Global ETD Search

21	Three-dimensional ultrastructural analysis of coronavirus and alphavirus rearrangements of host cell organelle membranes Elaine M. Mihelc (5930042) 25 June 2020 (has links) Single-stranded positive-sense RNA viruses commonly rearrange host cell organelle membranes into neo-organelles which are involved in virus replication and assembly. These organelles serve to concentrate viral and host factors as well as to conceal viral RNA replication activities from host cell surveillance. To date, many virus-induced membrane rearrangements have been studied by targeted electron tomographic (ET) imaging of specific viral structures at timepoints of known interest. However, the broad cellular context within which these membrane modifications occur and how they change over time are not well understood. A question spanning many virus families is the morphological mechanism of formation of membrane rearrangements. Additionally, it is largely unknown how the membrane modifications affect the morphology of the organelle of origin. In this study, we address specific questions about virus-derived organelles induced by two positive-sense RNA viruses: the coronavirus mouse hepatitis virus (MHV) and the alphavirus Venezuelan equine encephalitis virus (VEEV). Utilizing serial sectioning and montage imaging for ET, volumes representing approximately 10% of virus-infected cells were imaged and detailed organelle analysis was performed. Using MHV-infected cells, we demonstrate that coronavirus-induced double-membrane vesicles (DMVs) are formed by budding from the endoplasmic reticulum (ER) and are trafficked to lysosomes for degradation. The ER remains largely morphologically normal early in infection despite the presence of hundreds of DMVs; however, late in infection, virus envelopment in the ER lumen leads to loss of cisternal morphology. For the alphavirus VEEV, we analyze the structure and origin of virus-derived cytopathic vacuoles II (CPVII). We identify four distinct morphological forms of CPVII and provide evidence that all four forms are derived from the Golgi apparatus. Additionally, a protocol is outlined for a newly-developed method for improved cell ultrastructure during genetically-encoded peroxidase tagging of membrane-proteins. This method is also amenable to ET. Overall, this work provides morphological cellular context for virus-induced membrane rearrangements from two families of positive-sense RNA viruses. Analysis of virus-host cell interactions from this large-scale ultrastructural perspective has the potential to lead to new approaches and strategies to combat current and future viral diseases.<br> Cell Biology Virology electron microscopy electron tomography coronavirus alphavirus endoplasmic reticulum Golgi double membrane vesicle cytopathic vacuole membrane rearrangement
22	A Novel Method for Finding Overlap Depth : Development of ArtiaX, a ChimeraX plugin Arctaedius, Gunnar January 2023 (has links) Visualization and image filtering are important parts of cryo-electron tomography analysis. ArtiaX, a plugin developed for UCSF ChimeraX, has been extended to improve the functionality of these two parts. For the visualization, a method of moving 3D surfaces to remove overlap between them has been developed and implemented. To accommodate this, a Monte Carlo approach using Poisson disc sampling for approximating volume of overlap between 3D surfaces is used, and a novel method for measuring overlap has been invented, called the Normal Projection Method, useful for measuring the depth of overlap between surfaces. For the image filtering, tomogram averaging and frequency filters have been added to the ArtiaX toolbox. / Visualisering och bildfiltrering är viktiga delar inom kryoelektrontomografianalys. ArtiaX, ett plugin utvecklat för UCSF ChimeraX, har utökats för att förbättra funktionaliteten inom dessa två områden. För visualiseringen har en metod för att flytta 3D ytor så att de inte överlappar utvecklats och implmenterats. För att skapa denna funktion används en Monte Carlo metod med Poisson disk sampling för att uppskatta volymen av 3D ytor, och normalprojektionsmetoden, en ny metod för att mäta överlappsdjup har skapts och implementerats. För att förbättra bildfiltreringen har tomogram-snittning och frekvensfilter lagts till bland verktygen i ArtiaX. Cryo-electron tomography image processing surface visualization overlap measurement normal projection method Kryoelektrontomografi bildbehandling ytvisualisering överlapsmätning normalprojektionsmetoden Computational Mathematics Beräkningsmatematik
