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Substitutions of sulfonatocalix[4]arenes that lead to applications in biomolecular recognition and give rise to novel self-association phenomenaGarnett, Graham 23 December 2014 (has links)
The epigenetic post-translational modifications (PTMs) of histone proteins are numerous and have an important role in regulating cellular development. Molecular recognition elements that can bind directly to epigenetic PTMs have previously been developed. The most synthetically accessible of these are a family of molecules called monoaryl-trisulfonate calix[4]arenes. The initial goal of this thesis was to develop research tools consisting of these asymmetrically-derivatized calixarenes immobilized onto a solid resin for the purpose of enrichment of PTM-bearing species. Seven novel resin-immobilized calixarene reagents were created and employed in batch-wise pulldown experiments, as well as chromatographic separations. These experiments produced mixed results: poor efficacy was demonstrated in batch-binding experiments but total separation of certain PTM bearing peptides was achieved in a chromatographic approach. During these studies, a subset of these calixarenes were found to undergo self-association in water in a fashion not previously observed for calixarenes. Secondary goals of the thesis were to create new examples of this self-associating motif, and to characterize and develop structure-function relationships for their assemblies. Eight new self-associating calixarenes were developed and characterized extensively by 1H NMR, isothermal titration calorimetry (ITC), and X-ray crystallography. Self-association was shown to be enthalpically driven with Kd values ranging from 1-20 mM. The dimeric assembly behaviours were remarkably consistent across many different family members, and were shown to persist even in highly competitive media like mock blood and urine. This system represents a novel class of ordered calixarenes assemblies that operate in biological media. / Graduate / 2016-12-23
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Deoxygenation-dependent self-association of avian hemoglobinsRana, Mitra S. J. B. 08 October 2010 (has links)
Cooperative oxygen binding by vertebrate tetrameric hemoglobins (Hbs) has been extensively studied and is relatively well understood. Nonetheless, Hill coefficients greater than four have been reported for adult avian, amphibian, and reptilian red blood cells. Such reports also exist for embryonic red cells from various animals. These results are controversial and not yet convincingly established. Oxygen binding studies on avian Hb D, which is known to undergo deoxygenation-dependent self-association, were carried out to answer this question. The goal was to determine unequivocally whether Hill coefficients greater than four occur. Such high Hill coefficients were observed but only at very high Hb D concentrations. Moreover, the early model of avian deoxy Hb D self-association was found to be incomplete. The model has now been expanded to describe better the observed sedimentation data at high Hb concentrations. The possibility that embryonic deoxy Hbs self-associate was also assessed by sedimentation studies of deoxygenated Hb solutions from a marsupial, the tammar wallaby. The results obtained show unambiguously that these embryonic Hbs self-associate upon deoxygenation. Recent phylogenetic analyses suggest that the avian [alpha superscript D]-globin originated from embryonic [alpha]-globins. This finding suggests that the propensity to self-associate upon deoxygenation is an intrinsic property of tetrameric Hbs with embryonic [alpha]-globins. Furthermore the residues mediating the inter-tetramer interactions in adult avian deoxy Hb D and embryonic deoxy Hbs are likely to be the same. Recombinant globins were expressed in bacteria and protocols for the assembly of avian recombinant tetrameric Hb D developed. Initial measurements by sedimentation were carried out to verify the role of a conserved glutamate residue previously speculated to be involved in inter-tetramer interactions. The present studies provide a framework for future investigations of deoxygenation-dependent Hb self-association. In particular the need to carry out oxygen equilibrium measurements at high Hb concentrations as well as sedimentation studies of the deoxygenated Hb solutions is stressed. / text
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POLYMORPH FORMATION OF TOLFENAMIC ACID: AN INVESTIGATION OF PRE-NUCLEATION ASSOCIATIONMattei, Alessandra 01 January 2012 (has links)
