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A Novel Approach to Label-Free Biosensors Based on Photonic Bandgap StructuresGarcía Castelló, Javier 07 February 2014 (has links)
The necessity of using extremely high sensitivity biosensors in certain research areas has remarkably increased during the last two decades. Optical structures, where light is used to transduce biochemical interactions into optical signals, are a very interesting approach for the development of this type of biosensors. Within optical sensors, photonic integrated architectures are probably the most promising platform to develop novel lab-on-a-chip devices. Such planar structures exhibit an extremely high sensitivity, a significantly reduced footprint and a high multiplexing potential for sensing applications. Furthermore, their compatibility with CMOS processes and materials, such as silicon, opens the route to mass production, thus reducing drastically the cost of the final devices. Optical sensors achieve their specificity and label-free operation by means of a proper chemical functionalization of their surfaces. The selective attachment of the receptors allows the detection of the target analytes within a complex matrix.
This PhD Thesis is focused on the development of label-free photonic integrated sensors in which the detection is based on the interaction of the target analytes with the evanescent field that travels along the structures. Herein, we studied several photonic structures for sensing purposes, such as photonic crystals and ring resonators. Photonic crystals, where their periodicity provokes the appearance of multiple back and forth reflections, exhibits the so-called slow-light phenomenon that allows an increase of the interaction between the light and the target matter. On the other hand, the circulating nature of the resonant modes in a ring resonator offers a multiple interaction with the matter near the structure, providing a longer effective length.
We have also proposed a novel approach for the interrogation of photonic bandgap sensing structures where simply the output power needs to measured, contrary to current approaches based on the spectral interrogation of the photonic structures. This novel technique consists on measuring the overlap between a broadband source and the band edge from a SOI-based corrugated waveguide, so that we can determine indirectly its spectral position in real-time. Since there is no need to employ tunable equipment, we obtain a lighter, simpler and a cost-effective platform, as well as a real-time observation of the molecular interactions. The experimental demonstration with antibody detection measurements has shown the potential of this technique for sensing purposes / García Castelló, J. (2014). A Novel Approach to Label-Free Biosensors Based on Photonic Bandgap Structures [Tesis doctoral]. Universitat Politècnica de València. https://doi.org/10.4995/Thesis/10251/35398
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Defect-Mediated Trafficking across Cell Membranes: Insights from in Silico ModelingGurtovenko, Andrey A., Anwar, Jamshed, Vattulainen, I. January 2010 (has links)
No / Review article. No abstract.
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Análise funcional do fator de transcrição DREB6A de feijão (Phaseolus vulgaris L.) pela superexpressão em Arabidopsis thaliana / Functional analysis of the transcription factor DREB6A from common bean (Phaseolus vulgaris L.) by overexpression in Arabidopsis thalianaPereira, Ana Carolina Vieira Zakir 03 June 2014 (has links)
Estresses abióticos como seca, alta salinidade e baixas temperaturas, afetam o crescimento e a produtividade em culturas de interesse comercial como o feijoeiro comum. Proteínas DREB (Dehydration Responsive Element Binding) são fatores de transcrição que regulam genes específicos envolvidos na tolerância ao estresse abiótico. Para determinar como as plantas toleram condições ambientais adversas, variedades tolerantes, biologia molecular e bioinformática podem ser aplicadas para identificar e caracterizar genes que controlam mecanismos de adaptação a estresses. Baseado nas informações disponíveis nos bancos de dados públicos, a sequência da Orf completa do gene Phvul.009G029600.1| PACid:27146455 contendo 1062 pb foi encontrada e usada para o desenho dos primers e para o sequenciamento. A nova sequência é muito similar ao AtRAP2.4 e foi nomeada como PvDREB6A, segundo a análise filogenética. Ferramentas de predição mostraram que a sequência apresenta 354 aminoácidos e possui uma cópia do domínio AP2, que se dobra em uma estrutura com três ?