Implantação iônica de baixa energia em polímero para desenvolvimento de camadas compósitas nanoestruturadas condutoras litografáveis. / Low energy ion implantation into polymers to develop conductive composite layers for lithography.

Fernanda de Sá Teixeira

28 June 2010

Eletrônica utilizando polímero em substituição ao silício é uma área de pesquisa recente com perspectivas econômicas promissoras. Compósitos de polímeros com partículas metálicas apresentam interessantes propriedades elétricas, magnéticas e ópticas e têm sido produzidos por uma grande variedade de técnicas. Implantação iônica de metais utilizando plasma é um dos métodos utilizados para obtenção desses compósitos condutores. Neste trabalho é realizada implantação de íons de ouro de baixa energia em PMMA utilizando plasma. O PMMA tem grande importância tecnológica sendo largamente utilizado como resiste em litografias por feixe de elétrons, raios-X, íons e deep-UV. Como resultado da implantação iônica de baixa energia em PMMA há formação de uma camada nanométrica de material condutor. Esse novo material, denominado compósito isolante-condutor, permite criar micro e nanodispositivos através de técnicas largamente utilizadas em microeletrônica. Medidas elétricas são realizadas in situ em função da dose de íons metálicos implantada, o que permite um estudo das propriedades de transporte desses novos materiais, que podem ser modeladas pela teoria da percolação. Simulações utilizando o programa TRIDYN permitem obter a profundidade e o perfil da implantação dos íons. São mostradas caracterizações importantes tais como Microscopia Eletrônica de Transmissão, Microscopia de Varredura por Tunelamento, Espalhamento de Raios-X a Baixos Ângulos, Difração de Raios-X e Espectroscopia UV-vis. Essas técnicas permitem visualizar e investigar o caráter nanoestruturado do compósito metal-polímero. Ainda como parte deste projeto, as camadas condutoras formadas no polímero são caracterizadas quanto à manutenção das suas características de elétron resiste. / Electronics using polymers instead of silicon is a recent research area with promising economic perspectives. Polymer with metallic particles composites presents interesting electrical, magnetic and optical properties and they have been produced by a broad variety of techniques. Metal ion implantation using plasma is one of the used methods to obtain conductor composites. In this work it is performed low energy gold ion implantation in PMMA by using plasma. PMMA has great technological importance once it is broadly used as resist in electron-beam, X-ray, ion and deep UV lithography. As a result of low energy ion implantation in PMMA, a nanometric conducting layer is formed. This new material, named insulator-conductor composite, can allow the creation of micro and nanodevices through well known microelectronics techniques. Electrical measurements are performed in situ as a function of metal ions implanted dose, which allows the investigation of electrical transport of these new materials, which can be modeled by the percolation theory. Simulations using TRIDYN computer code provide the prediction of depth profile of implanted ions. Important characterizations are showed such as Transmission Electron Microscopy, Scanning Tunneling Microscopy, Small Angle X-Ray Scattering, X-Ray Diffraction and UV-vis Spectroscopy. These techniques allow to visualize and to investigate the nanostructured character of the metal-polymer composite. Still as a part of this project, the conducting layers formed are characterized in relation to the maintenance of their characteristics as electron-beam resist.

Compósitos metal-polímero

Implantação iônica

Litografia por feixe de elétrons

Nanopartículas

Percolação

Ressonância de plasmons de superfície

Electron-beam lithography

Ion implantation

Metal polymer-composites

Nanoparticles

Percolation

Small angle X-ray scattering

Surface plasmon resonance

Etude biophysique et structurale du complexe de réplication des virus à ARN négatif / Functional and structural studies of a RNA replication complex of negative sense RNA virus