The majority of pharmaceutical products are formulated as solids in the crystalline state. With the potential to exist in different crystalline modifications or polymorphs, each solid form bears its own physical and chemical properties, influencing directly bioavailability and manufacturability of the final dosage form. In view of the importance of crystalline form selection in the drug development process, it is imperative for pharmaceutical scientists to work arduously on various aspects of polymorphism, ranging from fundamental understanding of the phenomenon at the molecular level to practical utilization of a specific crystalline form. One common feature of organic crystals is the existence of distinct molecular conformations in different polymorphic structures, known as conformational polymorphism. Conformational polymorphs are routinely observed in drug development, produced when crystal growth conditions vary. Crystallization from solution involves nucleation and crystal growth, the mechanisms that influence the polymorphic outcome. The embryonic solute aggregate has been recognized to play a critical role in dictating the final crystal structure, and solution conditions are also known to drastically influence the self-association behavior of solute molecules during crystallization, affecting crystal packing of organic molecules. For the crystal growth of conformational polymorphs, changes in molecular conformation not only determine the growth kinetics, but also influence the nature and strength of interactions present in the crystal structures. How conformation and intermolecular interaction affect each other underlines the intricacy and the wonder of crystal growth of the organic. Thus, the overall goal of this research is to provide the fundamental understanding of the extent to which solution conditions influence the molecular conformation in the solid-state of a model drug, tolfenamic acid. By combining experimental studies with advanced computational tools, this dissertation offers novel insights into solution species during pre-nucleation and molecular packing of conformational polymorphs of tolfenamic acid. In-depth understanding of the underlying connection between molecular conformation and crystal packing will help advance the knowledge required for rational control of crystal growth.
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NMR approaches to understanding intramolecular and intermolecular interactions in proteinsPanova, Stanislava January 2017 (has links)
Inhibition of the intrinsically disordered proteins (IDP) is a recognized issue in drug research. Standard approaches, based on key-lock model, cannot be used in the absence of rigid structure and defined active site. Here a basic helix-loop-helix leucine zipper (bHLHZip) domain of c-Myc was studied, which is intrinsically disordered and prone to aggregation. Chemical denaturation of proteins is a widely accepted technique to study protein folding, but here this methodology was applied to IDP, observing its effect on the structural ensemble of c-Myc by NMR spectroscopy. Nonlinear chemical shift changes indicated cooperative unfolding of the helical structure of the part of the leucine zipper domain in parallel with the melting of the N-terminal helix. Paramagnetic relaxation enhancement (PRE) was used to probe long-range structure and revealed presence of long-range contacts. The following search for inhibitors can be directed to the search for ligands, locking c-Myc in its more compact conformation. Protein self-association is a problem typical for IDPs and intrinsic process for all proteins at high concentrations. It leads to increased viscosity, gelation and possible precipitation, which cause problems in protein manufacturing, stability and delivery. If protein drugs require high dosing, special approaches are needed. At high concentrations proteins experience conditions close to the crystal state, therefore interactions in solution could potentially coincide with crystal lattice contacts. A range of diverse methods is used to study this process, but the complexity of the mechanism makes it hard to build a reliable model. Here, the self-association of streptococcal Protein G (PrtG) was studied using Nuclear Magnetic Resonance (NMR) spectroscopy in solution. The properties of protein-protein interactions at high concentration, up to ~ 160 mg/ml, were studied at residue-level resolution. Residue specific information on protein dynamics was obtained using 15N relaxation measurements. The experiments were carried out at multiple concentrations. Variation in the rotational correlation time over these concentrations showed changes in the protein dynamics, which indicated weak protein-protein interactions occurring in solution. Pulsed-field gradient NMR spectroscopy was used to monitor translational diffusion coefficients in order to estimate the degree of protein self-association. Oligomer formation was also monitored by looking at variations in 1H and 15N amide chemical shifts. Better understanding of protein self-association mechanisms under different conditions could assist in developing methods to reduce the level of reversible protein self-association in solution at high protein concentrations.