-folhas e uma ?-hélice apresentando resíduos importantes e motivos específicos de reconhecimento e de ligação ao DNA. Além disso, um peptídeo trânsito foi detectado na porção N-terminal com um sítio de clivagem no resíduo 52. A interação deste fator de transcrição com seu domínio de ligação ao DNA foi validada por Electro Mobility Shift Assay (EMSA). A localização subcelular da proteína foi realizada e expressão da Green Fluorescent Proteín (GFP) foi detectada no núcleo. A transformação genética para a superexpressão do gene PvDREB6A em plantas de Arabidopsis thaliana Columbia-0 e mutantes nocaute para o gene AtRAP2.4 (Salk_020767C) foi realizada. Quatro eventos com cópia única e melhor expressão do gene PvDREB6A denominados Col-0/pFEC2.1 #1, Salk_020767C/pFEC2.1 #13.1, Salk_020767C/ pFEC2.1 #19.7 e Salk_020767C/ pFEC2.1 #23.7, foram selecionados. O evento Salk_020767C/pFEC2.1 #23.7 mostrou melhor expressão do gene PvDREB6A e foi visualizado sob luz UV. A análise funcional revelou que as plantas transgênicas submetidas ao déficit hídrico, à alta salinidade e ao frio, apresentaram maior taxa de sobrevivência. Plantas transgênicas superexpressando o gene PvDREB6A apresentaram menor taxa de desidratação e de vazamento de eletrólitos quando submetidas a estresses abióticos. Uma análise da expressão de genes relacionados à tolerância foi conduzida. A quantificação revelou que a expressão de 18 genes: AtDC1.2, AtUSP, AtKIN1, AtERF69, AtGolS3, AtMT2A, AtCAP160, AtNTR1.7, AtGPR7, AtPDC2, AtLTI78, AtCOR15a, AtCOR15b, AtCOR47, AtCOR413, AtLEA6, AtLEA9 e AtLEA14, relacionados a tolerância a seca, sal e frio foram up-regulated devido à superexpressão do gene PvDREB6A de feijoeiro nas plantas transgênicas / Abiotic stresses like drought, high salinity and low temperatures affect growth and productivity in crops of economic interest such as common bean. DREB (Dehydration Responsive Element Binding) proteins are transcription factors that activate specific genes involved in tolerance to abiotic stress. To generate new information on the research for drought and other abiotic stresses, tolerant varieties, molecular biology and bioinformatics can be applied to identify and characterize genes that control plant defense and adaptation mechanisms to water deprivation, to excessive salt and to high/low temperature. Based on public databases, a common bean DREB sequence was found and an in silico study was carried out. A complete Orf sequence Phvul.009G029600.1 |PACid:27146455 containing 1062 bp was found and used for primer design and sequencing. The new sequence was very similar to AtRAP2.4 and named as PvDREB6A, according to phylogenetic analysis. Prediction tools showed that the deduced 354 aa sequence has one copy of the AP2 domain, folding in a three ?-sheets and one ?-helix structure, and presenting important residues and motifs for DNA contacting and binding specificity. In addition, a chloroplast transit peptide was detected at the N-terminal region with cleavage site in the 52 residue. Binding activity of this transcription factor was validated by Electro Mobility Shift Assay (EMSA). Subcellular localization was verified by transient expression of PvDREB6A::GFP in Nicotiana benthamiana and the expression of GFP was detected at the nucleus. Genetic transformation for overexpression of PvDREB6A gene in Arabidopsis thaliana wild type and knockout mutant for AtRAP2.4 gene was conducted. Four single copy events with better expression of the PvDREB6A named Col-0/pFEC2.1 #1, Salk_020767C/pFEC2.1 #13.1, Salk_020767C/pFEC2.1 #19.7 and Salk_020767C/pFEC2.1 #23.7 were selected. The event Salk_020767C/pFEC2.1 #23.7 showed the best expression of PvDREB6A and was visualized under UV light. Functional analysis, revealed that transgenic plants under water deficit, high salt, and cold showed higher survival rate. Transgenic plants overexpressing the PvDREB6A exhibited lower water loss rate and electrolyte leakage rate under abiotic stress. A gene expression analysis with tolerant-related genes was conduted. The quantification revealed that 18 genes, AtDC1.2, AtUSP, AtKIN1, AtERF69, AtGolS3, AtMT2A, AtCAP160, AtNTR1.7, AtGPR7, AtPDC2, AtLTI78, AtCOR15a, AtCOR15b, AtCOR47, AtCOR413, AtLEA6, AtLEA9 e AtLEA14, related to drought, salt and cold tolerance, were up-regulated due to the overexpression of PvDREB6A from common bean in the transgenic plants