23	Etude de l'assemblage du système d'efflux membranaire MexAB-OprM impliqué dans la résistance aux antibiotiques chez Pseudomonas aeruginosa : caractérisation combinée par Microbalance à cristal de quartz avec mesure de dissipation et cryo-tomographie électronique Trépout, Sylvain 08 December 2008 (has links) Pseudomonas aeruginosa est une bactérie Gram-négative qui présente une grande résistance aux antibiotiques, lui permettant de sévir dans le milieu hospitalier en infectant plus particulièrement les patients immunodéprimés. Cette résistance est principalement due au système d’efflux membranaire MexAB-OprM, capable d’exporter les antibiotiques en dehors de la cellule. Cette pompe à efflux est composée de trois protéines, MexA, MexB et OprM, incorporées dans les membranes internes et externes de la paroi bactérienne. Les structures de MexA, OprM et AcrB -une protéine présente chez E. coli, homologue de MexB- ont été déterminées individuellement par cristallographie des rayons X. Cependant, la structure du complexe entier, regroupant les trois protéines en interaction, ainsi que le mécanisme de cette pompe font toujours défaut. Le renforcement de nos connaissances structurales et fonctionnelles est donc capital pour lutter plus efficacement contre ces bactéries, par de nouvelles stratégies médicamenteuses. Ce travail porte sur l’étude de la structure et de la stœchiométrie de l’assemblage des protéines OprM et MexA au sein d’une membrane lipidique. La caractérisation du complexe OprM/MexA a été réalisée à l’aide de nouvelles techniques de caractérisation physico-chimique des surfaces, telle que la Microbalance à Cristal de Quartz avec Mesure de Dissipation (QCM-D), et par des méthodes d’imagerie, telles que la Cryo-Microscopie Electronique en Transmission (CryoMET) et la Cryo-Tomographie Electronique (CryoTE). En QCM-D, les mesures d’interaction entre OprM et MexA ont été réalisées sur support solide en contrôlant l’orientation d’OprM placée dans un environnement lipidique. Après ajout de la protéine MexA, la formation de complexes OprM/MexA a été mise évidence. Pour comprendre l’organisation de ce complexe, nous avons procédé à une étude comparative de l’organisation des protéines OprM, MexA et du complexe OprM/MexA incorporés dans une membrane lipidique, par CryoMET. Trois types d’organisation, respectivement spécifiques d’OprM, de MexA et du complexe OprM/MexA, ont été mis en évidence. Une analyse structurale de ces trois différents assemblages, pris en sandwich entre deux membranes lipidiques, a été menée par CryoTE. La reconstitution de la protéine OprM conduit à la formation de protéoliposomes, dû à des interactions intervenant entre les protéines OprM au niveau de leurs hélices périplasmiques. La protéine MexA s’organise sous forme d’une structure annulaire de 13 nm de hauteur au sein des membranes lipidiques, et d’une structure plus complexe de 26 nm de hauteur, résultant de l’empilement tête-bêche de deux structures annulaires de 13 nm. Ce travail révèle les dimensions exactes de l’assemblage formé par MexA, et permet de localiser à proximité des membranes les domaines non résolus dans la structure cristallographique. La reconstitution du complexe OprM/MexA révèle une disposition régulière des deux protéines dans les membranes lipidiques. Au sein des complexes, les protéines OprM sont présentes sous forme de trimères. Dans la membrane opposée, à l’aplomb d’une molécule d’OprM, MexA ne forme pas une structure annulaire similaire à celle décrite précédemment, indiquant un état d’oligomérisation différent de celui observé dans les assemblages MexA. Les densités de MexA sont compatibles avec la présence de quelques molécules de MexA. Cependant des structures annulaires de MexA, positionnées à l’aplomb de trois trimères d’OprM sont visibles. Notre étude montre que MexA adopte des structures oligomériques spécifiques en fonction de ses interactions avec les membranes lipidiques ou avec son partenaire OprM. / The structure determination of membrane protein in lipid environment can be carried out using cryo electron microscopy combined with the recent development of data collection and image processing. We describe a protocol to study assemblies or stacks of membrane protein reconstitued into a lipid membrane using both cryo electron tomography and single particle analysis which is an alternative approach to electron crystallography for solving 3D structure. We show the organization of the successive layers of OprM molecules revealing the protein-protein interactions between OprM molecules of two successive lipid bilayers. Microscopie Electronique Tomographie Electronique Pseudomonas aeruginosa Reconstitution membranaire Protéines membranaires Membrane protein Cryo electron tomography Single particle analysis Multidrug efflux pump