Ivanov, Ivan Yavorov

02 December 2011

Les rhabdovirus, dont les virus de la stomatite vésiculaire (VSV) et de la rage (RAV) constituent des prototypes, sont des virus enveloppés dont le génome est constitué d'une seule molécule d'ARN simple brin de polarité négative qui font partie de l'ordre des Mononegavirales (MNV). La machinerie de transcription/réplication de ces virus est constituée de l'ARN génomique et de trois protéines qui sont communes à tous les virus de l'ordre des MNV, la (N) qui encapside le génome viral, la grande sous-unité de l'ARN polymérase ARN dépendante (L) et la phosphoprotéine (P) qui est un cofacteur non-catalytique de la L et sert de chaperonne à la N. Le premier objectif de mon travail de thèse consistait à déterminer la structure cristallographique du domaine de dimérisation de la phosphoprotéine du virus de la rage. La P des rhabdovirus est une protéine modulaire qui contient deux régions intrinsèquement désordonnée, un domaine central responsable la dimérisation et un domaine C-terminal responsable de la fixation sur la matrice N-ARN. Le modèle atomique obtenu à une résolution de 1.5A montre que la structure est très différente de celle du domaine correspondant chez VSV. Le second objectif de mon travail était la caractérisation structurale de la grande sous-unité L de la polymérase du virus de la stomatite vésiculaire. Cette enzyme de 2109,aa, possède six régions conservées. Le domaine conservé III comprend les régions impliquées dans l'activité de polymérisation et les domaines V et VI sont responsables de la formation de la coiffe des ARNm. Plusieurs stratégies ont été envisagées successivement. (1) Sur la base de prédictions de structures secondaires et de prédictions de désordre, nous avons essayé d'exprimer différents fragments en système d'expression bactérien. Les constructions testées se sont avérées insolubles et certaines d'entre elles fixaient GroEL, indiquant un problème de repliement. (2) Nous avons alors essayé d'exprimer la L seule ou en complexe avec la P en système d'expression eucaryote. La purification s'est avérée impossible, la protéine L restant toujours associées à des protéines cellulaires visibles par coloration au bleu de Coommassie. (3) Finalement nous avons réussi à purifier la polymérase à partir de virus entier. La préparation de la polymérase était très homogène et a permis d'entreprendre une caractérisation par microscopie électronique. Une classification d'images a permis de construire un premier modèle à basse résolution. Le modèle révèle la présence d'un domaine annulaire avec plusieurs domaines structurés attachés au coeur de la polymérase. La cryo-microscopie électronique et la tomographie permettront d'obtenir plus de détails sur cette protéine. / Rhabdoviruses, including vesicular stomatitis virus (VSV) and rabies virus (RAV), are enveloped viruses which genome is made of a single molecule of negative-sense RNA and are classified in the order Mononegavirales (MNV). The transcription/replication machinery of these viruses consists of the genomic RNA and of three proteins, which are common to all other viruses of the order MNV, a nucleoprotein (N) that encapsidates the viral genome, a large subunit of the RNA-dependent RNA polymerase (L) and a phosphoprotein (P) that acts as a non-catalytic cofactor of L and a chaperone of N. The first goal of my research project was to determine the crystallographic structure of the dimerization domain of the rabies virus phosphoprotein. The P protein of the rhabdoviruses is a modular protein, which contains two intrinsically disordered regions, a central dimerization domain and a C-terminal domain involved in binding to the N-RNA template. The atomic model obtained at a resolution of 1.5 A showed that the structure is different from that of the corresponding domain of VSV. The second goal was the structural characterization of the large subunit L of VSV polymerase. The enzyme of 2109 aa has six conserved regions. Conserved region III includes the residues involved in the RNA synthesis activity, whereas domains V and VI are involved in mRNA capping formation. Three strategies were successively developed: (1) On the basis of secondary structure and disorder predictions, we tried to express different fragments in bacterial expression systems. These constructions appeared to be insoluble and some of them bound GroEL suggesting a folding problem; (2) We tried to express L alone or co-express it with P in eukaryotic expression system. The purification appeared to be impossible, the L protein always remaining associated with host-cell proteins in amounts detectable by Coommassie staining; (3) We succeeded in purifying the L protein from the virus. The L samples were homogenous and allowed a characterization by electron microscopy. Image classes allowed the reconstruction of a first low-resolution model. This model revealed the presence of a large ring-like domain and several globular domains. Cryo-electron microscopy and tomography should lead to a more detailed description of this protein.

Diffusion de X-Ray aux petits angles

Diffusion de Neutrons aux petits angles

Complexe de replication

Phosphoprotein

Small Angle X-Ray Scattering

Small Angle Neutron Scattering

Replication complex

Phosphoprotein

Desenvolvimento e caracterização de sistemas líquido-cristalinos para aplicação tópica de metotrexato : estudos de liberação, retenção e permeação in vitro /

Von Zuben, Eliete de Souza.

January 2012

Orientador: Maria Virgínia Costa Scarpa / Coorientador: Marlus Chorilli / Banca: Renata Fonsenca Vianna Lopez / Banca: Leila Aparecida Chiavacci / Resumo: Amplamente utilizado no tratamento de vários tipos de câncer e na psoríase, o metotrexato (MTX) é um quimioterápico, estruturalmente análogo do ácido fólico, que apesar de sua eficácia apresenta uma série de efeitos adversos, sendo a hepatotoxicidade o mais grave. Atualmente os sistemas nanoestruturados líquido-cristalinos de fase lamelar estão sendo utilizados como dispositivos para liberação modificada de fármacos, sendo vantajosos na liberação tópica de várias substâncias, conforme suas características de interação com o estrato córneo e as outras camadas da pele, evitando assim efeitos adversos sistêmicos. Os objetivos deste trabalho foram desenvolver sistemas nanoestruturados líquido-cristalinos de fase lamelar, acrescidos de MTX, caracteriza-los do ponto de vista físico, realizar a análise estrutural das formulações, através de microscopia de luz polarizada (MLP), espalhamento de raios-X a baixo ângulo (SAXS) e suas propriedades reológicas, executar os testes de estabilidade preliminar (TEP) das formulações, validar o método analítico para a quantificação de MTX por CLAE e executar ensaios de liberação, permeação e retenção in vitro. As formulações preparadas a partir da mistura do poliéter funcional siloxano (Dow Corning® 5329) como tensoativo, com silicone fluido de co-polímero glicol (Dow Corning® 193C) como fase oleosa titulados em fase aquosa, composta por tampão fosfato de potássio monobásico 0,01M pH 7,4, apresentaram fases líquido-cristalinas do tipo lamelar, confirmados pelos ensaios de MLP e SAXS. Os TEPs evidenciaram que as formulações A, B e C mantiveram-se estáveis durante o período do estudo. Os estudos do comportamento reológico das formulações apresentaram-se como fluidos pseudoplásticos não-newtonianos tixotrópicos ... / Abstract: Widely used in the treatment of some types of cancer, the methotrexate (MTX) is a chemotherapeutic, structurally analog of the folic acid, although its effectiveness, presents a series of adverse effect, being the most serious hepatotoxicity. Currently, the liquid crystal lamellar phase is being used of devices for modified release of drug demonstrated to be advantageous in the release topic of some substances, given to the characteristics of interaction with the stratum corneun and other layers of the skin, avoiding systemic adverse effects. The aims of this research had been to develop and to characterize liquid crystalline nanostructure systems of lamellar phase, increased of MTX of the physical point of view, also carry through the structural analysis of the formulations through by polarized light microscopy (PLM), small-angle X-ray scattering (SAXS) and rheological properties. Perform stability studies of the chosen formulations, validate the analytical method of quantification of MTX for High Performance Liquid Chromatography (HPLC) and carry through release assay, cutaneous permeation and skin retention in vitro for the chosen formulations. The formulations prepared by the mixture of polyether functional siloxane as surfactant, with silicone polyether copolymer as oily phase and phosphate buffer 0,01M pH 7,4 as aqueous phase demonstrating lamellar liquid-crystalline phases, confirmed by assays of PLM and SAXS. The stability studies showed that formulations A, B and C remained stable throughout the period of the study. The study of the rheological behavior of the formulations presented as not Newtonian pseudoplastic fluid and thixotropic ... / Mestre

Metotrexato.

