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  • 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.
101

GAS-PHASE STUDIES OF METAL IONS IN BIOMOLECULE IONS

Nicole Michelle Brundridge (18290698) 03 April 2024 (has links)
<p dir="ltr">Metal ions are typically considered a nuisance for mass spectrometry, as they can introduce chemical noise and distribute an analyte’s signal into multiple peaks. In some cases however, metal ions in biological solutions are either necessary for biomolecular structures, or so ubiquitous in a sample’s native solution conditions that they are difficult to fully remove. In this work, the role of metal ions in biological analytes is explored. For analytes that require metal ions to maintain higher order structures, a mass spectrometry method was developed to determine whether a stable structure is formed from metal ion adducts, or if the metal ion adducts are nonspecifically bound. Electron transfer of these structures reveals complementary fragmentation information, with the added discovery of new radical fragmentation pathways. With mass spectrometry, specific ligand and metal ion affinities can even be determined for analytes at low enough concentrations. In addition to analytes that require metals, an exploration on unwanted metal ion adduction during the electrospray ionization process is shown via gas-phase ion/ion reactions. Observing how specific anionic ligands exchange metals with protons from proteins on a small and controlled scale gives a greater understanding of what solutions can lead to the cleanest results. In addition, this work shows the possibility of finding anionic ligands that will instead exchange protons with metal ions found on proteins. In the gas-phase, these experiments have a high degree of control, leading to a much greater understanding of how metal ions influence mass spectrometry samples.</p>
102

Polymorphisms in G-quadruplex regions of the TP53 tumour suppressor gene : Impact on cancer susceptibility and expression of p53 N-terminal isoforms / Polymorphismes situés dans les régions de type G-quadruplexe du gène suppresseur de tumeur TP53 : Impact sur la susceptibilité au cancer et l’expression des isoformes en N-terminal de p53

Sagne, Charlotte 27 November 2013 (has links)
Le gène TP53 est extrêmement polymorphique avec 85 polymorphismes décrits. Certains de ces polymorphismes sont associés à une augmentation du risque de cancer, par exemple rs10425222 peut moduler les fonctions de p53. Cependant, pour d’autres, comme le rs17878362 qui est le polymorphisme intronique le plus étudié, leur association avec une augmentation du riques au cancer est controversée.Pour analyser l’association entre le polymorphisme rs17878362 et la susceptibilité au cancer, nous avons analysé son rôle dans des contextes de cancers sporadiques et familiaux. Les résultats obtenus pour le polymorphisme rs17878362 sont paradoxaux avec une augmentation des cancers sporadiques associée avec le génotype A2A2 alors que l’allèle A2 est associé avec un effet « protectif » chez les patients atteints du syndrome de Li-Fraumeni porteurs d’une mutation germinale de TP53 situé sur l’haplotype A1. Ces observations suggèrent que des haplotypes spécifiques de TP53 pourraient moduler les capacités suppressives de p53. Une hypothèse possible est que les différents haplotypes de TP53 présenteraienrt des mutations somatiques à des fréquences différentes dans la population.De plus, le gène TP53 exprime différentes isoformes, comme le D40p53, inhibant l’activité suppressive de p53. Le D40p53 peut être produite par le maintien de l’intron 2 par épissage alternatif. Nous avons montré que les G-quadruplexes, des structures tridimensionnelles formées dans des régions riches en G, sont formés dans l’intron 3 et régulent la rétention de l’intron 2 et la formation du transcrit p53I2. Nous avons aussi observé que le polymorphisme rs1652785 (localisé dans l’intron 2) semble réguler la stabilité du p53I2. Ces résultats suggèrent que les polymorphismes de TP53 localisés dans une région de 412 pb située entre l’exon 2 et l’exon 4 régulent l’expression des isoformes de p53 dans une séquence temporelle d’évènements en modulant la formation des pré-ARNm (rs17878362), la stabilité des ARNm (rs1642785) et les fonctions protéiques (rs10425222).L’expression des isoformes de p53 est donc finement régulée par des mécanismes impliquant les polymorphismes de TP53 qui sont aussi associés avec une altération dans la susceptibilité au cancer. / The TP53 gene is a highly polymorphic gene with 85 polymorphisms described. Some of these have been associated with an increase of cancer susceptibility, for example rs10425222 that can modulate certain p53 activities. However for others such as rs17878362, the most studied intronic polymorphism, the association with cancer risk is more controversial. To investigate the influence of rs17878362 on cancer susceptibility, we analysed its role in sporadic and familial contexts. The results are paradoxical with an increase of sporadic cancer associated with the rs17878362 A2A2 genotype whereas the rs17878362 A2 allele is associated with a “protective” effect in the context of Li-Fraumeni patients carrying a TP53 germline mutation on an A1 haplotype. These observations suggest that specific TP53 haplotypes could modulate p53’s tumour suppression capacities. A possible hypothesis to explain this could be that somatic mutations are carried on different haplotypes of TP53 present at different allele frequencies in the population. In addition, TP53 is expressed as several protein isoforms, such as D40p53, which inhibits p53’s suppressive activity. D40p53 can be produced from an alternative spliced transcript that retains intron 2. We have shown that G-quadruplexes, tri-dimensional structures formed in G-rich sequences, are formed in intron 3 and regulate the retention of intron 2 and the formation of the p53I2 transcript. We also observed that rs1642785 (located in intron 2) could regulate p53I2’s stability. These results suggest that the TP53 polymorphisms located in a 412 bp region located between exon 2 and exon 4 regulate the expression of p53 isoforms in a temporal sequence of events by modulating the pre-mRNA formation (rs17878362), mRNA stability (rs1642785) and protein functions (rs1042522).p53 isoforms’ expression is thus finely regulated by mechanisms involving TP53 polymorphisms, which are also associated with altered cancer susceptibility.
103