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Conception de ligands protéiques artificiels par ingénierie moléculaire in silicoBaccouche, Rym 30 November 2012 (has links) (PDF)
Les travaux réalisés portent sur la conception de ligands protéiques capables de cibler le site catalytique des métalloprotéases matricielles (MMPs) grâce à une méthode d'ingénierie développée au laboratoire qui repose sur le greffage de motifs fonctionnels. Le motif fonctionnel choisi correspond aux 4 résidus N-terminaux du TIMP-2, un inhibiteur naturel des MMPs. Des plates-formes protéiques possédant des motifs d'acides aminés dans une topologie similaire à celle du motif de référence dans le complexe TIMP-2/MMP-14 ont été identifiées par criblage systématique de la PDB à l'aide du logiciel STAMPS (Search for Three-dimensional Atom Motif in Protein Structure). Dix candidats ligands satisfaisant les contraintes topologiques, stériques et de similarité électrostatique avec le ligand naturel TIMP-2 ont été sélectionnés. Ces ligands ont été produits par synthèse chimique ou par voie recombinante puis leur capacité à inhiber une série de 6 MMPs a été évaluée. Les résultats indiquent que tous les ligands protéiques conçus in silico sont capables de lier les sites catalytiques des MMPs avec des constantes d'association allant de 450 nM à 590 mM, sans optimisation supplémentaire. La caractérisation structurale par diffraction X de 2 variants d'un de ces ligands protéiques a permis de montrer que les interactions établies par le motif 1-4 dans ces ligands étaient similaires à celles observées dans le complexe TIMP-2/MMP-14, avec cependant des différences dans la géométrie de certaines d'entre elles. Des études de simulation par dynamique moléculaire ont également permis de mettre en évidence de possibles différences dans la géométrie et la stabilité de certaines des interactions reproduites dans les 10 plates-formes, pouvant contribuer aux affinités modestes observées pour ces ligands. Cependant, les résultats obtenus montrent que la méthode de conception in silico utilisée est capable de fournir une série de ligands protéiques de 1ère génération ciblant de manière spécifique un site catalytique d'intérêt avec un bon rendement. Cette méthode pourrait constituer la 1ère étape d'une approche hybride de conception in silico de ligands combinée à des techniques de sélection expérimentales.
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Conception rationnelle de nouvelles protéines thérapeutiques dans l'hémophilie : variants du facteur Xa dépourvus du domaine GlaMarlu, Raphaël 07 February 2013 (has links) (PDF)
Introduction : L'hémophilie est une maladie génétique de la coagulation due à un déficit en facteur VIII ou en facteur IX. Ces déficits sont responsables d'un déficit du complexe ténase intrinsèque (VIIIa-IXa). De plus, le complexe ténase extrinsèque (facteur tissulaire - VIIa) est physiologiquement rapidement inhibé par le TFPI lié au facteur Xa. Nous avons évalué la capacité d'une forme tronquée du facteur Xa (GDXa), dépourvue de domaine Gla à se lier au TFPI et à soulager l'inhibition physiologique du complexe ténase extrinsèque. Matériel et Méthodes : Dans une première partie, nous avons évalué la capacité du GDXa à restaurer la génération de thrombine de plasmas d'hémophiles A et B sévères sans et avec inhibiteurs. Nous avons également comparé les profils de génération de thrombine obtenus après addition du GDXa à ceux obtenus en présence d'anticorps neutralisants anti-TFPI ou anti-antithrombine. Enfin, nous avons comparé les cinétiques enzymatiques de neutralisation du facteur Xa et du GDXa par le TFPI et l'antithrombine. Dans une seconde partie, nous avons étudié in silico les interactions entre la chaîne lourde du facteur Xa et le TFPI pour détecter les zones d'interaction défavorables. Cette étude a identifié des acides aminés du facteur Xa qui pourraient être substitués pour optimiser l'interaction avec le TFPI. Les résultats in silico ont orienté nos choix de mutagenèse dirigée pour concevoir différents variants moléculaires du GDXa (R138F, R138G, R138I) où l'arginine 138 est substituée. Ces variants protéiques ont été produits de façon