Cristais líquidos.

Reologia.

Raios X - Espalhamento a baixo ângulo.

Fluidos não-newtonianos.

Psoríase.

Methotrexate. eng

Liquid crystals. eng

Rheology. eng

Small-angle x-ray scattering. eng

Non-newtonian fluids eng

Psoriasis. eng

Determination of the structure of y-alumina using empirical and first principle calculations combined with supporting experiments

Paglia, Gianluca

January 2004

Aluminas have had some form of chemical and industrial use throughout history. For little over a century corundum (α-Al2O3) has been the most widely used and known of the aluminas. The emerging metastable aluminas, including the γ, δ, η, θ, κ, β, and χ polymorphs, have been growing in importance. In particular, γ-Al2O3 has received wide attention, with established use as a catalyst and catalyst support, and growing application in wear abrasives, structural composites, and as part of burner systems in miniature power supplies. It is also growing in importance as part of the feedstock for aluminium production in order to affect both the adsorption of hydrogen fluoride and the feedstock solubility in the electrolytic solution. However, much ambiguity surrounds the precise structure of γ-Al2O3. Without proper knowledge of the structure, understanding the properties, dynamics and applications will always be less than optimal. The aim of this research was to contribute towards settling this ambiguity. This work was achieved through extensive computer simulations of the structure, based on interatomic potentials with refinements of promising structures using density functional theory (DFT), and a wide range of supporting experiments. In addition to providing a more realistic representation of the structure, this research has also served to advance knowledge of the evolution of the structure with changing temperature and make new insights regarding the location of hydrogen in γ-Al2O3. / Both the molecular modelling and Rietveld refinements of neutron diffraction data showed that the traditional cubic spinel-based structure models, based on m Fd3 space group symmetry, do not accurately describe the defect structure of γ-Al2O3. A more accurate description of the structure was provided using supercells of the cubic and tetragonal unit cells with a significant number of cations on c symmetry positions. These c symmetry based structures exhibited diffraction patterns that were characteristic of γ-Al2O3. The first three chapters of this Thesis provide a review of the literature. Chapter One provides a general introduction, describing the uses and importance of the aluminas and the problems associated with determining the structure of γ-Al2O3. Chapter Two details the research that has been conducted on the structure of vi γ-Al2O3 historically. Chapter Three describes the major principles behind the computational methods employed in this research. In Chapter Four, the specific experimental and computational techniques used to investigate the structure of γ-Al2O3 are described. All preparation conditions and parameters used are provided. Chapter Five describes the methodology employed in computational and experimental research. The examination of the ~ 1.47 billion spinel-based structural possibilities of γ-Al2O3, described using supercells, and the selection of ~ 122,000 candidates for computer simulation, is detailed. This chapter also contains a case study of the structure of κ-Al2O3, used to investigate the applicability of applying interatomic potentials to solving complex structures, where many possibilities are involved, and to develop a systematic procedure of computational investigation that could be applied to γ-Al2O3. Chapters Six to Nine present and discuss the results from the experimental studies. / Preliminary heating trials, performed to determine the appropriate preparation conditions for obtaining a highly crystalline boehmite precursor and an appropriate calcination procedure for the systematic study of γ-Al2O3, were presented in Chapter Six. Chapter Seven details the investigation of the structure from a singletemperature case. Several known structural models were investigated, including the possibility of a dual-phase model and the inclusion of hydrogen in the structure. It was demonstrated that an accurate structural model cannot be achieved for γ-Al2O3 if the cations are restricted to spinel positions. It was also found that electron diffraction patterns, typical for γ-Al2O3, could be indexed according to the I41/amd space group, which is a maximal subgroup of m Fd3 . Two models were presented which describe the structure more accurately; Cubic-16c, which describes cubic γ-Al2O3 and Tetragonal-8c, which describes tetragonal γ-Al2O3. The latter model was found to be a better description for the γ-Al2O3 samples studied. Chapter Eight describes the evolution of the structure with changing calcination temperature. Tetragonal γ-Al2O3 was found to be present between 450 and 750 °C. The structure showed a reduction in the tetragonal distortion with increasing temperature but at no stage was cubic γ-Al2O3 obtained. Examination of the progress of cation migration indicates the reduction in the tetragonal nature is due to ordering within inter-skeletal oxygen layers of the unit cell, left over from the breakdown of the hydroxide layers of boehmite when the transformation to γ-Al2O3 occurred. Above 750 °C, δ-Al2O3 was not observed, but a new phase was identified and designated γ.-Al2O3. / The structure of this phase was determined to be a triple cell of γ-Al2O3 and is herein described using the 2 4m P space group. Chapter Nine investigates the presence of hydrogen in the structure of γ-Al2O3. It was concluded that γ-Al2O3 derived from highly crystalline boehmite has a relatively well ordered bulk crystalline structure which contains no interstitial hydrogen and that hydrogen-containing species are located at the surface and within amorphous regions, which are located in the vicinity of pores. Expectedly, the specific surface area was found to decrease with increasing calcination temperature. This trend occurred concurrently with an increase in the mean pore and crystallite size and a reduction in the amount of hydrogen-containing species within the structure. It was also demonstrated that γ-Al2O3 derived from highly crystalline boehmite has a significantly higher surface area than expected, attributed to the presence of nano-pores and closed porosity. The results from the computational study are presented and discussed in Chapter Ten. Optimisation of the spinel-based structural models showed that structures with some non-spinel site occupancy were more energetically favourable. However, none of the structural models exhibited a configuration close to those determined from the experimental studies. Nor did any of the theoretical structures yield a diffraction pattern that was characteristic of γ-Al2O3. This discrepancy between the simulated and real structures means that the spinel-based starting structure models are not close enough to the true structure of γ-Al2O3 to facilitate the derivation of its representative configuration. / Large numbers of structures demonstrate migration of cations to c symmetry positions, providing strong evidence that c symmetry positions are inherent in the structure. This supports the Cubic-16c and Tetragonal-8c structure models presented in Chapter Seven and suggests that these models are universal for crystalline γ-Al2O3. Optimisation of c symmetry based structures, with starting configurations based on the experimental findings, resulted in simulated diffraction patterns that were characteristic of γ-Al2O3.