24	Electron tomography and microscopy on semiconductor heterostructures Niehle, Michael 27 September 2016 (has links) Elektronentomographie erlaubt die dreidimensionale (3D) Charakterisierung von Kristalldefekten auf der Nanometerskala. Die Anwendung in der Forschung an epitaktischen Halbleiterheterostrukturen ist bisher nicht durchgesetzt worden, obwohl kleiner werdende Bauteile mit zunehmend dreidimensionaler Struktur entsprechende Untersuchungen verlangen, um die Beziehung von Struktur und physikalischen Eigenschaften in entsprechenden Materialsystemen zu verstehen. Die vorliegende Arbeit demonstriert die konsequente Anwendung der Elektronentomographie auf eine III-Sb basierte Laser- und eine 3D (In,Ga)N/GaN Nanosäulenheterostruktur. Die unerlässliche Zielpräparation von Proben mittels FIB-SEM-Zweistrahlmikroskops wird herausgestellt. Die kontrollierte Orientierung der Probe während der Präparation und die sorfältige Auswahl eines Abbildungsverfahrens im STEM werden detailliert beschrieben. Die umfassende räumliche Mikrostrukturanalyse einer antimonidbasierten Schichtstruktur folgt der Dimensionalität von Kristalldefekten. Die Facettierung und Lage einer Pore (3D Defekt), deren Auftreten in der MBE gewachsenen GaSb-Schicht untypisch ist, werden bestimmt. Das Zusammenspiel von anfänglich abgeschiedenen AlSb-Inseln auf dem Si-Substrat, der Ausbildung eines Fehlversetzungsnetzwerkes an der Grenzfläche der Heterostruktur (2D Defekt) und dem Auftreten von Durchstoßversetzungen wird mit Hilfe der Kombination tomographischer und komplementärer TEM-/STEM-Ergebnisse untersucht. Die räumliche Anordnung von Versetzungen (1D Defekte), die das ganze Schichtsystem durchziehen, wird mit Elektronentomographie offenbart. Die Wechselwirkung dieser Versetzungen mit Antiphasengrenzen und anderen Liniendefekten sind ein einzigartiges Ergebnis der Elektronentomographie. Abschließend sind Unterschiede im Indiumgehalt und in der Schichtdicke von (In,Ga)N-Einschlüssen auf verschiedenen Facetten schief aufgewachsener GaN-Nanosäulen einmalig per Elektronentomographie herausgearbeitet worden. / Electron tomography exhibits a very poor spread in the research ﬁeld of epitaxial semiconductor heterostructures in spite of the ongoing miniaturization and increasing three-dimensional (3D) character of nano-structured devices. This necessitates a tomographic approach at the nanometre scale in order to characterize and understand the relation between structure and physical properties of respective material systems. The present work demonstrates the rigorous application of electron tomography to an III-Sb based laser and to an (In,Ga)N/GaN nanocolumn heterostructure. A specific target preparation using a versatile FIB-SEM dual-beam microscope is emphasized as indispensable. The purposeful orientation of the specimen during preparation and the careful selection of an imaging mode in the scanning-/transmission electron microscope (S/TEM) are regarded in great detail. The comprehensive spatial microstructure characterization of the antimonide based heterostructure follows the dimensionality of crystal defects. The facetting and position of a pore (3D defect) which is unexpected in the MBE grown GaSb layer, is determined. The interplay of the initially grown AlSb islands on Si, the formation of a misfit dislocation network at the heterostructure interface (2D defect) and the presence of threading dislocations is investigated by the correlation of tomographic and complementary S/TEM results. The spatial arrangement of dislocations (1D defects) penetrating the whole stack of antimonide layers is revealed by electron tomography. The interaction of these line defects with anti-phase boundaries and with other dislocations is exclusively observed in the 3D result. The insertion of (In,Ga)N into oblique GaN nanocolumns is uniquely accessed by electron tomography. The amount of incorporated indium and the (In,Ga)N layer thickness is shown to vary on the different facets of the GaN core. Elektronentomographie Halbleiterheterostruktur FIB Wechselwirkung von Kristalldefekten Mikrostruktur microstructure electron tomography semiconductor heterostructure focused ion beam crystal defect interaction 530 Physik 29 Physik, Astronomie UP 3150 ddc:530
25	Structural and Genetic Studies of Translation in <i>Escherichia coli</i> Zhao, Qing January 2005 (has links) <p>Ribosomes are the universal ribonucleoprotein organelles that translate the genetic message from mRNA to protein. In prokaryotes, the ribosomal subunits are 30S and 50S subunit, which bind together during the translation process forming 70S ribosome. The ribosome is a highly dynamic structure, and acts as a working platform for the different factors involved in the process of converting the genetic information into protein.