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Thermochemical Study of Crystalline Solutes Dissolved in Ternary Hydrogen-Bonding Solvent MixturesPribyla, Karen J. 05 1900 (has links)
The purpose of this dissertation is to investigate the thermochemical properties of nonelectrolyte solutes dissolved in ternary solvent mixtures, and to develop mathematical expressions for predicting and describing behavior in the solvent mixtures. Forty-five ternary solvent systems were studied containing an ether (Methyl tert-butyl ether, Dibutyl ether, or 1,4-Dioxane), an alcohol (1-Propanol, 2-Propanol, 1-Butanol, 2-Butanol, or 2-Methyl-1-propanol), and an alkane (Cyclohexane, Heptane, or 2,2,4-Trimethylpentane) cosolvents. The Combined NIBS (Nearly Ideal Binary Solvent)/Redlich-Kister equation was used to assess the experimental data. The average percent deviation between predicted and observed values was less than ± 2 per cent error, documenting that this model provides a fairly accurate description of the observed solubility behavior. In addition, Mobile Order theory, the Kretschmer-Wiebe model, and the Mecke-Kempter model were extended to ternary solvent mixtures containing an alcohol (or an alkoxyalcohol) and alkane cosolvents. Expressions derived from Mobile Order theory predicted the experimental mole fraction solubility of anthracene in ternary alcohol + alkane + alkane mixtures to within ± 5.8%, in ternary alcohol + alcohol + alkane mixtures to within ± 4.0%, and in ternary alcohol + alcohol + alcohol mixtures to within ± 3.6%. In comparison, expressions derived from the Kretschmer-Wiebe model and the Mecke-Kempter model predicted the anthracene solubility in ternary alcohol + alkane + alkane mixtures to within ± 8.2% and ± 8.8%, respectively. The Kretschmer-Wiebe model and the Mecke-Kempter model could not be extended easily to systems containing two or more alcohol cosolvents.
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Vibrační optická aktivita nukleotidů a kratších segmentů nukleových kyselin / Vibrational optical activity of nucleotides and shorter nucleic acid segmentsJílek, Štěpán January 2021 (has links)
1 Nucleotides are organic molecules that have a wide range of functions in living organisms. They participate in cell signaling, serve as cofactors of enzymatic reactions, play a central role in cellular metabolism, and are the basic monomeric units of nucleic acid polymers. Nucleotides consist of three subunit molecules - nitrogen nucleobase, a five-carbon sugar (ribose or 2'-deoxyribose), and a phosphate group containing one to three phosphates. The subject of this master thesis is the study of various nucleotides and their self-assemblies in water by means of vibrational spectroscopy - Raman scattering and its chirally sensitive variant Raman optical activity (ROA). ROA has the potential to provide new information about the structural arrangement, dynamics, and interactions of nucleotides, as it supposes to be much more sensitive to vibrations of its sugar part containing three to four chiral carbons, compared to Raman scattering. We study spectral manifestations associated with chemical modifications (difference between ribo- and deoxyribonucleotides, the influence of different phosphate positions) and the change of physical conditions (various charge states according to the set pH, effect of concentration, influence of ions). A substantial amount of work is devoted to studying the self-association of...
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THE UN-DESIGN AND DESIGN OF INSULIN: STRUCTURAL EVOLUTIONWITH APPLICATION TO THERAPEUTIC DESIGNRege, Nischay Kiran 31 August 2018 (has links)
No description available.
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Étude de l’activité de Staufen1 dans la régulation traductionnelle de certains ARNmDugré-Brisson, Samuel 12 1900 (has links)
Le transport et la traduction localisée des ARN messagers sont observés chez plusieurs organismes et sont requis pour de multiples phénomènes tels la mémoire, la division cellulaire asymétrique et l’établissement des axes durant le développement. Staufen, une protéine liant l’ARN double-brin, a été identifié dans un premier temps chez la mouche à fruits Drosophila melanogaster. Il a été montré, chez cet organisme, que Staufen est requis pour la localisation des messagers bicoid et oskar aux pôles antérieur et postérieur de l’ovocyte, respectivement. Également, Staufen est requis afin que la répression traductionnelle du messager oskar soit levée une fois qu’il est bien localisé. Chez les mammifères, Stau1 est une protéine ubiquiste qui est présente dans des complexes prenant la forme de granules dans les dendrites des neurones. Également, Stau1 peut interagir de façon indépendante de l’ARN avec le ribosome et cofractionner tant avec la sous-unité 40S qu’avec la sous-unité 60S du ribosome dans un gradient de saccharose. L’implication de Stau1 dans un mécanisme permettant la dérépression traductionnelle de certains ARNm chez les mammifères était donc une voie d’investigation intéressante.