Synthèse de complexes métallo-salen et dérivés pour la biocatalyse et l'assemblage supramoléculaire / Synthesis of metallo-salen complexes for biocatalysis and supramolecular assemblies

Lecarme, Lauréline 04 December 2014 (has links)
Des complexes salen et dipyrrophénolate de fer comportant des unités phénolatesenrichies en électron (substituants tert-butyl ou methoxy) ont été préparés. Leur chimieoxydative conduit à des espèces radicalaires dont une a été caractérisée par diffraction desRX. Les complexes dipyrrophénolate de manganèse et cuivre ont été également étésynthétisés et oxydés, engendrant des espèces radicalaires. Le premier s’est avéré efficace entermes d’oxygénation d’oléfines, le second pour l’oxydation d’alcools.La fonctionnalisation des phénols par des chaînes alkylimidazolium rend les complexeshydrosolubles. Les salophen de nickel ainsi préparés interagissent fortement avec l’ADN Gquadruplexe(KD < 1-2 mM) en s’empilant sur le dernier quartet de guanine. Ils stabilisent lesG-quadruplexes contre la dénaturation thermique et bloquent l’activité de la télomérase avecdes IC50 < 3 mM. / We prepared salen and dipyrrophenolate iron complexes involving electron rich (tertbutyland methoxy substituents) phenolate moieties. Their oxidative chemistry leads to radicalspecies, one of them being characterized by X-Ray diffraction. The manganese and copperdipyrrophenolate complexes were also synthesized and oxidized, affording radical species.The first ones are efficient catalysts for the oxygenation of olefins, while the second ones areactive towards alcohol oxidation.Functionnalization of the phenols by alkylimidazolium chains makes the compoundshydrosoluble. The so-prepared nickel salophen complexes interact strongly with GquadruplexDNA (KD < 1-2 mM), mainly through p-stacking interactions over the lastguanine quartet. They stabilize the G-quadruplex structures against thermal denaturation andinhibit telomerase activity with IC50 < 3 mM.
104

New DNA-Targeting Small Molecules as Potential Anticancer Agents and for in vivo Specificity toward Enhanced Silk Production