</p><p>Cryo-electron tomography (cryo-ET) is an emerging imaging technology that combines the potential of three-dimensional (3D) reconstruction at molecular resolution with a close-to-native preservation of the specimen. Here, we have applied this method to reconstruct rifampicin-treated <i>Escherichia coli</i> individual 30S subunits in vitro and in situ, and individual 50S subunits in situ. In the 30S subunit, the head, the platform and the body show large conformational movements relative to each other. The particles are grouped into three conformational groups according to the width/height ratios. Also, an S15 fusion protein derivative has been used as a physical reporter to localize S15 in the 30S subunit. In the 50S subunit, the L1 stalk, the L7/L12 stalk, the central protuberance (CP), and the peptidyl transferase center (PTC) cleft are the most dynamic and flexible parts in the reconstructed structures with clear movements indicated. Different locations of the tunnel in the central cross-sections through the in situ 50S subunits indicate a flexible pathway inside the large subunit. In addition, gross morphological changes were also been observed in our reconstructions. Our results demonstrate a considerable conformational flexibility among individual ribosomal subunits, both in vitro and in situ.</p><p>Translation is an essential process for all cells and organisms. Translation initiation is the rate-limiting step and the most highly regulated phase of translation process. Several regions along the mRNA have been reported to influence translation initiation. The Shine-Dalgarno (SD) sequence located 5-9 bases upstream of the initiation codon supports translation initiation by complementary binding to the Anti-Shine-Dalgarno (ASD) sequence on the 16S rRNA.</p><p>We have here compared how an SD<sup>+</sup> sequence influences gene expression, if located upstream or downstream of an initiation codon. The positive effect of an upstream SD<sup>+</sup> is confirmed. A downstream SD<sup>+</sup> gives decreased gene expression. If an SD<sup>+</sup> is placed between two potential initiation codons, initiation takes place predominantly at the second start site. The first start site is activated if the distance between this site and the downstream SD<sup>+</sup> is enlarged and/or if the second start site is weakened. Upstream initiation is eliminated if a stable stem-loop structure is placed between this SD<sup>+</sup> and the upstream start site. The results suggest that the two start sites compete for ribosomes that bind to an SD<sup>+</sup> located between them. A minor positive contribution to upstream initiation resulting from 3’ to 5’ ribosomal diffusion along the mRNA is suggested. Since the location of SD<sup>+ </sup>or SD-like sequences can strongly influence gene expression, this should be of significant evolutionary importance.</p> electron tomography ribosome 30S subunit 50S subunit rifampicin Escherichia coli Translation initiation Initiation codon Downstream Region (DR)
26	Structural and Genetic Studies of Translation in Escherichia coli Zhao, Qing January 2005 (has links) Ribosomes are the universal ribonucleoprotein organelles that translate the genetic message from mRNA to protein. In prokaryotes, the ribosomal subunits are 30S and 50S subunit, which bind together during the translation process forming 70S ribosome. The ribosome is a highly dynamic structure, and acts as a working platform for the different factors involved in the process of converting the genetic information into protein. Cryo-electron tomography (cryo-ET) is an emerging imaging technology that combines the potential of three-dimensional (3D) reconstruction at molecular resolution with a close-to-native preservation of the specimen. Here, we have applied this method to reconstruct rifampicin-treated Escherichia coli individual 30S subunits in vitro and in situ, and individual 50S subunits in situ. In the 30S subunit, the head, the platform and the body show large conformational movements relative to each other. The particles are grouped into three conformational groups according to the width/height ratios. Also, an S15 fusion protein derivative has been used as a physical reporter to localize S15 in the 30S subunit. In the 50S subunit, the L1 stalk, the L7/L12 stalk, the central protuberance (CP), and the peptidyl transferase center (PTC) cleft are the most dynamic and flexible parts in the reconstructed structures with clear movements indicated. Different locations of the tunnel in the central cross-sections through the in situ 50S subunits indicate a flexible pathway inside the large subunit. In addition, gross morphological changes were also been observed in our reconstructions. Our results demonstrate a considerable conformational flexibility among individual ribosomal subunits, both in vitro and in situ. Translation is an essential process for all cells and organisms. Translation initiation is the rate-limiting step and the most highly regulated phase of translation process. Several regions along the mRNA have been reported to influence translation initiation. The Shine-Dalgarno (SD) sequence located 5-9 bases upstream of the initiation codon