recombinante dans des cellules HEK293E. La capacité des différents variants à restaurer la génération de thrombine de plasmas d'hémophiles a été testée avec les surnageants de culture cellulaires correspondants. Résultats : Dans la première partie, nous avons montré que le GDXa est capable de restaurer la génération de thrombine de plasmas d'hémophiles A et B sans et avec inhibiteurs. Comparativement au facteur Xa, le GDXa montre une affinité moindre pour le TFPI tandis que les affinités du GDXa et du facteur Xa pour l'antithrombine sont identiques. Enfin, malgré une demi-vie courte, l'effet du GDXa sur la génération de thrombine est maintenu pendant au moins une heure. Dans la seconde partie, nous avons produit les différents variants R138F, R138G et R138I en cellules HEK293E et montré que les surnageants de culture cellulaire étaient capables de restaurer la génération de thrombine de plasmas d'hémophiles de façon plus efficace que le GDXa. Conclusion : Comme le GDXa est capable de restaurer la génération de thrombine de plasmas d'hémophiles, nos résultats suggèrent que le GDXa pourrait être une alternative efficace aux thérapeutiques hémostatiques court-circuitantes actuelles chez les hémophiles sans ou avec inhibiteurs. Les résultats obtenus renforcent l'hypothèse que l'activité pro-coagulante du GDXa serait liée à la formation d'un complexe GDXa-TFPI limitant la formation du complexe Xa-TFPI nécessaire à l'inhibition physiologique du complexe ténase extrinsèque. De plus, notre approche rationnelle basée sur une étude in silico visant à augmenter l'affinité du TFPI pour le GDXa a permis de produire différents variants moléculaires du GDXa dont l'activité procoagulante in vitro est augmentée par rapport au GDXa.
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Etude fonctionnelle d'une protéine associée aux microtubules du fuseau mitotique chez la plante Arabidopsis thaliana : atMAP65-4Fache, Vincent 03 February 2011 (has links) (PDF)
AtMAP65-4 est une protéine associée aux microtubules appartenant à la famille des AtMAP65s qui compte 9 membres identifiés chez Arabidopsis thaliana. Ces protéines appartiennent à une famille conservée au cours de l'évolution, les MAP65s. Ainsi, des protéines homologues sont présentes chez de mammifères (PRC1), chez la levure (Ase1p) ou chez la drosophile (FEO). Jusqu'ici l'étude des propriétés moléculaires et fonctionnelles des AtMAP65s s'est portée essentiellement sur l'étude d'AtMAP65-1 et AtMAP65-5. La principale caractéristique de ces protéines est d'induire la formation de faisceaux de microtubules in vitro. La distribution des AtMAP65s in vivo est très régulée, celle-ci sont localisées avec des réseaux des microtubules bien définis. Ainsi, leur rôle supposé est de mettre en place ces réseaux puis de participer à leur maintient. La localisation d'AtMAP65-4 apparait comme très intéressante car elle est strictement associée avec les microtubules du fuseau mitotique. D'après les résultats obtenus au cours de ce travail, nous avons suggéré que la fonction in vivo d'AtMAP65-4 est de participer à la mise en place et au maintient des microtubules en faisceaux dans les fibres kinétochoriennes lors de la division cellulaire. Lors d'une étude in vitro nous avons montré qu'AtMAP65-4 modifie les paramètres dynamiques de polymérisation des microtubules. Outre sa capacité à former des faisceaux, AtMAP65-4 permet une croissance régulière des microtubules au sein des faisceaux qu'elle induit. Le mécanisme d'action de la MAP à l'échelle moléculaire a été analysé à travers une étude bioinformatique où nous avons modélisé l'activité d'AtMAP65-4. Les données obtenues montrent qu'AtMAP65-4 peut bloquer les évènements de dépolymérisation des microtubules. Par ailleurs, l'activité d'AtMAP65-4 pourrait être régulée in vivo par des modifications post traductionnelles. En effet, nous avons montré et étudié l'effet de la phosphorylation d'AtMAP65-4 par les kinases Auroras. Cette phosphorylation pourrait être impliquée dans la régulation de l'activité d'AtMAP65-4 au cours de la mitose.
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RF mixed signal design and layout synthesis with object-oriented C++ for nanometre SOI CMOS /Karam, Victor F., January 1900 (has links)
Thesis (M. App. Sc.)--Carleton University, 2005. / Includes bibliographical references (p. 79-82). Also available in electronic format on the Internet.