Ali, Asfa January 2014 (has links) (PDF)
The thesis entitled “New DNA-Targeting Small Molecules as Potential Anticancer Agents and for in vivo Specificity toward Enhanced Silk Production” encompasses design, computational calculations, and syntheses of diverse small molecular scaffolds to explicitly target duplex and higher order DNA morphologies (G-quadruplex DNA). Some of these molecules have a potential as anticancer agents. Besides, an attempt has been made elucidate the importance of novel oligopyrrole carboxamides in the enhancement of silk yield, hence proving to a boon in the field of sericulture. The work has been divided into six chapters. Chapter 1. DNA Binding Small Molecules as Anticancer Agents Figure 1. DNA targeting by small molecules. Cancer has always been a dreadful disease and continues to attract extensive research investigations. Various targets have been identified to restrain cancer. Among these DNA happens to be the most explored one. A wide variety of small molecules, often referred to as “ligands”, has been synthesized to target numerous structural features of DNA (Figure 1). The sole purpose of such molecular design has been to interfere with the transcriptional machinery in order to drive the cancer cell toward apoptosis. The mode of action of the DNA targeting ligands focuses either on the sequence-specificity by groove binding and strand cleavage, or by identifying the morphologically distinct higher order structures like that of the G-quadruplex DNA. Chapter 2. Ligand 5, 10, 15, 20-tetra(N-methyl-4-pyridyl)porphine (TMPyP4) Prefers the Parallel Propeller-type Human G-Quadruplex DNA over its other Polymorphs The binding of ligand 5, 10, 15, 20-tetra(N-methyl-4-pyridyl)porphine (TMPyP4) with telomeric and genomic G-quadruplex DNA has been extensively studied. However, a comparative study of interactions of TMPyP4 with different conformations of human telomeric G-quadruplex DNA, namely parallel propeller-type (PP), antiparallel basket-type (AB), and mixed hybrid-type (MH) G-quadruplex DNA has not been done. We considered all the possible binding sites in each of the G-quadruplex DNA structures and docked TMPyP4 to each one of them. The resultant most potent sites for binding were analyzed from the mean binding free energy of the complexes. Molecular dynamics simulations were then carried out and analysis of the binding free energy of the TMPyP4-G-quadruplex complex showed that the binding of TMPyP4 with parallel propeller-type G-quadruplex DNA is preferred over the other two G-quadruplex DNA conformations. The results obtained from the change in solvent excluded surface area (SESA) and solvent accessible surface area (SASA) also support the more pronounced binding of the ligand with the parallel propeller-type G-quadruplex DNA (Figure 2). Figure 2. Ligand TMPyP4 prefers parallel propeller-type G-quadruplex DNA morphology. Chapter 3. A Theoretical Analysis on the Selective Stabilization of Intermolecular G-quadruplex RNA with a bis-Benzimidazole Ligand EtBzEt over TMPyP4 in K+ Environment Ever since the discovery of G-quadruplex RNA, a constant urge exists to target these higher order RNA conformations. These structures play a significant role in the transcriptional and translational mechanism. Herein we have determined the mode and extent of association of certain G-quadruplex DNA binding bisbenzimidazole ligand (EtBzEt) in comparison to a known porphyrin ligand (TMPyP4). We have performed docking studies of the known G-quadruplex DNA binding ligands with the parallel propeller G-quadruplex RNA (PPR) to determine the most potent binding conformation which showed EtBzEt to be a better RNA binder than others. Furthermore, a molecular dynamics (MD) simulation (6 ns) was performed for the most stable docked complex in explicit solvent environment. The role of K+ ions, Hoogsteen hydrogen bond formation and backbone dihedral angle between the tetrads were carefully analyzed during the entire simulation run to determine the stability of each ligand associated PPR complex. All the analyses conclusively showed that while TMPyP4 merely stabilized the PPR, the ligand EtBzEt stabilized PPR very efficiently (Figure 3). Figure 3. Stabilzation and destabilization by EtBzEt and TMPyP4, repectively. Red and green ovals represent EtBzEt and TMPyP4, repectively. Chapter 4A. Design and Synthesis of New DNA Binding Fe(III) and Co(II) Salen Complexes with Pendant Oligopyrrole Carboxamides Extensive research on these oligopyrrole carboxamides has shown their specificity toward AT-rich sequences with high binding affinity. Here we have designed and synthesized Fe (III)-and Co (II)-based salen complexes attached with minor groove targeting oligopyrrole carboxamide side-chains (Figure 4). While the ligands showed excellent activity toward DNA damage, they also exhibited high affinity toward the minor grooves of the ds-DNA. This was also reflected in the high efficiency of the ligands toward cancer cell cytotoxicity. Further studies revealed that the ligands resulted