Scanning Small-Angle X-Ray Scattering Tomography / Non-Destructive Access to the Local Nanostructure

Feldkamp, Jan Moritz

26 October 2009

The techniques of small-angle x-ray scattering (SAXS) and grazing-incidence small-angle x-ray scattering (GISAXS) have successfully been used for many years in the analysis of nanostructures in non-crystalline samples, e.g., polymers, metallic alloys, ceramics, and glasses. In many specimens, however, the nanostructure is not distributed homogeneously, but instead varies as a function of position in the sample. Conventional SAXS or GISAXS measurements on such heterogeneous samples merely yield an averaged scattering pattern of all the different structures present along the x-ray beam path. In this thesis, scanning tomography is combined with SAXS and GISAXS, revealing the individual local scattering cross section at each position on a virtual section through the sample. The technique thereby offers unique analytical possibilities in heterogeneous specimens. A brief review of the physics of x rays and x-ray scattering is given, before the methods of tomographic SAXS and GISAXS are introduced. Experimental requirements and limitations of both methods are discussed, including aspects of sampling, local rotational invariance and x-ray beam coherence. Experiments performed at the beamline BW4 at HASYLAB at DESY, Hamburg, Germany are described, illustrating the capabilities of the method. Finally, an outlook on possible future developments in tomographic small-angle x-ray scattering is given. / Die Methoden der Röntgenkleinwinkelstreuung (SAXS) und Röntgenkleinwinkelstreuung unter streifendem Einfall (GISAXS) werden seit vielen Jahren erfolgreich eingesetzt zur Analyse von Nanostrukturen in nicht-kristallinen Proben, z.B. Polymeren, metallischen Legierungen, Keramiken und Gläsern. In vielen Proben ist die Nanostruktur allerdings nicht homogen verteilt, sondern variiert als Funktion des Ortes in der Probe. Konventionelle SAXS- oder GISAXS-Messungen an solch heterogenen Proben liefern lediglich ein über alle unterschiedlichen Strukturen entlang des Röntgenstrahls gemitteltes Streubild. In dieser Arbeit wird Rastertomographie mit SAXS und GISAXS kombiniert und so der lokale Streuquerschnitt an jedem Ort auf einem virtuellen Schnitt durch die Probe gewonnen. Diese Technik bietet so einzigartige Analysemöglichkeiten von heterogenen Proben. Es wird zunächst ein kurzer Überblick über die Physik der Röntgenstrahlung und Röntgenstreuung gegeben, bevor die Methoden der SAXS- und GISAXS-Tomographie eingeführt werden. Die experimentellen Anforderungen und Grenzen beider Methoden werden besprochen, wobei Aspekte der Abtastung, der lokalen Rotationsinvarianz und der Kohärenz im Röntgenstrahl eine Rolle spielen. Experimente, die an der Messstrecke BW4 am HASYLAB bei DESY, Hamburg, durchgeführt wurden, werden beschrieben, um die Möglichkeiten der Methode zu illustrieren. Schließlich wird ein Ausblick auf mögliche zukünftige Entwicklungen der Kleinwinkelstreutomographie gegeben.

x-ray

microbeam

tomography

small-angle scattering

small-angle x-ray scattering

grazing incidence

SAXS

GISAXS

Röntgen

Mikrostrahl

Tomographie

Kleinwinkelstreuung

Röntgenkleinwinkelstreuung

streifender Einfall

SAXS

GISAXS

ddc:530

rvk:UQ 5600

Nanofibres de cellulose pour la production de bionanocomposites / Cellulose nanofibers for the production of bionanocomposites

Nechyporchuk, Oleksandr

02 October 2015

Un des principaux challenges dans le contexte du développement des matériaux biocomposites est de remplacer les matières plastiques à base de pétrole par des matériaux biosourcés. En raison de leurs origines naturelles, d'une résistance relativement élevée et de leur capacité à former des produits transparents, les nanofibres de cellulose possèdent un grand potentiel d'applications dans les matériaux composites. Dans ce travail des résultats ont été apportés premièrement sur l'optimisation des procédés de productions de nanofibres de cellulose par des traitements biochimiques et mécaniques, deuxièmement sur leurs propriétés rhéologiques et structurelles en milieu aqueux et troisièmement sur la production de composites à matrice de latex. Les questions de dispersions homogènes de nanofibres de cellulose dans la matrice et des interactions entre ces composants à des fins de renforcement des bio-composites ont été étudiés en détails. / One of the main challenges in the context of biocomposites development is to replace petroleum-based materials with bio-based. Because of their natural origin, relatively high strength and the ability to form transparent products, cellulose nanofibers have a large potential for application in the composite materials. This work was focused primarily on the optimization of cellulose nanofiber production methods using biochemical and mechanical treatments, secondly on their rheological and structural properties in an aqueous medium and thirdly on the production of latex-based composites. The questions of homogeneous dispersion of cellulose nanofibers in the matrix and the interactions between these components for the purpose of matrix reinforcement are particularly addressed.

