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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
11

Roles of Sec5 in the Regulation of Dense-Core Vesicle Secretion in PC12 Cells

Jiang, Tiandan T. J. 03 January 2011 (has links)
The exocyst is thought to tether secretory vesicles to specific sites on the plasma membrane. As a member of the exocyst, Sec5 is implicated in cell survival and membrane growth in Drosophila. Little is known of the exocyst function in mammals, with previous work suggesting involvement of exocyst in GTP-dependent exocytosis. Using RNA interference, we stably down-regulated Sec5 in PC12 cells. We found that these knockdown cells exhibit decreased GTP- and Ca2+-dependent exocytosis of dense-core vesicles (DCVs), and contain less proportion of docked vesicles. Expression of Sec6/8 is also slightly reduced in Sec5 knockdown cells. Our results suggest that Sec5 is involved in both GTP- and Ca2+-dependent exocytosis, possibly through the regulation of DCV docking. We also established doxycycline-inducible knockdown system for Sec5 in PC12 cells which may be more appropriate to study development-related proteins. Efforts were also made to re-introduce Sec5 into the Sec5 knockdown cells for rescue purposes.
12

Dissection of RNA entry into RNAi using a novel protein-RNA tethering system

Cuerda-Gil, Diego January 2021 (has links)
No description available.
13

Une région intrinsèquement désordonnée dans OSBP contrôle la géometrie et la dynamique du site de contact membranaire / An intrinsically disordered region of OSBP controls membrane contact site geometry and dynamics

Jamecna, Denisa 12 December 2018 (has links)
La protéine OSBP est un transporteur de lipides qui régule la distribution cellulaire du cholestérol. OSBP comprend un domaine PH, deux séquences « coiled coil », un motif FFAT (deux phénylalanines dans un environement acide), et un domaine de liaison de lipides (ORD) à son extrémité C-terminale. Le domaine PH interagit avec le PI(4)P et la petite protéine G Arf1-GTP au niveau du Golgi, alors que le motif FFAT interagit avec la protéine VAP-A, résidente du réticulum endoplasmique (RE). En liant simultanément tous ces déterminants, OSBP stabilise des sites de contact membranaire entre RE et Golgi, permettant ainsi un contre-échange cholestérol / PI(4)P par l'ORD. OSBP contient également une longue séquence N-terminale d’environ 80 aa, intrinsèquement désordonnée, composée principalement de glycine, proline et d'alanine. Nous démontrons que la présence de ce N-terminus désordonné augmente le rayon de Stoke de OSBP tronquée du domaine ORD, et limite sa densité d’association sur la membrane portant le PI(4)P. La protéine dépourvue du N terminus favorise l'agrégation symétrique des liposomes PI(4)P (mimant la membrane du Golgi) par les deux domaines PH du dimère OSBP, alors que la présence de la séquence désordonnée empêche cette association symétrique. De même, nous observons que la distribution d’OSBP sur la membrane de vésicules unilamellaires géantes (GUV) varie selon la présence ou l'absence du N-terminus. En présence de la séquence désordonnée, la protéine est répartie de manière homogène sur toute la surface du GUV, alors que la protéine sans N-terminal a tendance à s'accumuler à l'interface entre deux GUV de type Golgi. Cette accumulation locale ralentit fortement la mobilité de la protéine à l’interface. Un effet similaire du N-terminal sur la dynamique des protéines est observé lorsque l’association de membranes de type ER et Golgi est assuré par des protéines monomériques (dépourvue du coiled coil) en présence de Vap-A. Les résultats de nos expériences in vitro ont été confirmés en cellules vivantes, où la séquence intrinsèquement désordonnée contrôle le recrutement d’OSBP sur les membranes Golgiennes, sa mobilité et sa dynamique d’activité au cours des cycles de transfert de lipides. La plupart des protéines de la famille d’OSBP contiennent des séquences N-terminales de faible complexité, suggérant un mécanisme général de régulation. / Oxysterol binding protein (OSBP) is a lipid transfer protein that regulates cholesterol distribution in cell membranes. OSBP consists of a pleckstrin homology (PH) domain, two coiled-coils, a “two phenylalanines in acidic tract” (FFAT) motif and a C-terminal lipid binding OSBP-Related Domain (ORD). The PH domain recognizes PI(4)P and small G protein Arf1-GTP at the Golgi, whereas the FFAT motif interacts with the ER-resident protein VAP-A. By binding all these determinants simultaneously, OSBP creates membrane contact sites between ER and Golgi, allowing the counter-transport of cholesterol and PI(4)P by the ORD. OSBP also contains an intrinsically disordered ~80 aa long N-terminal sequence, composed mostly of glycine, proline and alanine. We demonstrate that the presence of disordered N-terminus increases the Stoke’s radius of OSBP truncated proteins and limits their density and saturation level on PI(4)P-containing membrane. The N-terminus also prevents the two PH domains of OSBP dimer to symmetrically tether two PI(4)P-containing (Golgi-like) liposomes, whereas protein lacking the disordered sequence promotes symmetrical liposome aggregation. Similarly, we observe a difference in OSBP membrane distribution on tethered giant unilamellar vesicles (GUVs), based on the presence/absence of N-terminus. Protein with disordered sequence is homogeneously distributed all over the GUV surface, whereas protein without N-terminus tends to accumulate at the interface between two PI(4)P-containing GUVs. This protein accumulation leads to local overcrowding, which is reflected by slow in-plane diffusion. The effect of N-terminus is also manifested in monomeric OSBPderived proteins that tether ER-like and Golgi-like membranes in the presence of VAP-A. Findings from our in vitro experiments are confirmed in living cells, where N-terminus controls the recruitment of OSBP on Golgi membranes, its motility and the on-and-off dynamics during lipid transfer cycles. Most OSBP-related proteins contain low complexity N-terminal sequences, suggesting a general effect.
14

