• Refine Query
  • Source
  • Publication year
  • to
  • Language
  • 7
  • Tagged with
  • 9
  • 9
  • 4
  • 3
  • 3
  • 3
  • 2
  • 2
  • 2
  • 2
  • 2
  • 2
  • 2
  • 2
  • 2
  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

Etude des effets de pH sur l'activité photo-induite de biomolécules à l'aide d'une approche multi-échelle CpHmD-puis-QM/MM / Investigating the ph-dependence of biomolecule photoactivity using a multiscale CpHMD-then-QM/MM approach

Pieri, Elisa 02 November 2018 (has links)
Un changement de pH peut induire une modification des propriétés chimiques et physiques des molécules, par exemple leur interaction avec la lumière. La modélisation de tels phénomènes est complexe en raison de l’ensemble statistique des états de protonation microscopiques et de la nature quantique de la propriété étudiée. Dans cette thèse, nous présentons un protocole de calcul qui associe une méthode capable d'échantillonner à la fois ces micro-états et les changements structuraux à un pH donné, et un cadre traitant la partie pertinente de la macromolécule avec des traitements avancés de mécanique quantique et le reste du système avec la mécanique moléculaire classique. Nous rapportons également la validation de ce protocole sur le relativement petit peptide M et son application à la rhodopsine sensorielle d'Anabaena, une protéine microbienne. Nous avons pu révéler quels sont les acides aminés titrables responsables du spectre d'absorption dépendant du pH de cette biomolécule / A change in the pH can modify the chemical and physical properties of molecules such as the way they interact with light. Modeling such phenomena is complex, because of the statistical ensemble of microscopic protonation states and of the very quantum nature of the property of interest. In this thesis, we present a computational protocol which merges a method capable of sampling at the same time these microstates and the structural changes at a given pH, and a framework treating the relevant portion of the macromolecule with advanced quantum mechanics treatments and the rest of the system with classical molecular mechanics. We also report the validation of this protocol on the relatively small peptide M and its application to the anabaena sensory rhodopsin, a microbial protein. We have revealed which are the titratable amino-acids responsible for the pH-dependent absorption spectrum of this biomolecule
2

An NMR-based Biophysical Study of Protein-Gold Nanoparticle Interactions

Wang, Ailin 07 May 2016 (has links)
The favorable interaction between proteins and nanoparticles has sparked potential applications of nanotechnology in medicine, and the unique electronic and chemical properties of nanoparticles also provide novel strategies for protein-related therapeutics. The formation of the biocorona has attracted substantial interest over the past decades. For instance, as a potential drug delivery mechanism, protein-coated nanoparticles can improve biocompatibility and increase targeting ability. However, the mechanistic details of protein-nanoparticle interactions remain poorly understood. For example, it is currently impossible to predict the orientation and structure of proteins on the nanoparticle surface, as well as the fate of the biocorona in vivo. Since the composition of the biocorona determines the biological response, identifying and stabilizing the biocorona seems critical for the further development of applications in biological system. In this study, we investigated the physicochemical properties of protein interactions with gold nanoparticles (AuNPs). Firstly, we developed an NMR-based approach for measuring the stoichiometry of protein adsorption to AuNPs, which can be generally applied to globular proteins of different size. Quantitative analysis enabled us to create a protein binding model that involves an initial association, structure reorientation and irreversible adsorption. Secondly, we measured the protein hydrogen-deuterium exchange rates and found that they were unperturbed in the presence of AuNPs, suggesting that proteins retain their globular structure upon adsorption. Finally, we investigated the electrostatic contribution to binding, and we identified a dynamically changing surface in which the factors of net charge, binding affinity and protein size play distinct roles at different phases.
3

Biosorption of Cobalt by Using Pseudomonas Aerguinosa Bacterial Strain

Dharanguttikar, Abhaysinh Arvind 28 June 2018 (has links)
A study of biosorption of cobalt metal by Pseudomonas Aerguinosa gram-negative bacterial strain is presented. The present study is carried out to determine the optimum conditions of cobalt biosorption at ultra-low concentration (ppb range) in aqueous solutions. The receptiveness of cobalt metal on the extracellular surface of bacterial strain was examined by varying the pH, Initial concentration of metal and treatment time. Experimental data showed that effect of pH and treatment time is prevalent in biosorption of cobalt and by increasing both these parameters resulted in the efficient sorption of cobalt on the extracellular surface of Pseudomonas Aerguinosa. In some cases, higher initial concentration of cobalt resulted in higher metal removal. However, there is no clear relationship is obtained between efficiency of biosorption and initial concentration of cobalt.
4