Nous avons donc décidé de vérifier si Stau1 mammifère avait la capacité de stimuler la traduction d’un ARNm cellulaire via un mécanisme régulé. Au moment où cette thèse a été entreprise, aucun ARNm cellulaire lié par Stau1 n’avait été identifié chez les mammifères. Des structures d’ARN double-brin ont donc été employées afin de réprimer la traduction d’un ARNm rapporteur. C’est ainsi que nous avons montré que Stau1 peut stimuler la traduction d’un ARNm lorsqu’il lie celui-ci dans sa région 5’ non-traduite. Par la suite, en employant des micropuces d’ADN, nous avons identifié des messagers cellulaires dont la distribution dans les polysomes lourds est modifiée par Stau1. En effet, un groupe de messagers est enrichi dans les polysomes lourds suite à une surexpression de Stau1, ce qui suggère que Stau1 stimule la traduction de cette population d’ARNm.
Afin d’identifier un mécanisme potentiel de régulation de l’activité traductionnelle de Stau1, nous nous sommes intéressés à la capacité d’auto-association de cette protéine. Nous avons montré que Stau1, tout comme plusieurs protéines liant l’ARN double-brin, est en mesure de s’associer à lui-même, et ce, d’une façon indépendante de l’ARN. Nous avons identifié les déterminants impliqués mettant ainsi au jour un nouveau mécanisme pouvant influencer les activités cellulaires de Stau1.
Les résultats présentés dans cette thèse suggèrent donc que Stau1 est en mesure de stimuler la traduction d’une sous-population précise d’ARN messagers au sein de la cellule permettant ainsi de jeter un regard nouveau sur l’implication de cette protéine dans divers phénomènes au sein de l’organisme. / Transport and local translation of RNA are found in several organisms and are required for multiple phenomena such as memory, asymmetric cell division and establishment of the axis during development. Staufen, a double-stranded RNA binding protein, was first identified in Drosophila melanogaster. In the fruitfly, it was shown that Staufen is required for the proper localization of the bicoid and oskar transcripts to the anterior and posterior ends of the oocyte, respectively. It was also found that Staufen is important for the translational derepression of oskar once it is adequately localized. In mammals, Stau1 is a ubiquitous protein found in granules in the dendrites of neurons. Also, Stau1 can bind the ribosome in a RNA-independent manner and cofractionates with both ribosomal subunits in a sucrose gradient. The implication of Stau1 in a mechanism allowing translational derepression of certain RNAs in mammals was therefore an interesting path to explore.
Accordingly, we decided to verify if mammalian Stau1 had the capacity to stimulate the translation of cellular RNAs through a regulated mechanism. When this thesis was initiated, no cellular RNA target of Stau1 had been identified in mammals. Therefore, double-stranded RNA structures were used to repress the translation of a reporter mRNA. With this model, we showed that Stau1 can stimulate the translation of a transcript when it is bound to its 5’ UTR. With the use of DNA microarrays, we identified cellular mRNAs which distribution in heavy polysomes was altered by Stau1. When Stau1 is overexpressed, this group of mRNAs is enriched heavy polysomes, suggesting a translational stimulation of this population by Stau1.
To identify a regulatory mechanism that could influence Stau1’s translational activity, we studied the self-association capacity of this protein. We showed that Stau1, like several double-stranded RNA binding proteins, can self-associate in a RNA-independent manner. We have identified the determinants required for this interaction that as the potential to be important for the regulation of the cellular activities of Stau1.
The results presented in this thesis suggest that Stau1 can stimulate the translation of a specific subset of mRNAs in the cell, letting us look at Stau1’s implication in different processes from a new point of view.