Etude du trafic membranaire vésiculaire et non-vésiculaire chez la levure / Study of the vesicular and non-vesicular membrane traffic to the yeast

Jemaiel, Aymen 16 December 2013 (has links)
Les cellules eucaryotes sont caractérisées par le cloisonnement des organelles par des membranes. La communication entre les différents compartiments cellulaires est assurée par deux voies de transport : le transport vésiculaire et transport non-vésiculaire. Le transport vésiculaire permet à la fois le trafic des protéines et des lipides d'un compartiment à un autre, alors que le transport non-vésiculaire permet uniquement le trafic des lipides. En effet, les lipides jouent un rôle essentiel dans l'organisation cellulaire. Au cours de ma thèse, je me suis intéressé au rôle des lipides dans le trafic intracellulaire, en utilisant la levure comme organisme modèle. Dans une première partie de ma thèse, j'ai étudié les hélices amphipathiques qui permettent le ciblage des protéines vers des compartiments cellulaires spécifiques. Dans une étude précédente, réalisé au laboratoire a montré que ces hélices amphipathiques interagissaient directement avec les lipides membranaires, ce qui permet un adressage spécifique des protéines en fonction des environnements lipidiques dans la cellule. Deux hélices amphipatiques ont fait l’objet de cette étude : le motif ALPS qui cible les vésicules de la voie sécrétoire précoce, et alpha-synucléine qui reconnaît et fixe les vésicules du compartiment trans-Golgi-membrane plasmique. Dans cette première partie de la thèse j’ai cherché à identifier des motifs similaires à celui d’alpha-synucléine dans les protéines de levure, et de déterminer leurs rôles dans la cellule. Dans une seconde partie de ma thèse, en collaboration avec le laboratoire du Dr Thierry Galli, j'ai étudié de nouveaux composants impliqués dans le métabolisme lipidique aux sites de contact entre le réticulum endoplasmique et la membrane plasmique. Les sites de contact membranaires sont des régions de proches appositions (de l'ordre de 10 à 30 nm) entre deux membranes, généralement entre la membrane du réticulum endoplasmique (RE) et une autre organelle. Ce sont principalement des sites de transfert des lipides et d'ions. Maja Petkovic dans le laboratoire de Thierry Galli a fait la découverte que la protéine SNARE du RE, Sec22, interagit avec une syntaxine (Stx1) de la membrane plasmique dans les neurones, ce qui permet un nouveau mécanisme de contact entre ces deux membranes. J’ai donc essayé de voir si ce mécanisme est conservé chez la levure. Les résultats que j'ai obtenus ont confirmé que la levure Sec22 est capable d'interagir avec une protéine SNARE SSO1 localisée à la membrane plasmatique et homologue de Stx1. J'ai trouvé par co-immunoprecipitation que Sec22 et SSO1 deux interagissent avec les protéines de transfert des lipides localisées aux sites de contact. L'utilisation d'une sonde spécifique au Phosphatidylinositol-4 phosphate (PI4P), nous a permis de montrer que Sec22 est impliquée dans la régulation du niveau de PI4P à la membrane plasmique. Pour disséquer les deux fonctions de Sec22, dans la voie sécrétoire et aux sites de contact, nous avons utilisé l'approche des suppresseurs multicopies dans la levure. Parmi les suppresseurs identifiés, nous avons trouvé le Sfh1, une protéine qui a un rôle potentiel dans le transfert des lipides. Ces résultats confirment bien ceux obtenus par l’équipe