supports translation initiation by complementary binding to the Anti-Shine-Dalgarno (ASD) sequence on the 16S rRNA. We have here compared how an SD+ sequence influences gene expression, if located upstream or downstream of an initiation codon. The positive effect of an upstream SD+ is confirmed. A downstream SD+ gives decreased gene expression. If an SD+ is placed between two potential initiation codons, initiation takes place predominantly at the second start site. The first start site is activated if the distance between this site and the downstream SD+ is enlarged and/or if the second start site is weakened. Upstream initiation is eliminated if a stable stem-loop structure is placed between this SD+ and the upstream start site. The results suggest that the two start sites compete for ribosomes that bind to an SD+ located between them. A minor positive contribution to upstream initiation resulting from 3’ to 5’ ribosomal diffusion along the mRNA is suggested. Since the location of SD+ or SD-like sequences can strongly influence gene expression, this should be of significant evolutionary importance. electron tomography ribosome 30S subunit 50S subunit rifampicin Escherichia coli Translation initiation Initiation codon Downstream Region (DR)
27	On continuous maximum ﬂow image segmentation algorithm Marak, Laszlo 28 March 2012 (has links) (PDF) In recent years, with the advance of computing equipment and image acquisition techniques, the sizes, dimensions and content of acquired images have increased considerably. Unfortunately as time passes there is a steadily increasing gap between the classical and parallel programming paradigms and their actual performance on modern computer hardware. In this thesis we consider in depth one particular algorithm, the continuous maximum flow computation. We review in detail why this algorithm is useful and interesting, and we propose efficient and portable implementations on various architectures. We also examine how it performs in the terms of segmentation quality on some recent problems of materials science and nano-scale biology [INFO:INFO_OH] Computer Science/Other [INFO:INFO_OH] Informatique/Autre Total variation Image analysis Continuous optimization Transmission electron tomography Image segmentation
28	Colloïdes hybrides silice/polystyrène de morphologie contrôlée / Hybrid silica/polystyrene colloids of controlled morphology Desert, Anthony 16 December 2011 (has links) Les molécules colloïdales peuvent être décrites comme des agrégats robustes de particules sphériques prenant la forme de certaines molécules simples. La préparation de suspensions de molécules colloïdales est étudiée afin d’obtenir de hauts rendements en morphologie et des distributions étroites en taille des objets, conditions indispensables pour envisager de futures applications comme leur assemblage et l’élaboration de matériaux. La stratégie repose sur l’introduction de germes de silice fonctionnalisés dans une polymérisation en émulsion du styrène, menant à la nucléation-croissance d’un nombre restreint de nodules sphériques de latex ancrés à la surface de la silice.Les travaux proposent une optimisation des voies de préparation (i) des germes de silice par voie sol-gel et (ii) des particules de latex de PS par polymérisation en émulsion. Les structures des clusters silice/PS sont caractérisées par cryo-tomographie électronique et leur formation fait l’objet de discussions notamment en s’appuyant sur des modèles géométriques connus et en proposant un nouveau modèle de croissance des nodules. Enfin, une étude préliminaire est menée afin de recouvrir ces clusters d’une couche d’oxyde (SiO2 et TiO2). / The colloidal molecules are described as robust aggregates of spherical particles mimicking the space-filling models of simple conventional molecules. Their preparation is studied in order to obtain high morphology yields and narrow size distributions, as required to expect future applications like supracolloidal assembly and materials fabrication. The strategy is based on introduction of functionalized silica seeds in a styrene emulsion polymerization batch, leading to nucleation/growth of a discrete number of spherical PS nodules anchored to the silica surface.The study proposes an optimization of the synthesis of (i) the silica seeds by a sol-gel process and (ii) the PS latex particles by an emulsion polymerization. Silica/PS clusters structures are characterized by cryo-electron tomography and their arrangement is discussed using well-known geometrical models and suggesting a new model of nodules growth. At last, a preliminary study is carried out to cover these clusters with an oxide shell (SiO2 and TiO2). Cluster hybride Molécule colloïdale Silice Polystyrène Polymérisation en émulsion Sol-gel Cryo-tomographie électronique Hybrid cluster Colloidal molecule Silica Polystyrene Emulsion polymerization Sol-gel Cryo-electron tomography