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Evaluation et application de méthodes de criblage in silico / Evaluation and application of virtual screening methodsGuillemain, Hélène 25 October 2012 (has links)
Lors de la conception de médicaments, le criblage in silico est de plus en plus utilisé et lesméthodes disponibles nécessitent d'être évaluées. L'évaluation de 8 méthodes a mis enévidence l'efficacité des méthodes de criblage in silico et des problèmes de construction de labanque d'évaluation de référence (DUD), la conformation choisie pour les sites de liaisonn'étant pas toujours adaptée à tous les actifs. La puissance informatique actuelle le permettant,plusieurs structures expérimentales ont été choisies pour tenter de mimer la flexibilité dessites de liaison. Un autre problème a été mis en évidence : les métriques d'évaluation desméthodes souffrent de biais. De nouvelles métriques ont donc été proposées, telles queBEDROC et RIE. Une autre alternative est proposée ici, mesurant la capacité prédictive d'uneméthode en actifs. Enfin, une petite molécule active sur le TNFα in vitro et in vivo sur souris aété identifiée par un protocole de criblage in silico. Ainsi, malgré le besoin d'amélioration desméthodes, le criblage in silico peut être d'un important soutien à l'identification de nouvellesmolécules a visée thérapeutique. / Since the introduction of virtual screening in the drug discovery process, the number ofvirtual screening methods has been increasing and available methods have to be evaluated.In this work, eight virtual screening methods were evaluated in the DUD database, showingadequate efficiency. This also revealed some shortcomings of the DUD database as thebinding site conformation used in the DUD was not relevant for all the actives.As computational power now permits to address this issue, classical docking runs have beenperformed on several X-ray structures, used to represent the binding site flexibility. This alsorevealed that evaluation metrics show some biases. New evaluation metrics have thus beenproposed, e.g. BEDROC and RIE. An alternative method was also proposed usingpredictiveness curves, based on compound activity probabilityFinally, a virtual screening procedure has been applied to TNFa. A small molecule inhibitor,showing in vitro and in vivo activity in mice, has been identified. This demonstrated the valueof virtual screening for the drug discovery process, although virtual screening methods needto be improved.
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In Silico Perspectives on RNA Structures Modulating Viral Gene Expression and Mechanics of tRNA TransportGupta, Asmita January 2015 (has links) (PDF)
The repertoire of cellular functions mediated by Ribonucleic acid (RNA) molecules have expanded considerably during the last two decades. The role played by RNA in controlling and regulating gene expression in viruses, prokaryotes and eukaryotes has been a matter of continuous investigations. This interest has arisen primarily due to the discoveries of cisacting RNA structures like riboswitches, ribosensors and frameshift elements, which are found in either the 5’-, 3’-untranslated regions of mRNA or in the open reading frames. These structures control gene expression at the level of translation by either sequestering the Shine-Dalgarno (SD) sequence to regulate translation initiation or modulating ribosomal positions during an active translation process. Very often, these structures comprise of an RNA pseudoknot and it has been observed that these pseudoknots exist in a dynamic equilibrium with other intermediate structures. This equilibrium could be shifted by several factors including presence of ions, metabolites, temperature and external force. RNA pseudoknots represent the most versatile and ubiquitous class of RNA structures in the cell, whose unique folding topology could be exploited in a number of ways by the cellular machinery.
In this thesis, a thorough study of programmed -1 ribosomal frameshifting (-1 PRF) process, which is a well known gene regulation event employed by many RNA viruses, was carried out. -1 PRF is a translation recoding process, necessary for viruses to main-tain a stoichiometric ratio of structural: enzymatic proteins. This ratio varies among different viral species. At the heart of this process, lies an RNA pseudoknot accompanied by a seven nucleotide long sequence motif, which pauses an actively translating ribosome on mRNA and causes it to shift its reading frame. The frameshift inducing efficiency of pseudoknot depends on multiple factors, for example the time scale of ribosomal pause and RNA unfolding, subsequent refolding of structure to native/intermediate states and/or environment conditions. With the aim of illustrating the fundamentals of the process, multiple factors involved in -1 PRF were studied. Chapters 2-4 represent distinct aspects of -1 PRF process, while Chapter 5 discusses a different work concerned with nucleocytoplasmic transport of tRNA carried out by nuclear export receptor Exporting.