Nanofibrilles de cellulose (NFC)

Rhéologie

Instabilités d’écoulement

Nanocomposites

Polymérisation en miniémulsion

Nanofibrillated cellulose (NFC)

Rheology

Flow instabilities

Small-angle X-Ray scattering (SAXS)

Nanocomposites

Miniemulsion polymerization

620

Dissection de TFIID, un facteur de transcription général humain : Études structurales etfonctionnelles des sous-ensembles du TFIID human / Dissecting General Transcription Factor TFIID : structural and functional studies of human TFIID subassemblies

Gupta, Kapil

24 September 2015

Les génomes eucaryotes sont très complexes et peuvent être très grands. Par exemple, le génome humain contient environ de 20 000 à 25 000 gènes codant pour des protéines. L'expression de ces gènes doit être strictement régulée à de nombreux niveaux (tels que l'organisation de la chromatine, la transcription des gènes, le traitement et l'exportation de l'ARN messager ainsi que la traduction) pour le bon fonctionnement de la machinerie cellulaire. De nombreuses protéines et complexes protéiques sont impliqués dans ces processus essentiels de régulation, tels que les remodeleurs de la chromatine, les activateurs, co-activateurs et répresseurs de la transcription et particulièrement la machinerie générale de transcription. Chez les eucaryotes, la transcription de gènes codant pour des protéines est appelée transcription génique de classe II, elle est catalysée par l'ARN polymérase II (Pol II). La transcription des gènes par la polymérase II nécessite l'interaction coopérative de plusieurs protéines et complexes protéiques afin de faciliter l'assemblage d'un complexe de pré-initiation (PIC) au promoteur de base. Le complexe de pré-initiation comprend l'ARN polymérase II et les facteurs de transcription généraux (GTFs) - TFIIA, TFIIB, TFIID, TFIIE, TFIIF et TFIIH ainsi que le complexe de Médiateur et une grande variété de co-activateurs transcriptionnels.Une étape fondamentale dans l'assemblage d'un complexe de pré-initiation est la reconnaissance du promoteur de base par le facteur de transcription général TFIID. TFIID est un complexe multi protéique d'environ 1,6 MDa. Chez l'homme, il comprend une vingtaine de sous-unités constituées de 14 protéines différentes - la protéine de liaison à la boite tata (TBP) et ses facteurs associés (TAFs 1 à 13). Une série d'études sur la TFIID humaine et ses sous-ensembles ont été réalisés depuis sa découverte il y a plus de 20 ans, cherchant à comprendre la structure et le mécanisme de ces facteurs de transcription général essentiel, cependant l'architecture de TFIID, ses activités, ses fonctions, ses rouages et ses mécanismes d'assemblage cellulaire reste largement incompris à ce jour.Cette thèse décrit les études biochimiques que nous avons effectuées sur trois sous-ensembles distincts de TFIID humain. Nous avons utilisé un certain nombre de techniques de biologie structurale : la cristallographie, la spectroscopie à résonance magnétique nucléaire (RMN) et la diffusion des rayons X aux petits angles (SAXs), pour étudier le complexe formé par les facteurs humains, associés à la protéine de liaison à la boite tata, TAF1 et TAF7. Ces études structurelles fournissent un aperçu détaillé sur l'interface d'interaction complexe de TAF1/TAF7, misent de concert avec des données disponibles dans la littérature, elles mettent en évidence la nature dynamique de l'interaction TAF1/TAF7 dans le complexe de TFIID humain.Dans une deuxième étude, nous avons analysé un complexe formé par TAF11, TAF13 et TBP en utilisant un panel de méthodes biophysiques et biochimiques : l'analyse électrophorétique de retard sur gel (EMSA), l'ultracentrifugation analytique (AUC), la chromatographie d'exclusion stérique (SEC) analyse, le pull-down, la spectrométrie de masse native et la spectrométrie de masse chimique à réticulation (CLMS). Ce complexe fait penser au complexe TAF1/TBP qui imite la boite tata.De plus, dans le cadre des efforts en cours au sein du laboratoire du Pr Imre Berger afin de déterminer la structure de l'holo-TFIID humaine, nous avons reconstitué un grand sous-ensemble de TFIID (900 KDa) appelé 9TAF, qui est composé de neuf différents facteurs associés de TBP. Nous avons effectué des études d'électro-microscopie par coloration négative sur le complexe 9TAF qui nous ont fourni des informations à faible résolution. Ces études ouvrent la voie à de futures études de cryo-EM sur le complexe 9TAF pour obtenir un modèle de plus haute resolution. / Eukaryotic genomes are highly complex and can be very large. For example, the human genome contains approximately 20,000-25,000 protein coding genes. Expression of these genes needs to be tightly regulated at many levels, including chromatin organization, gene transcription, mRNA processing and export and translation, for proper functioning of cellular machinery. Many proteins and protein complexes are involved in these essential regulatory processes, examples include chromatin remodelers, transcriptional activators and coactivators, transcriptional repressors and notably the general transcription machinery. Transcription of protein coding genes in eukaryotes is called Class II gene transcription, and is catalyzed by RNA polymerase II (Pol II). Gene transcription by Pol II requires the cooperative interaction of multiple proteins and protein complexes to facilitate the assembly of a preinitiation complex (PIC) at the core promoter. The PIC comprises Pol II and the General Transcription Factors (GTFs)- TFIIA, TFIIB, TFIID, TFIIE, TFIIF, and TFIIH, together with the Mediator complex and a large variety of transcriptional coactivators.A fundamental step in PIC assembly is recognition of the core promoter by GTF TFIID, a magdalton sized multiprotein complex. In humans, TFIID comprises about twenty subunits made up of 14 different proteins – the TATA box binding protein (TBP) and its associated factors (TAFs, numbered 1 to 13). A range of studies on human TFIID and its subassemblies have been carried out since its discovery more than two decades ago, to understand the structure and mechanism of this essential GTF, but the architecture of TFIID, its activities, its functions, its inner workings and the mechanisms of its cellular assembly have eluded detailed understanding to date.This thesis describes biochemical, biophysical, structural and functional studies carried out on three distinct human TFIID subassemblies. We used a number of structural biology techniques, including crystallization, nuclear magnetic resonance (NMR) spectroscopy and small angle X-ray scattering (SAXS) to analyse a complex formed by the human TBP associated factors TAF1 and TAF7. These structural studies provide detailed insights into the intricate interaction interface formed by TAF1 and TAF7, and, together with other data available from the literature, highlight the dynamic nature of the TAF1/TAF7 interaction in the human TFIID complex.In a second study, we analyzed a novel complex formed by TAF11, TAF13 and TBP using a range of biophysical and biochemical methods including electrophoretic mobility shift assay (EMSA), analytical ultracentrifugation (AUC), size exclusion chromatography (SEC) analysis, pull-down assay, native mass-spectroscopy and chemical cross-linking mass spectroscopy (CLMS). This complex is reminiscent of a so-called TATA-box mimicry discovered previously in a TAF1/TBP complex.As part of the ongoing efforts in the Berger laboratory to determine the structure of human holo-TFIID, we furthermore produced and purified a large (~900 kDa) TFIID subassembly called 9TAF, which is composed of nine different TBP associated factors. We carried out negative stain EM studies and random conical tilt (RCT) analysis on 9TAF to obtain low resolution structural information. These studies set the stage for future cryo-EM studies of this 9TAF complex to obtain a high(er) resolution model to decipher the inner workings of human TFIID.