de Thierry Galli, montrant que Sec22 a un nouveau rôle aux sites de contact entre le RE et la membrane plasmique et suggèrent que ce complexe SNARE pourrait être impliqué dans transfert de lipides chez la levure. / Eukaryotic cells are characterized by their internal membrane compartmentalization, with the various specialized organelles of the cell bounded by lipid membranes. Communication between different cellular compartments occurs via two transport pathways: vesicular transport and non-vesicular transport. Vesicular transport carries both proteins and lipids from one compartment to another in cells, whereas non-vesicular transport carries only lipids. An emerging idea is the important role that lipids play in cellular organization. Lipid binding amphipathic helices such as the ALPS (amphipathic lipid packing sensor) motif are targeted to membranes of a specific lipid composition, and hence act to transfer information encoded in membrane lipids to the vesicle trafficking machinery. The lipid composition of the membranes of different organelles is therefore of great importance. One mechanism that cells use to maintain the distinct lipid compositions of organelles is lipid transport, which occurs preferentially at membrane contact sites (MCS). MCS are regions of close appositions, on the order of 10 to 30 nm, between two membranes, generally between the membrane of the endoplasmic reticulum (ER) and another organelle. In my thesis, I addressed two aspects of how lipids and their transport function in intracellular trafficking, using yeast as a model system. First, I studied amphipathic motifs that mediate targeting of proteins to specific compartments in cells. Lipid binding amphipathic helices were shown in a previous study in the laboratory to mediate specific targeting to distinct lipid environments via direct protein-lipid interactions, both in vitro and in cells. One of these, the ALPS motif, targets vesicles of the early secretory pathway. The other, alpha-synuclein, targets vesicles travelling between the late Golgi, the plasma membrane and endosomes. I studied new potential alpha-synuclein-like motifs in yeast proteins, and their roles in cells. In a second project, in collaboration with the laboratory of Dr. Thierry Galli, I studied new compenents involved in lipid metabolism at contact sites between the endoplasmic reticulum and the plasma membrane. Maja Petkovic in the laboratory of Thierry Galli made the important discovery that the ER-localized SNARE protein Sec22 interacts with a plasma membrane syntaxin in neurons, thus providing a novel mechanism for mediating close contact between these two membranes. I addressed the question of whether this mechanism is conserved in yeast. The results I obtained confirmed that yeast Sec22 is able to interact with a SNARE protein localized to the plasma membrane, Sso1. I found by co-immunoprecitation that Sec22 and Sso1 both interact with lipid transfer proteins localized to ER-plasma membrane contact sites. Using a specific probe for phosphatidylinositol-4 phosphate (PI4P), we showed that Sec22 was involved in regulating the level of PI4P at the plasma membrane. These results extend to yeast those obtained by Maja Petkovic, Thierry Galli and colleauges showing that Sec22 has a novel role at ER-plasma membrane contact sites, and suggest that this SNARE complex might be implicated in lipid transfer at these sites in yeast.
15