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Étude de l’activité de Staufen1 dans la régulation traductionnelle de certains ARNmDugré-Brisson, Samuel 12 1900 (has links)
Le transport et la traduction localisée des ARN messagers sont observés chez plusieurs organismes et sont requis pour de multiples phénomènes tels la mémoire, la division cellulaire asymétrique et l’établissement des axes durant le développement. Staufen, une protéine liant l’ARN double-brin, a été identifié dans un premier temps chez la mouche à fruits Drosophila melanogaster. Il a été montré, chez cet organisme, que Staufen est requis pour la localisation des messagers bicoid et oskar aux pôles antérieur et postérieur de l’ovocyte, respectivement. Également, Staufen est requis afin que la répression traductionnelle du messager oskar soit levée une fois qu’il est bien localisé. Chez les mammifères, Stau1 est une protéine ubiquiste qui est présente dans des complexes prenant la forme de granules dans les dendrites des neurones. Également, Stau1 peut interagir de façon indépendante de l’ARN avec le ribosome et cofractionner tant avec la sous-unité 40S qu’avec la sous-unité 60S du ribosome dans un gradient de saccharose. L’implication de Stau1 dans un mécanisme permettant la dérépression traductionnelle de certains ARNm chez les mammifères était donc une voie d’investigation intéressante.
Nous avons donc décidé de vérifier si Stau1 mammifère avait la capacité de stimuler la traduction d’un ARNm cellulaire via un mécanisme régulé. Au moment où cette thèse a été entreprise, aucun ARNm cellulaire lié par Stau1 n’avait été identifié chez les mammifères. Des structures d’ARN double-brin ont donc été employées afin de réprimer la traduction d’un ARNm rapporteur. C’est ainsi que nous avons montré que Stau1 peut stimuler la traduction d’un ARNm lorsqu’il lie celui-ci dans sa région 5’ non-traduite. Par la suite, en employant des micropuces d’ADN, nous avons identifié des messagers cellulaires dont la distribution dans les polysomes lourds est modifiée par Stau1. En effet, un groupe de messagers est enrichi dans les polysomes lourds suite à une surexpression de Stau1, ce qui suggère que Stau1 stimule la traduction de cette population d’ARNm.
Afin d’identifier un mécanisme potentiel de régulation de l’activité traductionnelle de Stau1, nous nous sommes intéressés à la capacité d’auto-association de cette protéine. Nous avons montré que Stau1, tout comme plusieurs protéines liant l’ARN double-brin, est en mesure de s’associer à lui-même, et ce, d’une façon indépendante de l’ARN. Nous avons identifié les déterminants impliqués mettant ainsi au jour un nouveau mécanisme pouvant influencer les activités cellulaires de Stau1.
Les résultats présentés dans cette thèse suggèrent donc que Stau1 est en mesure de stimuler la traduction d’une sous-population précise d’ARN messagers au sein de la cellule permettant ainsi de jeter un regard nouveau sur l’implication de cette protéine dans divers phénomènes au sein de l’organisme. / Transport and local translation of RNA are found in several organisms and are required for multiple phenomena such as memory, asymmetric cell division and establishment of the axis during development. Staufen, a double-stranded RNA binding protein, was first identified in Drosophila melanogaster. In the fruitfly, it was shown that Staufen is required for the proper localization of the bicoid and oskar transcripts to the anterior and posterior ends of the oocyte, respectively. It was also found that Staufen is important for the translational derepression of oskar once it is adequately localized. In mammals, Stau1 is a ubiquitous protein found in granules in the dendrites of neurons. Also, Stau1 can bind the ribosome in a RNA-independent manner and cofractionates with both ribosomal subunits in a sucrose gradient. The implication of Stau1 in a mechanism allowing translational derepression of certain RNAs in mammals was therefore an interesting path to explore.