Chapter 1 gives an overview of the different regulatory activities with which RNA structures and sequences are found to be associated and the evolution of these stud-ies. It discusses the different types of structural motifs found to constitute tertiary RNA structure and secondary structure prediction and determination techniques. A brief description of ab initio RNA structure modeling and other relevant tools and methodologies used in this work has been presented. Details of techniques used in each study have been provided in relevant chapters.
Chapter 2 describes how local factors like ionic conditions, hydration patterns, presence of protonated residues and single residue mutations affect the structural dynamics of an RNA pseudoknot involved in -1 PRF from a plant luteovirus. Single residue mutations in the loop regions or certain base-pair inversions in the stem regions of pseudoknot increase the frameshift inducing ability of the pseudoknot structure, while some others decrease this efficiency. However, it was not clear how the changes made to the wild-type (WT) RNA pseudoknot from Beet Western Yellow Mosaic virus were affecting the global structure in terms of its dynamics and other parameters. To study this, multiple all-atom molecular dynamics simulations (MD) were performed on WT and mutant structures created in silico. The effect of presence and absence of magnesium ions on the structural geometry was also studied. The analysis was done to identify the increase/decrease in the number of hydrogen bonds formed by Watson-Crick base-pairs in stem region or non Watson-Crick pairs between stem and loop. Ionic and water densities were analyzed and the role of potential ribosome-pseudoknot interaction was elaborated.
With the aim of mimicking ribosome induced unfolding of an RNA pseudoknot, steered molecular dynamics pulling experiments were performed. This work was done primarily to understand the unfolding pathway of Hairpin(H)-type pseudoknots in general and the intermediate structures formed. Chapter 3 describes the thermodynamics and mechanics associated with the mechanical pulling of -1 PRF inducing RNA pseudoknot and its mutants described in previous chapter. Analysis of the trajectories reveal relative unfolding patterns in terms of disruption of various hydrogen bonds. This study allowed us to pinpoint the kind of intermediate structures being formed during pulling and whether these intermediate structures correspond to any known secondary structures, such as simple stem-loops. This information could be used for gaining insights into the folding pathways of these structures.
An RNA pseudoknot stimulates -1 PRF in conjunction with a heptanucleotide “slippery site” and an intervening spacer sequence. A comprehensive study of analyzing the sequence signatures and composition of all overlapping gene segments harboring these frameshift elements from four different RNA virus families was carried out. Chapter 4 describes the sequence composition of all overlapping gene segments in Astroviridae, Coronaviridae, Retroviridae and Luteoviridae viral families which are known to employ -1 PRF process for maintaining their protein products. Sequence analysis revealed preference for GC bases in the structure forming sequence regions. A comparative study between multiple sequence alignment and secondary structure prediction revealed that while pseudoknots have a clear preference for specific base-pairs in their stem regions, viral families that employ a hairpin loop as -1 PRF structure, doesn’t show this preference. Information derived from secondary structure prediction was then used for RNA ab initio modeling to generate tertiary structures. Furthermore, the structural parameters were calculated for the helices of the frameshift inducing pseudoknots and were compared with the values calculated for a set of non -1 PRF inducing H-type pseudo-knots. This study highlighted the differences between -1 PRF pseudoknots and other H-type pseudoknot structures as well as specific sequence and structural preferences of the former.
Chapter 5 discusses the dynamics of a tRNA transport factor Exportint (Xpot), which transports mature tRNA molecules from nucleus to cytoplasm and belongs to Importitβ family of proteins. The global conformational dynamics of other transport receptors has been reported earlier, using coarse-grained modeling and Elastic Network Models (ENMs), but a detailed description of the dynamics at an all-atomic resolution was lacking. This transport requires association of Xpot with RanGTP, a G-protein, in the nucleus and hydrolysis of RanGTP in the cytoplasm. The chain of events leading to tRNA release from Xpot after RanGTP hydrolysis was not studied previously. With these objectives, several molecular complexes containing Xpot bound to Ran or tRNA or both in the GTP and GDP ligand states as well as free Xpot structures in nuclear and cytosolic forms were studied. A combination of conventional and accelerated molecular dynamics simulations was used to study these molecular complexes. The study highlighted various aspects associated with tRNA release and conformational change which occurs in Xpot in cytosolic form. The nuclear to cytosolic state transition in Xpot could be attributed to large fluctuations in C-terminal region and dynamic hinge-points located between specific HEAT repeats. A secondary role of Xpot in controlling the quality of tRNA transport has been proposed based on multiple sequence and structure alignment with Importin-β protein. The loss of critical contacts like hydrogen bonds and salt bridges between Xpot/Ran and Xpot/tRNA interface was evaluated in order to study the initial effects of RanGTP hydrolysis and how it influences receptor-cargo binding. This study revealed various aspects of tRNA transport process by Xpot, not understood previously.