in prominent nuclear condensation and fragmentation thereby driving the cells toward apoptosis. The presence of metal coordinated salen moiety conjugated with positively charged pendants ending with minor groove binding oligopyrrole carboxamides might have resulted in the increased activity of the ligands toward DNA targeting and cancer cell death. Figure 4. Chemical structures of the ligands used in this study. Chapter 4B. Design and synthesis of novel oligopyrrole based salen metal complexes and their efficiency toward stabilization of G-quadruplex DNA DNA targeting has been the key strategy toward the restriction of cancer cell proliferation. In a similar effort, we have designed and synthesized novel salen based Ni(II) and Pd(II) metal complexes with positively charged flanking side-chains comprising attached N-methylpyrrole carboxamides of varying lengths (Figure 5). The ligands showed efficient stabilization of the G-quadruplex DNA morphologies, with specificity over the duplex DNA. Sufficient inhibition of the telomerase activity was observed by the TRAP-LIG assay which was ascertained by the prominent restriction of cancer cell proliferation in the long-term cell viability assay. The ligands exhibited condensation and fragmentation of the nucleus when observed under confocal microscopy which is indicative of the cells undergoing apoptosis. Further annexin V-FITC and PI dual staining showed apoptosis to be the mechanistic pathway underlying the cancer cell cytotoxicity by the ligands. Modeling studies clearly showed the stacking of the salen moiety over the G-tetrads with the association of the pendant oligopyrrole carboxamide units to the grooves. Figure 5. Chemical structures of the ligands used in this study. Chapter 5A. Role of Metal Ions in Novel Fluorescein based Salen and Salphen Complexes toward Efficient DNA Damage and their Effect on Cancer Cells Metal ions play an important role toward DNA damage and numerous ligands have been synthesized for their use in anticancer therapy. Herein, we have designed and synthesized Fe(III) and Co(II) based salen/salphens by bridging two fluorescein moieties with varying spacers (Figure 6). Although the ligands exhibit dual binding mode, the more flexible salen ligands prefer to associate to the minor groove of the DNA while the relatively rigid salphen ligands show greater intercalation. The biophysical experiments reveal better binding affinity of the salphens toward duplex DNA as compared to the salen ligands. The metal coordination resulted in efficient DNA cleavage of plasmid at low ligand concentrations. The ligands also showed cancer cell cytotoxicity, cellular internalization with apoptosis as the proposed mechanism for cell death. Figure 6. Chemical structures of the salen and salphen ligands used in this study. Chapter 5B. Fluorescein based Salen and salphen Complexes as stabilizers of the Human G-quadruplex DNA and Promising Telomerase Inhibitors Metal based salen complexes have been considered as an important scaffold toward targeting of DNA structures. In the present work we have designed and synthesized nickel(II)-and palladium(II)-salen and salphen ligands by using fluorescein as the backbone to provide an extended aromatic surface (Figure 7). The ligands exhibit sufficient affinity toward the human telomeric G-quadruplex (G4) DNA in preference to the duplex DNA and also exhibit promising inhibition of telomerase activity. This is ascertained by their potency in the long-term cell viability assay which shows significant cancer cell cytotoxicity in presence of the ligands. Confocal microscopy showed cellular internalization followed by nuclear localization. Considerable population at the sub-G1 phase of the cell cycle showed cell death via apoptotic pathway. Figure 7. Chemical structures of the ligands used in this study. Chapter 6. Knockdown of Broad-Complex Gene Expression of Bombyx mori by Oligopyrrole carboxamides Enhances Silk Production Bombyx mori (B. mori) is important due to its major role in the silk production. Though DNA binding ligands often influence gene expression, no attempt has been made to exploit their use in sericulture. The telomeric heterochromatin of B. mori is enriched with 5′-TTAGG-3′ sequences. These sequences were also found to be present in several genes in the euchromatic regions. We examined three synthetic oligopyrrole carboxamides that target 5′-TTAGG-3′ sequences in controlling the gene expression in B. mori (Figure 8). The ligands did not show any defect or feeding difference in the larval stage, crucial for silk production. The compounds caused silencing of various isoforms of the broad-complex transcription factor and cuticle proteins which resulted in late pupal developmental defects. This study shows for the first time use of oligopyrrole carboxamide drugs in controlling gene expression in B. mori and their long term use in enhancing silk production. Figure 8. Chemical structures of the ligands used in this study (top) and increased cocoon size on ligand treatment.
105