Charakterizace podjednotky SEC15 poutacího komplexu exocyst u A. thaliana / Characterization of the exocyst complex SEC15 subunit in A. thaliana

Aldorfová, Klára January 2016 (has links)
The final step of secretion termed exocytosis is mediated by the exocyst complex. The exocyst is an evolutionary conserved protein complex that tethers secretory vesicle to the target membrane and consists of eight subunits: Sec3, Sec5, Sec6, Sec8, Sec10, Sec15, Exo84, and Exo70. Sec15 exocyst subunit was previously shown to connect the rest of the exocyst complex with a secretory vesicle in yeast, mammals and fruit fly via interaction with Rab GTPase and GEF of Rab GTPase. Here, I show that plant SEC15B potentially functions in evolutionary conserved manner. First, two mutant lines of Arabidopsis thaliana sec15b mutant were tested in characteristics typical for other exocyst mutants. Although some characteristics reach certain level of plasticity, both sec15b-1 and sec15b-2 show similar tendencies, which are mostly consistent with defects with other mutants in exocyst subunits. sec15b-1 has been determined as a stronger allele that is defective in formation of seed coat, elongation of etiolated hypocotyl, growth of stem and primary root, establishment of axillary branches and lateral roots, diameter of rosette and, unexpectedly, growth of pollen tubes. Phenotype of sec15b-1 was rescued by insertion of SEC15B gene under SEC15B promotor. Second, complementation test showed that SEC15B and SEC15A are...
16

Úloha vybraných podjednotek komplexu exocyst v odpovědi rostlin na patogena / The Role of selected exocyst subunits in response of plants to pathogen

Sabol, Peter January 2018 (has links)
In the recent years, there has been a growing number of publications indicating at the involvement of plant secretory pathway in defense against phytopathogens. Specifically, roles of plant exocyst complex have been explored in deeper detail in current research. Yet, exactly how exocyst- mediated exocytosis contributes to secretion of antimicrobials and cell wall-based defense remains unclear. In the presented Dissertation, I provide both experimental evidence and devise further hypotheses on selected exocyst's subunits in plant immune reactions. Particularly, I show that EXO70B1 exocyst subunit interacts with immunity-related RIN4 protein. Cleavage of RIN4 by AvrRpt2 Pseudomonas syringae effector protease releases both RIN4 fragments and EXO70B1 from the plasma membrane when transiently expressed in Nicotiana benthamiana leaves. I speculate on how this might have an implication in regulation of polarized callose deposition. In a co-authored opinion paper, we also hypothesize that EXO70B1-mediated autophagic degradation of TN2 resistance protein prevents its hyperactivation and lesion mimic phenotype development. In addition, in collaboration with my colleagues, I present data on EXO70H4's engagement in PMR4 callose synthase secretion, required for silica deposition. Representing a possible...
17

Structural and functional analysis of the HOPS tethering complex at the yeast vacuole

Bröcker, Cornelia 16 August 2012 (has links)
The fusion of yeast vacuoles requires a Rab-GTPase (Ypt7), a tethering complex termed HOPS (homotypic fusion and vacuole protein sorting) and SNAREs. The HOPS complex consists of six subunits and is involved in the initial contact between late endosome (multi vesicular body) and the vacuole. The homologous CORVET complex shares four subunits with the HOPS complex and is required at the endosome. Upon overexpression, I was able to isolate the entire HOPS and stable subcomplexes consisting of two to six subunits. These subcomplexes might represent the core for the assembly, or may be transition intermediates. They could arise when the CORVET complex at the endosome matures into the HOPS complex at the vacuole. Using a structure-function approach, I analysed the HOPS structure via electron microscopy and its function via vacuole fusion assay.
18

Organic/inorganic hybrid amine and sulfonic acid tethered silica materials: synthesis, characterization and application