Transcription

Complexe TFIID humain

Biologie Structurale

Résonance magnétique nucléaire RMN

Cristallographie à rayons x

Transcription

Human TFIID complex

Structural Biology

Nuclear magnetic resonance NMR

X-Ray Crystallography

Small angle x-Ray scattering SAXS

570

Desenvolvimento e caracterização de sistemas líquido-cristalinos para aplicação tópica de metotrexato: estudos de liberação, retenção e permeação in vitro

Von Zuben, Eliete de Souza [UNESP]

27 June 2012

Made available in DSpace on 2014-12-02T11:16:33Z (GMT). No. of bitstreams: 0 Previous issue date: 2012-06-27Bitstream added on 2014-12-02T11:21:14Z : No. of bitstreams: 1 000693706.pdf: 2880957 bytes, checksum: 43d4b15dffaa346d602b5f57917996d4 (MD5) / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES) / Amplamente utilizado no tratamento de vários tipos de câncer e na psoríase, o metotrexato (MTX) é um quimioterápico, estruturalmente análogo do ácido fólico, que apesar de sua eficácia apresenta uma série de efeitos adversos, sendo a hepatotoxicidade o mais grave. Atualmente os sistemas nanoestruturados líquido-cristalinos de fase lamelar estão sendo utilizados como dispositivos para liberação modificada de fármacos, sendo vantajosos na liberação tópica de várias substâncias, conforme suas características de interação com o estrato córneo e as outras camadas da pele, evitando assim efeitos adversos sistêmicos. Os objetivos deste trabalho foram desenvolver sistemas nanoestruturados líquido-cristalinos de fase lamelar, acrescidos de MTX, caracteriza-los do ponto de vista físico, realizar a análise estrutural das formulações, através de microscopia de luz polarizada (MLP), espalhamento de raios-X a baixo ângulo (SAXS) e suas propriedades reológicas, executar os testes de estabilidade preliminar (TEP) das formulações, validar o método analítico para a quantificação de MTX por CLAE e executar ensaios de liberação, permeação e retenção in vitro. As formulações preparadas a partir da mistura do poliéter funcional siloxano (Dow Corning® 5329) como tensoativo, com silicone fluido de co-polímero glicol (Dow Corning® 193C) como fase oleosa titulados em fase aquosa, composta por tampão fosfato de potássio monobásico 0,01M pH 7,4, apresentaram fases líquido-cristalinas do tipo lamelar, confirmados pelos ensaios de MLP e SAXS. Os TEPs evidenciaram que as formulações A, B e C mantiveram-se estáveis durante o período do estudo. Os estudos do comportamento reológico das formulações apresentaram-se como fluidos pseudoplásticos não–newtonianos tixotrópicos ... / Widely used in the treatment of some types of cancer, the methotrexate (MTX) is a chemotherapeutic, structurally analog of the folic acid, although its effectiveness, presents a series of adverse effect, being the most serious hepatotoxicity. Currently, the liquid crystal lamellar phase is being used of devices for modified release of drug demonstrated to be advantageous in the release topic of some substances, given to the characteristics of interaction with the stratum corneun and other layers of the skin, avoiding systemic adverse effects. The aims of this research had been to develop and to characterize liquid crystalline nanostructure systems of lamellar phase, increased of MTX of the physical point of view, also carry through the structural analysis of the formulations through by polarized light microscopy (PLM), small-angle X-ray scattering (SAXS) and rheological properties. Perform stability studies of the chosen formulations, validate the analytical method of quantification of MTX for High Performance Liquid Chromatography (HPLC) and carry through release assay, cutaneous permeation and skin retention in vitro for the chosen formulations. The formulations prepared by the mixture of polyether functional siloxane as surfactant, with silicone polyether copolymer as oily phase and phosphate buffer 0,01M pH 7,4 as aqueous phase demonstrating lamellar liquid-crystalline phases, confirmed by assays of PLM and SAXS. The stability studies showed that formulations A, B and C remained stable throughout the period of the study. The study of the rheological behavior of the formulations presented as not Newtonian pseudoplastic fluid and thixotropic ...

