloR Hochdurchsatz-Proteomik Katabolitenkontrolle Membranproteine PHB Ralstonia eutropha H16 spectral counting Terminale Oxidasen Zwei-Komponentensystem chemotaxis anaerobic 15N metabolic labeling catabolite control chemolithoautotrophy denitrification GloS GloR hydrogenase membrane proteins microbiology PHB Ralstonia eutropha H16 shotgun proteomics spectral counting terminal oxidases two-component regulatory system 570 Biowissenschaften, Biologie 32 Biologie WF 5500 ddc:570
630	Análise molecular do gene da conexina 26 em pacientes com deficiênica auditiva sensorioneural não-sindrômica Piatto, Vânia Belintani 28 November 2003 (has links) Made available in DSpace on 2016-01-26T12:51:55Z (GMT). No. of bitstreams: 1 vaniapiatto_tese.pdf: 1479841 bytes, checksum: 96e04c84851d635167398b1a4196d2fe (MD5) Previous issue date: 2003-11-28 / Mutações no gene que codifica a proteína conexina 26 têm contribuído para a maioria das deficiências auditivas pré-lingual, sensorioneural não-sindrômicas recessivas. Uma mutação específica, a 35delG, é a mais freqüente das mutações detectadas no gene GJB2 nos vários grupos étnicos estudados. O objetivo foi determinar a prevalência de mutações no gene GJB2 em pacientes com deficiência auditiva sensorioneural não sindrômica, do Serviço de Otorrinolaringologia da FAMERP, em São José do Rio Preto, SP. Trinta e três casos-índice foram avaliados por exames fisico e complementares para excluir formas sindrômicas e causas ambientais da deficiência auditiva e, pela reação em cadeia da polimerase alelo-específico (AS-PCR) para a detecção da mutação 35delG. Os pacientes heterozigotos para a mutação 35delG e aqueles que não tiveram a mutação detectada foram submetidos, posteriormente, ao PCR para detecção da mutação A(GJB6-D 1381830) e ao sequenciamento automático direto para análise da região codificante do gene GJB2. A mutação 35delG foi detectada em 27,3% dos casos-índice (9/3 3) ou em 2 1,2% dos alelos (14/66). A mutação A(GJB6-DI3SI 830) foi encontrada em um (3,0%) caso-índice heterozigoto 35delG. O seqüenciamento direto nos casos-índice heterozigotos identificou um paciente (3,0%) com as mutações 35delG/V3 71. As mutações no gene GJB2 são responsáveis por mais de um quarto das deficiências auditivas sensorioneural não-sindrômica na população do estudo e, o teste PCR alelo-específico (AS-PCR) é um método fácil para rastreamento da mutação 35delG e os resultados positivos podem estabelecer o diagnóstico etiológico e aconselhamento genético nos pacientes afetados. Deficiência Auditiva Análise Molecular Conexina 26 Conexinas Surdez Mapeamento Cromossômico Proteínas de Membrana Biologia Molecular Perda Auditiva Neurossensorial Transtornos da Audição Variação (Genética) Conexinas Sordera Mapeo Cromosómico Proteínas de la Membrana Biología Molecular Pérdida Auditiva Sensorioneural Trastornos de la Audición Variación (Genetica) Connexins Deafness Chromosome Mapping Membrane Proteins Molecular Biology Sensorineural Hearing Loss Hearing Disorders Variation (Genetics) CNPQ::CIENCIAS DA SAUDE

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