The results presented in this thesis illustrate the role of RNA sequence elements and pseudoknots present in RNA viruses in modulating -1 PRF process and how multiple environmental factors affect -1 PRF inducing ability of the structure. From the studies of Xpot and its complexes, the effects of GTP hydrolysis leading to tRNA dissociation have been presented and the progression of conformational transition in Xpot after tRNA dissociation has been highlighted. Chapter 6 summarizes major conclusions of this thesis work.
The refolding of single stranded RNA chains, subjected to a previous unfolding simulation is studied. Appendix A describes this work and initial results. Appendix B describes the effect of improved molecular dynamics force fields, containing corrections for χ torsion angle for RNA, on the conformation of tertiary RNA structures.
Part of the work presented in this thesis has been reported in the following publications.
1.Asmita Gupta and Manju Bansal. Local Structural and Environmental Factors De-fine the Efficiency of an RNA Pseudoknot Involved in Programmed Ribosomal Frameshift Process. J. Phys. Chem. B. 118 (41), pp 11905-11920. 2014
2.Asmita Gupta, Senthilkumar Kailasam and Manju Bansal. Insights Into Nucleo-cytoplasmic Transport of tRNA by Exportin-t. Manuscript under review.
List of manuscripts that are being prepared from the work reported in Chapter 3 in this thesis.
1 Asmita Gupta and Manju Bansal. The role of sequence effects on altering the un-folding pathway of an RNA pseudoknot: a steered molecular dynamics study. Manuscript in preparation.
2 Asmita Gupta and Manju Bansal. Molecular basis for nucleocytoplasmic transport of tRNA by Exportin-t. Journal of Biomolecular Structure and Dynamics, May;33 Suppl 1:59-60, 2015
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Flora??o precoce em cana-de-a??car - um estudo utilizando ferramentas de an?lise in silico e prote?micaDuarte, Maria Ang?lica Gaag 26 February 2009 (has links)
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Previous issue date: 2009-02-26 / Sugarcane is one of the most important products of the world and Brazil is responsible for 25 % of the world production. One problem of this culture at northeast of Brazil is the early flowering. In our laboratory, it has been made before four
subtractive libraries using early and late flowering genotypes in order to identify messages related to the flowering process. In this work, two cDNAs were chosen to make in silico analysis and overexpression constructs. Another approach to
understand the flowering process in sugarcane was to use proteomic tools. First, the protocol for protein extraction using apical meristem was set up. After that, these proteins were separated on two bidimensional gels. It was possible to observe some difference for some regions of these gels as well as some proteins that can be found in all conditions. The next step, spots will be isolated and sequence on MS
spectrometry in order to understand this physiological process in sugarcane / A cana-de-a??car ? uma das mais importantes culturas mundiais e atualmente o Brasil representa um dos maiores produtores de cana-de-a??car no ranque mundial. Sabendo-se da import?ncia da cana-de-a??car nos dias atuais, principalmente em rela??o ao biocombust?vel e do problema causado pela flora??o precoce a esta cultura na regi?o Nordeste, foi realizada uma an?lise in silico de dois cDNAs:, 14-3-3 like protein e Protein kinase C inhibitor-like (PKCI), envolvidos no processo de flora??o da cana-de-a??car, utilizando ferramentas gen?micas. Foi escolhido o cDNA PKCI para a constru??o de cassetes de super-express?o de modo a ser caracterizado o papel deste cDNA no processo de flora??o. Outra abordagem utilizada nesse trabalho foi de analisar prote?nas totais de ?pices meristem?ticos de
variedades precoce e tardia em g?is uni e bidimensionais. Os resultados mostraram que existem algumas prote?nas que podem ser caracter?sticas de uma das variedades, e em outras foi observado uma express?o diferencial
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