Interpreting a Giant : Studies of Structure and Function of Tripeptidyl-peptidase II

Eklund, Sandra January 2011 (has links)
Tripeptidyl-peptidase II (TPP II) is a subtilisin-like serine peptidase that forms a gigantic homooligomeric complex, and is involved in the degradation of peptides in the cytosol. In addition, TPP II has been implicated in specific cellular processes, such as apoptosis control and adipogenesis, but if this is dependent on its endo- or exopeptidase activity remains to be determined. This work is devoted to the structure and function of TPP II, and to finding connections between the two. Evolutionarily conserved regions of TPP II have been identified, and sequence signatures have been constructed as an aid in identification of TPP II homologues. The conserved regions highlight amino acid residues of potential importance to structure, function or both. In addition, the first TPP II homologue in a prokaryote has been documented, which was likely the result of a horizontal gene transfer. Substrate binding for the exopeptidase activity of TPP II has been studied through mutagenesis of Glu-331, which revealed a molecular ruler mechanism that positions substrates for cleavage at the third peptide bond from the N-terminus. Thus, the well-known tripeptidyl-releasing property of TPP II could be explained. The exopeptidase activity was also probed by pH dependence studies, which revealed that a substrate with a smaller residue in the P1 position could bind non-productively to the active site. Furthermore, a difference in the pH dependence of KM between TPP II from Drosophila and homologues from mammals indicated a difference in the configuration of the binding pockets between these species. The endopeptidase activity of TPP II has also been investigated, and was found to differ from the exopeptidase activity. The endopeptidase activity appeared to be promiscuous and the preference for basic amino acid residues in the P1 position reported earlier could not be substantiated. In conclusion, many structural and mechanistic features have been observed in this work. This might be of value to future drug discovery efforts towards TPP II, and in elucidating the physiological role of this gigantic enzyme. / Felaktigt tryckt som Digital Comprehensive Summaries of Uppsala Dissertations from the Faculty of Science and Technology 721
5

Synthesis and analysis of puromycin analogues and amphiphilic peptidyl-RNA conjugates / Synthèse et analyse d’analogues de la uromycine et de conjugués peptidyl-ARN amphiphiliques

Kollappillil Somakumar, Krishnakumar 18 June 2010 (has links)
Une étude récente sur le transfert peptidique pH dépendant effectuée avec divers ARNt aminoacyles a révélé la dépendance au pH du transfert peptidique. L’instabilité hydrolytique rend impossible l’obtention de la valeur expérimentale du pKa de l’eau donné pour le groupement α-amino des esters 3'-aminoacyladenosine. Comme les analogues de la puromycine sont les analogues les plus proches du 3’-terminal des ARNt aminoacyles et qu’ils contiennent une liaison amide stable en position 3’, il est intéressant de déterminer la valeur du pKa du groupement α-amino de différents analogues de la puromycine mais aussi de corréler ces valeurs de pKa aux valeurs de pKa des groupements ARNt aminoacyles correspondants obtenues par le transfert peptidique pH dépendant. Le premier chapitre de la thèse se concentre sur la synthèse de différents analogues de la puromycine et sur la détermination de leur basicité par une analyse RMN pH dépendante. Ce chapitre discutera aussi la conformation intrinsèque des analogues de la puromycine mesurée par la pH dépendance de leur constante de couplage J1’-2’. Les synthèses d’analogues dinucléotidiques, d’un analogue xylo-puromycine et d’un analogue de désoxyxylopuromycine seront aussi décrites. Les conjugués peptidyl-ARN miment des fragments importants d’intermédiaires de la transduction. Ces analogues peuvent être utilisés comme outils expérimentaux pour comprendre l’évolution de la synthèse codée des peptides. L’innovation dans le concept de ‘négoce moleculaire’ entre les peptides, les oligonucléotides et les bicouches lipidiques, qui pourrait être à la base de l’évolution de la synthèse peptidique contrôlée par l’ARN, nous a poussé à synthétiser des conjugués peptidyl-ARN amphiphiliques et à étudier leurs interactions avec les bicouches lipidiques. Dans le deuxième chapitre les stratégies de synthèse sur support solide utilisant des analogues de puromycine comme élément constitutif seront discutées / A recent pH dependent peptidyl transfer assay in the ribosome with various aminoacyl tRNAs revealed the pH dependence of the peptidyl transfer. Hydrolytic instability makes impossible to obtain the experimental bulk water pKa data for the α-amino groups of 3'-aminoacyladenosine esters. Since puromycin analogues are the most similar analogues of the 3’-end of the aminoacyl tRNAs and they contain a stable amide bond in 3’-position, the determination of the pKa value of the α-amino groups of different puromycin analogues and correlation of these pKa values with those of α-amino groups of the corresponding aminoacyl tRNAs obtained by pH dependent peptidyl transfer deserves attention. Chapter 1 of the thesis focuses on the synthesis of different puromycin analogues and on the determination of their basicities by a pH dependent NMR analysis. This chapter also analyses the intrinsic conformations accessed by the puromycin analogues, as measured by the pH dependence of their J1’-2’ coupling constants. The synthesis of dinucleotide analogues, a xylo-puromycin analogue and a deoxyxylopuromycin analogue will also be described. Peptidyl-RNA conjugates mimic important fragments of natural intermediates of translation. These analogues can be used as an experimental tool to understand the evolution of the coded synthesis of peptides. The novelty in the concept of a ‘molecular deal’ between peptides, oligonucleotides and lipidic bilayers, which may be the basis for the evolution of RNA controlled peptide synthesis, prompted us to synthesize amphiphilic peptidyl-RNA conjugates and to study their interactions with lipidic bilayers. In chapter 2 the solid support synthetic strategies using puromycin analogues as the building blocks will be discussed
6