Accordingly, we decided to verify if mammalian Stau1 had the capacity to stimulate the translation of cellular RNAs through a regulated mechanism. When this thesis was initiated, no cellular RNA target of Stau1 had been identified in mammals. Therefore, double-stranded RNA structures were used to repress the translation of a reporter mRNA. With this model, we showed that Stau1 can stimulate the translation of a transcript when it is bound to its 5’ UTR. With the use of DNA microarrays, we identified cellular mRNAs which distribution in heavy polysomes was altered by Stau1. When Stau1 is overexpressed, this group of mRNAs is enriched heavy polysomes, suggesting a translational stimulation of this population by Stau1.
To identify a regulatory mechanism that could influence Stau1’s translational activity, we studied the self-association capacity of this protein. We showed that Stau1, like several double-stranded RNA binding proteins, can self-associate in a RNA-independent manner. We have identified the determinants required for this interaction that as the potential to be important for the regulation of the cellular activities of Stau1.
The results presented in this thesis suggest that Stau1 can stimulate the translation of a specific subset of mRNAs in the cell, letting us look at Stau1’s implication in different processes from a new point of view.
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Synthèse et caractérisation d'auto-assemblages de copolymères à blocs amphiphiles photo-réticulables / Synthesis and characterization of self-assembled photo-crosslinkable amphiphilic block copolymersNze, René-Ponce 03 December 2014 (has links)
L’objectif de ce travail est dans un premier temps d’élaborer des fleurs macromoléculaires et des polymères hyperbranchés par auto-assemblage et réticulation de copolymères triblocs associatifs en solvants sélectifs. Dans un second temps, il s’agit d’étudier les propriétés structurales et dynamiques de ces architectures par diffusion de la lumière et rhéologie en solution sur une gamme étendue de concentration. La première partie de ce travail a consisté à synthétiser les copolymères triblocs associatifs à base de polybutadiène (PB), et de poly(oxyde d’éthylène) (POE) en les modifiant aux extrémités avec des blocs solvophobes réticulables respectivement poly(acrylate de diméthylmaléimidoéthyle)(PMDIEA), et poly(acrylate de méthacryloyloxyéthyle)(PAME). La deuxième partie de ce travail a consisté en l’élaboration de micelles "fleurs" et de polymères hyperbranchés (HyperMac) par auto-assemblage dans l’eau du copolymère PAME7-b-POE270-b-PAME7, suivi d’une réticulation des cœurs afin de figer les structures. Il a été observé par diffusion de la lumière que la taille dépend de la concentration à laquelle le polymère a été réticulé. Les dynamiques locales ainsi que la compressibilité osmotique sont indépendantes de l'architecture (étoile, fleur ou HyperMac) à forte concentration. Il a également été observé une autosimilarité des structures obtenues quels que soient leurs types. Les mesures de rhéologie montrent une augmentation de la viscosité avec la taille et le degré de ramification des architectures. La dépendance en concentration de la viscosité des solutions de "fleurs" est identique à celle des solutions d'étoiles. / The objective of this work is a first step to develop flower-like and hyperbranched polymers by selfassembling and crosslinking of associative triblock copolymers in selective solvents. The second aim is to study structural and dynamic properties of these architectures in solution by light scattering and rheology on a broad range of concentrations. The first part of this work consisted in synthesizing triblock copolymers based on polybutadiene (PB), and poly(ethylene oxide) (PEO) by end-capping them with crosslinkable solvophobic blocks; poly(dimethyl maleimido ethyl acrylate) (PDMIEA) and poly(methacryloyloxyethyl acrylate) (PMEA), respectively. The second part of this work consisted in elaborating flowers-like and hyperbranched polymers (HyperMac) by self-assembling the PAME7-b-PEO270-b-PAME7 copolymer in water, followed by crosslinking the micelles cores in order to freeze the structures. Light scattering revealed that the size of the objects depended on the concentration at which the polymers were crosslinked. Local dynamics and osmotic compressibility were independent of the architecture (star, flower or HyperMac) at high concentrations. In addition, a self-similarity of the structures was observed regardless their types. Rheology measurements showed an increase of viscosity with the size and the branching degree of the architectures. The concentration dependence of the viscosity was the same for star- and flower-like polymer in water.
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