Hicks, Jason Christopher 22 August 2007 (has links)
The major goals of this thesis were to: (1) create a site-isolated aminosilica material with higher amine loadings than previously reported isolation methods, (2) use spectroscopic, reactivity, and catalytic (olefin polymerization precatalysts) probes to determine isolation of amine groups on these organic/inorganic hybrid materials, (3) synthesize an organic/inorganic hybrid material capable of activating Group 4 olefin polymerization precatalysts, and (4) synthesize a high amine loaded organic/inorganic hybrid material capable of reversibly capturing CO2 in a simulated flue gas stream. The underlying motivation of this research involved the synthesis and design of novel amine and sulfonic acid materials. Traditional routes to synthesize aminosilicas have led to the formation of a high loading of multiple types of amine sites on the silica surface. Part of this research involved the creation of a new aminosilica material via a protection/deprotection method designed to prevent multiple sites, while maintaining a relatively high loading. As a characterization technique, fluorescence spectroscopy of pyrene-based fluorophores loaded on traditional aminosilicas and site-isolated aminosilicas was used to probe the degree of site-isolation obtained with these methods. Also, this protection/deprotection method was compared to other reported isolation techniques with heterogeneous Group 4 constrained-geometry inspired catalysts (CGCs). It was determined that the degree of separation of the amine sites could be controlled with protection/deprotection methods. Furthermore, an increase in the reactivity of the amines and the catalytic activity of CGCs built off of the amines was determined for aminosilicas synthesized by a protection/deprotection method. The second part of this work involved developing organic/inorganic hybrid materials as heterogeneous Brønsted acidic cocatalysts for activation of olefin polymerization precatalysts. This was the first reported organic/inorganic hybrid sulfonic acid functionalized silica material capable of activating metallocenes for the polymerization of ethylene when small amounts of an alkylaluminum was added. Lastly, an organic/inorganic hybrid hyperbranched aminosilica material capable of capturing carbon dioxide from flue gas streams was synthesized. This material was determined to capture CO2 with capacities higher than currently reported aminosilica adsorbents.
19

Total syntheses of (3S, 18S, 4E, 16E)-eicosa-1,19-diyne-3,18-diol, (+)-Duryne, (+)-Dideoxypetrosynol A, cicutoxin and attempts toward the total synthesis of Petrosynol polyacetylenic potent anticancer natural products /

Omollo, Ann Ondera. January 2008 (has links)
Thesis (Ph, D.)--Miami University, Dept. of Chemistry and Biochemistry, 2008. / Title from second page of PDF document. Includes bibliographical references (p. 77-83).
20

FUNKČNÍ ANALÝZA VYBRANÝCH PODJEDNOTEK EXOCYSTU EXO70 U ROSTLIN / FUNCTIONAL ANAYSIS OF SELECTED EXO70 EXOCYST SUBUNITS IN PLANTS

Kubátová, Zdeňka January 2020 (has links)
Arabidopsis thaliana trichomes are large unicellular epidermal outgrowths with a specific development and intriguing shape, which makes them an excellent cell type for our research of cell polarization mecha- nisms. Cell polarity is essential for plant development and the exocyst complex is one of its key regulators. It is an octameric protein complex that mediates polarized exocytosis and growth by targeted tethering of secretory vesicles to the plasma membrane. Its EXO70 subunit functions as a landmark for exocytosis site and physically binds the target membrane through interaction with phospholipids. A remarkable multipli- cation of EXO70 subunit paralogs in land plant genomes is well documented, but the functional diversity of these paralogs remains to be described. In trichomes we revealed the specific role of the EXO70H4 paralog in secondary cell wall deposi- tion, especially in callose synthase delivery. We documented formation of a thick secondary cell wall during the maturation phase of wild type trichome development and a lack of it in the exo70H4 mutant. Moreover, we showed evidence for silica deposition dependency on callose synthesis. Further, we unveiled the formation of apical and basal plasma membrane domains, which differ in their phospholipid compo- sition and ability to bind...

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