The birth and growth of the protein folding nucleus : Studies of protein folding focused on critical contacts, topology and ionic interactions

Hedberg, Linda January 2008 (has links)
<p>Proteins are among the most complex molecules in the cell and they play a major role in life itself. The complexity is not restricted to just structure and function, but also embraces the protein folding reaction. Within the field of protein folding, the focus of this thesis is on the features of the folding transition state in terms of growing contacts, common nucleation motifs and the contribution of charged residues to stability and folding kinetics. </p><p>During the resent decade, the importance of a certain residue in structure formation has been deduced from Φ-value analysis. As a complement to Φ-value analysis, I present how scatter in a Hammond plot is related to site-specific information of contact formation, Φ´(β<sup>TS</sup>), and this new formalism was experimentally tested on the protein L23. The results show that the contacts with highest Φ growth at the barrier top were distributed like a second layer outside the folding nucleus. This contact layer is the critical interactions needed to be formed to overcome the entropic barrier. </p><p>Furthermore, the nature of the folding nucleus has been shown to be very similar among proteins with homologous structures and, in the split β-α-β family the proteins favour a two-strand-helix motif. Here I show that the two-strand-helix motif is also present in the ribosomal protein S6 from<i> A. aeolicus</i> even though the nucleation and core composition of this protein differ from other related structure-homologues. </p><p>In contrast to nucleation and contact growth, which are events driven by the hydrophobic effect, my most recent work is focused on electrostatic effects. By pH titration and protein engineering the charge content of S6 from <i>T. thermophilus</i> was altered and the results show that the charged groups at the protein surface might not be crucial for protein stability but, indeed, have impact on folding kinetics. Furthermore, by site-specific removal of all acidic groups the entire pH dependence of protein stability was depleted.</p>
7

The birth and growth of the protein folding nucleus : Studies of protein folding focused on critical contacts, topology and ionic interactions

Hedberg, Linda January 2008 (has links)
Proteins are among the most complex molecules in the cell and they play a major role in life itself. The complexity is not restricted to just structure and function, but also embraces the protein folding reaction. Within the field of protein folding, the focus of this thesis is on the features of the folding transition state in terms of growing contacts, common nucleation motifs and the contribution of charged residues to stability and folding kinetics. During the resent decade, the importance of a certain residue in structure formation has been deduced from Φ-value analysis. As a complement to Φ-value analysis, I present how scatter in a Hammond plot is related to site-specific information of contact formation, Φ´(βTS), and this new formalism was experimentally tested on the protein L23. The results show that the contacts with highest Φ growth at the barrier top were distributed like a second layer outside the folding nucleus. This contact layer is the critical interactions needed to be formed to overcome the entropic barrier. Furthermore, the nature of the folding nucleus has been shown to be very similar among proteins with homologous structures and, in the split β-α-β family the proteins favour a two-strand-helix motif. Here I show that the two-strand-helix motif is also present in the ribosomal protein S6 from A. aeolicus even though the nucleation and core composition of this protein differ from other related structure-homologues. In contrast to nucleation and contact growth, which are events driven by the hydrophobic effect, my most recent work is focused on electrostatic effects. By pH titration and protein engineering the charge content of S6 from T. thermophilus was altered and the results show that the charged groups at the protein surface might not be crucial for protein stability but, indeed, have impact on folding kinetics. Furthermore, by site-specific removal of all acidic groups the entire pH dependence of protein stability was depleted.
8