29	Reconstruction et segmentation d'image 3D de tomographie électronique par approche "problème inverse" / Reconstruction and segmentation of electron tomography by “inverse problem” approach Tran, Viet Dung 14 October 2013 (has links) Dans le domaine du raffinage, les mesures morphologiques de particules sont devenues indispensables pour caractériser les supports de catalyseurs. À travers ces paramètres, on peut remonter aux spécificités physico-chimiques des matériaux étudiés. Une des techniques d'acquisition utilisées est la tomographie électronique (ou nanotomographie). Des volumes 3D sont reconstruits à partir de séries de projections sous différents angles obtenues par microscopie électronique en transmission (MET). Cette technique permet d'acquérir une réelle information tridimensionnelle à l'échelle du nanomètre. Les projections sont obtenues en utilisant les possibilités d'inclinaison du porte objet d'un MET. À cause des limitations mécaniques de ce porte objet (proximité avec les lentilles magnétiques et déplacement nanométrique), on ne peut acquérir qu'un nombre assez restreint de projections, celles-ci étant limitées à un intervalle angulaire fixe. D'autre part, l'inclinaison du porte objet est accompagnée d'un déplacement mécanique nanométrique non parfaitement contrôlé. Ces déplacements doivent être corrigés après l'acquisition par un alignement des projections suivant le même axe 3D de rotation. Cette étape est un pré-requis à la reconstruction tomographique. Nous suggérons d'utiliser une méthode de reconstruction tomographique par une approche de type "problème inverse". Cette méthode permet d'aligner des projections et de corriger les lacunes de l'acquisition de l'objet observé en introduisant de façon pertinente des informations a priori. Ces informations sont donc basées à la fois sur la physique de l'acquisition (nature physique des images MET, géométrie et limitation spécifique de l'acquisition des projections, etc...) et sur la nature des objets à reconstruire (nombre et répartition des phases, critères morphologiques de type de connexité, etc...). L'algorithme proposé permet de réaliser la reconstruction nanotomographique avec une grande précision et un temps de calculs réduit considérablement par rapport à la technique classique. Nous avons testé avec succès notre méthode pour les projections réelles de différents supports de catalyseur / In oil refining industry, morphological measurements of particles have become an essential part in the characterization of catalyst supports. Through these parameters, one can infer the specific physicochemical properties of the studied materials. One of the main acquisition techniques is electron tomography (or nanotomography). 3D volumes are reconstructed from sets of projections from different angles made by a transmission electron microscope (TEM). This technique provides a real three-dimensional information at the nanometric scale. Projections are obtained by tilting the specimen port in the microscope. The tilt mechanism has two drawbacks: a rather limited angular range and mechanical shifts, which are difficult to deal with, knowing that these shifts must be corrected after the acquisition by an alignment of projections. This alignment step is a prerequisite for the tomographic reconstruction. Our work deals with a wholly "inverse problem" approach for aligning projections and reducing artifacts due to missing projections by introducing in a relevant way certain a priori informations. These informations are jointly based on the physics of acquisition (physical nature of the TEM images, geometry and specific limitation on the acquisition of projections...) and on the nature of objects to be reconstructed (number and distribution of phases, morphological criteria such as connectivity ...). This approach is described in an algorithmic way. The implementation of this algorithm shows higher precision reconstruction and smaller computation time compared to earlier techniques. We successfully tested our method for real projections of different catalyst supports Traitement d'images Problème inverse Tomographie électronique Reconstruction 3D Alignement sans marqueurs Segmentation Déconvolution Image processing Inverse problem Electron tomography 3D reconstruction Marker-free alignment Segmentation Deconvolution
30	Resolving the Ultrastructural Organization of Synaptic Vesicle Pools at Hippocampal Mossy Fiber and Schaffer Collateral Synapses Maus, Lydia Susann 14 September 2020 (has links) No description available. 570 Mossy Fiber Schaffer Collateral Synapse Synaptic Vesicle Active Zone Docking Munc13 Ultrastructure High-pressure Freezing Electron Microscopy Electron Tomography Biologie (PPN619462639)

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