Metotrexato

Cristais líquidos

Reologia

Raios X - Espalhamento a baixo angulo

Fluidos não-newtonianos

Psoriase

Methotrexate

Liquid crystals

Rheology

Small-angle x-ray scattering

Non-newtonian fluids

Psoriasis

High performance liquid chromatography

Elucidating the activation mechanism of the transcription factor DntR using X-ray crystallography and small angle X- ray scattering / Compréhension du mécanisme d'activation du facteur de transcription DntR par cristallographie aux rayons X et diffusion des rayons X aux petits angles

Lerche, Michael

18 July 2014

Les protéines régulatrices de la transcription de type LysR (LTTR) appartient à la plus grande famille de facteur de transcription chez les procaryotes. Malgré l'importance de cette famille, les informations structurelles sur les protéines pleine-longueur sont très limitées car elles sont souvent insolubles et très difficiles à cristalliser. Les quelques structures existantes, couplés à d'autres analyses biophysiques ont pu montrer que ces protéines s'associent principalement sous forme d'homotétramère comprenant un dimère de dimères. Les dimères s'associent par un large domaine C-terminal dans une position " tête-bêche " et sont reliés en " tête-à-tête " par leurs domaines N-terminal et sont activées par la liaison de molécules inductrices. Le domaine dimèrique C-terminal qui contient la poche de liaison inductrice (Inducer Binding Cavity : IBC) est appelé domaine de liaison inductrice (Inducer Binding Domain : IBD), tandis que les dimères N-terminaux se lient chacun à une région de l'ADN par un motif hélice-tour-hélice ‘winged' (wHTH). Contrairement à d'autres facteurs de transcription, les protéines LTTR ne régulent pas l'expression par association/dissociation avec l'ADN. Ils se lient à l'ADN dans leur état actif et inactif. Le consensus actuel est qu'elles régulent l'expression des gènes par d'importants changements conformationnels qui relâchent la liaison avec l'ADN. À ce jour, aucune structure de LTTR pleine longueur homotétramérique dans une conformation active ou inactive n'a été résolu par cristallographie, et leur mécanisme d'action sur le gène reste structurellement non caractérisé.Le travail décrit dans cette thèse a utilisé DntR de la famille des LTTR. La première structure cristalline de l'apo-DntRis est présentée ici, ainsi que la structure du mutant H169TDntR, qui présente une activité en l'absence d'inducteur. L'analyse par fluorimétrie de différentiel thermique (TSA) montre que la température de dénaturation du mutant H169TDntR est similaire à DntR IBDs lié à une molécule inductrice. La comparaison de ces deux structures avec celle de DntR lié au salicylate révèle que la protéine dans son état apo adopte une conformation compacte de l'IBC, ce qui empêche la liaison d'une molécule inductrice. Dans l'IBC, les mouvements des résidus H169 et H206 permettent la liaison à l'inducteur. Pour éviter les limitations dues à l'empaquetage du cristal nous avons étudié la structure DntR en solution par diffusion des rayons X aux petits angles (SAXS).L'étude SAXS de DntR révèle que dans son état inactif, la conformation apo adopte un repliement plus compact par rapport à celle de la structure cristalline. Tout en maintenant un noyau compact de C-terminal, le repliement du dimère de wHTH est beaucoup plus fermé que dans la structure cristalline et adopte une conformation qui entrainerait une flexion beaucoup plus importante de l'ADN lié que postulé précédemment. Les études du mutant H169TDntR constitué actif ont confirmé comme l'analyse par TSA l'a suggéré que, la structure de cette protéine est nettement différente en solution que sous forme cristalline.En effet, la structure en solution de H169TDntR est très semblable à la forme ouverte de l'homotétramères observés dans la structure cristalline de TsaR. L'hypothèse de départ était que, lors de l'activation de LTTR, cet homotétramère subirait un changement de conformation d'une forme compact vers une forme ouverte, qui se traduirait par un relâchement de l'ADN lié. Cette hypothèse a été confirmée par des études de diffusion en solution de DntR activée par un inducteur.Le travail présenté dans cette thèse valide l'hypothèse précédemment, que lors de l'activation de DntR, et probablement tous les LTTRs homotétramériques, entraine un changement de conformation d'une forme compacte vers une forme beaucoup plus ouverte et permet l'accès aux régions promotrices par l'ARN polymerase et ainsi initier la transcription. / LysR type transcriptional regulatory (LTTR) proteins are the largest family of transcription factors amongst prokaryotes. In spite of the size of the family, structural information on full-length constructs of these proteins is very limited as they are often insoluble and very difficult to crystallize. From the few existing crystal structures, coupled with other biophysical evidence, it is known that the proteins mainly associate as homotetramers comprising a dimer of dimers. The dimers associate through large C-terminal domains in a “head-to-tail” fashion and are connected “head-to-head” through their N-terminal domains and the resulting homotetramers are activated by the binding of inducer molecules. Each C-terminal domain contain an inducer binding cavity (IBC) and is denoted an inducer binding domain (IBD), while the N-terminal dimers each bind a region of DNA via a winged helix-turn-helix (wHTH) motif.Unlike other transcription factors, LTTR proteins do not regulate expression by associating or disassociating with DNA. They bind to DNA in both their active and inactive states and the current consensus is that they regulate gene expression through large conformational changes that relax the bending of bound DNA. However, to this date, no crystal structures of a full length homotetrameric LTTR in both an active and inactive conformation exists, and thus their mechanism of transcriptional regulation remains structurally uncharacterized.The work described in this thesis has used the LTTR DntR as a model protein to futher structurally characterizes the activation mechanism of LTTR proteins. The first crystal structure of apo-DntR is presented as is the crystal structure of H169TDntR, a mutant which shows activity in the absence of an inducer molecule. Thermofluor assays performed on this mutant, show that it has a melting temperature similar to that of inducer bound DntR. Comparison of these crystal structures with the crystal structure of salicylate-bound DntR reveals that the protein in its apo-state adopts a compact IBC, which precludes the binding of an inducer molecule. Despite the evidence of thermofluor assays, the crystal structure of H169TDntR is very similar to that of apo-DntR suggesting that crystal packing effects impose strong limitations on the use of crystallography to elucidate the active and inactive conformations of DntR. Small Angle X-ray Scattering (SAXS) was thus used to study the structure of DntR in solution.SAXS study reveals that in solution DntR in its inactive apo-state is found in a slightly different conformation compared to that seen in its crystal structure. While maintaining a compact tetrameric C-terminal core the DNA binding wHTH dimers pack much closer to this than seen in the crystal structure and adopt a conformation that would result in much higher bending of bound DNA than previously postulated.SAXS studies of the constitutively active H169TDntR mutant confirm, as thermofluor assays had suggested, that in solution the structure of this protein is markedly different from its crystal structure. Indeed the solution structure of H169TDntR appears very like that of open-form homotetramers seen in the crystal structure of TsaR. This same effect was observed in solution scattering studies of inducer bound-and thus activated, DntR.The work presented in this thesis thus appears to confirm, as previously hypothesized, that upon activation DntR, and presumably all homotetrameric LTTRs, undergo a conformational change from a compact, to a much more open form that allows the relaxation of the bound DNA promoter region, exposing it to solvent and allows RNA polymerase access and thus initiate transcription.