Membrane fusion mediated by the influenza virus hemagglutinin

Mair, Caroline 21 May 2015 (has links)
Der Eintritt von Influenza A Viren in Wirtszellen erfolgt anhand des Hämagglutinin (HA) Proteins. Neueste Entwicklungen zielen darauf ab, die fusionsinduzierende Konformations-änderung des HA und damit die Freisetzung des viralen Genoms in die Wirtszelle zu inhibieren. Der Fusionsprozess ist pH-abhängig da nur bei einem niedrigen pH-Wert (~5.0-6.0) die Protonierung bestimmter Reste innerhalb des HA eine Konformationsänderung, und somit die Membranfusion, auslöst. Die Identifizierung von konservierten, titrierbaren Resten und die Aufklärung der Strukturveränderungen im HA ermöglichen eine gezielte Entwicklung neuer antiviraler Medikamente. In dieser Arbeit wurden bestimmte Histidine im HA mittels umfassender experimenteller und theoretischer Methoden als potentielle pH-Sensoren untersucht. Dabei konnte das Histidin an Position 184 als wichtiger Schalter der pH-induzierten Konformationsänderung identifiziert werden. Außerdem bewirkte der Austausch des geladenen Rests an Position 216 in der Nähe des His184 eine Veränderung der pH-Abhängigkeit des H5 HA aufgrund der Beeinflussung des pKa-Werts des His184. Da die Mutation R216E im HA des hochpathogenen H5N1 Virus in allen Isolaten während der Vogelvirenseuche im Jahr 2003/04 detektiert wurde, deutet das Ergebnis daraufhin, dass diese Mutation zur Entstehung des hochvirulenten Vogelvirus und dessen Adaptierung an den Menschen beigetragen hat. In diesem Zusammenhang wurde auch der Einfluss der pH-Abhängigkeit des HA auf die Fusion und Infektiosität von Viren in lebenden Zellen getestet. Eine destabilisierende Mutation im HA eines rekombinanten WSN-H3 Virus reduzierte dessen Infektions- und Replikationseffizienz in MDCK-Zellen, was auf den endosomalen pH-Wert dieser Zellen zurückgeführt werden konnte. Die Messung der Virus-Endosom-Fusionskinetik in lebenden Zellen machte außerdem die Bedeutung der pH-Abhängigkeit des HA für den Zeitpunkt der Membranfusion und dessen Einfluss auf die Effizienz der Virusinfektion deutlich. / The entry of influenza A virus into host cells is established by the hemagglutinin (HA) protein. New antiviral strategies aim to inhibit the fusion inducing conformational change of HA and thereby liberation of the viral genome into the cell. This process is strictly pH dependent since the conformational change of HA initiating the fusion of membranes only occurs upon protonation of yet unknown residues within HA at low pH (~5.0-6.0). The identification of conserved titrable residues and better understanding of the sequential structural rearrangements within HA may facilitate the development of new broad-spectrum antivirals. In the present work His184 and His110 were characterized as potential pH sensors by a comprehensive mutational and computational analysis. The results suggest that His184, but not His110, is an important regulator of HA conformational change at low pH. Furthermore, an exchange of charge at position 216 in vicinity to His184 was shown to alter the pH dependence of conformational change and of fusion in correlation to the known pKa dependence of histidines on neighboring residues. The result advocates that the mutation R216E, which emerged in the highly pathogenic H5 HA in 2003-2004, contributed to an altered acid stability of H5 HA via its effect on His184 and thus to the adaptation of avian H5N1 viruses to the human host. Therefore, the role of an altered acid stability of HA for viral fusion and infectivity in living cells was assessed. Recombinant viruses containing a destabilizing mutation in the HA protein were found to have a reduced infectivity and replication efficiency in MDCK cells compared to the respective wild type. Studying virus-endosome fusion kinetics in these cells we could resolve a significant difference in the timing of fusion induction suggesting that the time-point of fusion is a critical determinant of viral infection efficiency which depends on the endosomal acidification as well as on the acid stability of HA.
9

Zinc and ruthenium quinone diimine complexes: synthesis and photophysical properties

Dollberg, Christopher L. 17 February 2004 (has links)
No description available.

Page generated in 0.064 seconds