Facteur de transcription DntR

Diffusion des rayons X aux petits angles

Cristallographie rayons X

Biocapteur pour xenobiotique

Transcript factor DntR

Small angle X-Ray scattering

X-ray crystallography

Biosensor for xenobiotic,

570

Sois, geis e vidros de sílica obtidos pelo processo sol-gel / Sílica Sols, gels and glasses made by sol-gel process

Dayse Iara dos Santos

11 November 1987

Estudos sistemáticos utilizando a técnica de SAXS foram realizados no síncrotom do LURE (Orsay) com feixe intenso de geometria pontua:, para descrever a cinética e as estruturas obtidas durante as etapas de transformação sol -> gel úmido -> gel seco -> vidros de sílica . As análises foram feitas em termos de uma lei de potência I = q-? cujo expoente está relacionado a dimensão fractal de massa ou de superfície das estruturas. Devido a polidispersividade das unidades espalhadoras as dimensões fractais verificadas podem ser resultados de dimensões reais encobertas por uma distribuição de tamanhos. As curvas obtidas para a cinética de gelificação e envelhecimento dos géis úmidos mostram expoentes que indicam fractalidade de massa e, posteriormente, de superfície. Uma microestrutura composta, que pode resultar de uma agregação limitada por difusão (DLA) seguido de agregação de agregados (C-C) foi observado nas soluções básicas. Por outro lado, os agregados ácidos parecem surgir do crescimento contínuo de cadeias até atingir a interligação com outros agregados com uma cinética que pode ser descrita pelo modelo DLA. No estado de aerogeis outras técnicas como picnometria de mercúrio e hélio, microscopia eletrônica de transmissão e adsorção de gás de nitrogênio, foram também aproveitadas. Nestes materiais encontramos em uma faixa estreita de escala, um expoente indicando fractalidade de massa, embora com superfície lisa. Os resultados estão de acordo com um modelo de estrutura que tem uma matriz de SiO2 densa. A estrutura fractal desaparece durante o tratamento térmico de densificação devido ao rearranjo estrutural. / Systematic SAXS studies have been performed at the LURE synchrotron (Orsay) using an intense beam of point-like cross-section to describe the kinetic and the structure obtained during the sol-> humid gel -> dry gel ->silica glass. The analysis were done in terms of a power law, I = q-? , whose exponent is related to mass and surface fractal dimensions of the structures. Due to polidispersity of the scattering units the found fractal dimensions can be \"smeared\" dimensions that result from a size distribution. All the kinetic and aging humids curves showed evidenced of fractal structures. A composed microstructure that can be originated by clustering of clusters (C-C) of primary units grown by diffusion limited-aggregation (DLA), was observed for basic gels. By other hand, the acidic cluster seems to grow continuously reaching gelation through crosslinking of the clusters. The DLA model seems to describe this process. In the aerogels study others techniques like density measurements using Hg and He, TEM and adsorption of N2 gas were done along with SAXS measurements. Here we could find a narrow range in which the system is a mass fractal, although its surface has been already smoothened. The results agree with a dense SiO2 matrix model. During the densification no fractal structure was verified due to structural rearrangements at high temperature.

Aerogéis

Espalhamento de raios-X em ângulo baixo

Géis de sílica

Processo Sol-gel

SAXS

Vidros de sílica

Aerogels

Kinetic of formation of silica gels

SAXS

Silica gels

Silica glasses

Small angle X-ray scattering

Sol-gel process