Template-Assembled Synthetic G-Quartets (TASQ) hydrosolubles : du ligand de quadruplexes d'ADN et d'ARN à la plateforme catalytique / Water-soluble Template-assembled synthetic G-quartets (TASQ) : from DNA and RNA G-quadruplexes ligands to catalytic applications

Stefan, Loïc 04 December 2013 (has links)
Formés à partir de brins d’ADN ou d’ARN riches en guanines, les quadruplexes résultent de l’empilement de tétrades de guanines constituées chacune par l’auto-assemblage dans un même plan de quatre guanines, stabilisées entre elles par un réseau de liaisons hydrogènes. En s’inspirant de cet édifice naturel, il est présenté au long de ce manuscrit de thèse la synthèse et l’étude de molécules de type TASQ (pour template-assembled synthetic G-quartet) hydrosolubles capables de former de manière intramoléculaire une tétrade de guanines synthétique : les DOTASQ, le PorphySQ et le PNADOTASQ. La première application développée pour ces composés est le ciblage des quadruplexes d’ADN et d’ARN, présents dans des régions clefs du génome (télomères, promoteurs d’oncogènes) et du transcriptome (5’-UTR et TERRA), et dont la stabilisation par un ligand pourrait ouvrir de nouvelles perspectives en terme de thérapie antitumorale ciblée. Les résultats in vitro sont présentés et permettent de démontrer que les TASQ hydrosolubles développés sont des composés offrant une bonne sélectivité pour les quadruplexes mais surtout une excellente sélectivité grâce à un mode d’action bioinspiré basé sur une reconnaissance biomimétique. La seconde application mise au point est l’utilisation des TASQ comme catalyseurs pour des réactions de peroxydation : leur architecture même leur permet de mimer l’activité catalytique de l’ADN (ou DNAzyme) ainsi que celle de protéines (enzyme) comme la horseradish peroxidase. Ce processus est dépendant de la formation intramoléculaire de la tétrade de guanines synthétique et ouvre de nombreuses perspectives en terme d’utilisation en biologie ainsi qu’en nanotechnologie. / Natural G-quartets, a cyclic and coplanar array of four guanine residues held together via Hoogsteen H-bond network, have recently received much attention due to their involvement in G-quadruplex-DNA, an alternative higher-order DNA structure strongly suspected to play important roles in key cellular events (chromosomal stability, regulation of gene expression). Besides this, synthetic G-quartets, which artificially mimic native G-quartets, have also been widely studied for their involvement in nanotechnological applications (i.e. nanowires, artificial ion channels, etc.). In contrast, intramolecular synthetic G-quartets, also named template-assembled synthetic G-quartet (TASQ), have been more sparingly investigated, despite a technological potential just as interesting.In this way, we designed and synthesized three series of innovative hydrosoluble TASQ: DOTASQ (for DOTA-Templated Synthetic G-Quartet), PorphySQ (containing a porphyrin template) and the most effective PNADOTASQ where PNA-guanine arms replace native DOTASQ alkyl-guanine arms. We report herein the results of both DNA and RNA interactions (notably their selective recognition of quadruplex-DNA according to a bioinspired process) and peroxidase-like hemin-mediated catalytic activities (either in an autonomous fashion as precatalysts for TASQzyme reactions, or in conjunction with quadruplex-DNA as enhancing agents for DNAzyme processes). These results provide a solid scientific basis for TASQ to be used as multitasking tools for bionanotechnological applications.
106

Mécanistique de la commutation de classe des immunoglobulines et production de classes rares (IgE, IgA2 et pseudo-IgG) / Mecanistic of immunoglobulins class switch recombination and production of rare classes (IgE, IgA2 and pseudo-IgG)

Dalloul, Zeinab 26 November 2018 (has links)
Le processus de la commutation de classe ou commutation isotypique (CSR) des gènes d’immunoglobulines caractérise les cellules de la lignée B et implique principalement les régions switch précédant les gènes constants au sein du locus IgH. Des jonctions entre la région switch donneuse Sμ et celle acceptrice Sx sont crées pendant ce processus. Plusieurs études ont démontré que le destin des cellules de la lignée B était largement modulé en fonction de la classe de l’immunoglobuline qu’elles produisent et en particulier selon les signaux transmis par leur BCR (qui peuvent par exemple pour la classe IgE, comporter des signaux pro-apoptotiques). Nous avons utilisé plusieurs modèles visant à l’étude de la physiologie et de la mécanistique du switch vers différentes classes de BCR et d’immunoglobulines peu exprimées. Nous avons cherché à forcer l’expression de l’isotype IgA2 grâce à un modèle transgénique dédié, dans le but d’approfondir les spécificités du signal BCR transduit par cet isotype en comparaison avec le BCR IgA1. En outre, et d’une façon très intéressante, nous avons découvert l’existence (jusqu’ici ignorée et masquée par les 4 autres sous-classes plus abondantes) d’une cinquième sous-classe d’IgG humaine, l’IgG5 qui est codé par un gène jusqu’ici faussement classifié pseudo-gène. Ainsi nous avons étudié les modalités d’expression du gène correspondant après un switch non-canonique,le répertoire normal des IgG5, leur représentation parmi les IgG humaines monoclonales ainsi que leurs fonctions immunitaires grâce à un IgG5 fabriquée artificiellement portant une activité anti-CD20 humaine. Enfin, nous avons testé des produits pharmaceutiques (RHPS4 : stabilisant des structures G-quadruplex au niveau d’ADN et JQ1 : inhibiteur des facteurs de transcription à bromodomaines), montrant leur capacité à retarder ou inhiber la commutation de classe in vitro mais aussi in vivo dans des souris allergiques. / The process of class switch recombination (CSR) or isotypic switching of immunoglobulin genes characterizes the B cell lineage and primarily involves switch regions preceding the constant genes within the IgH locus. Junctions between donor switch region Sμ and acceptor Sx are generated during this process. Several studies have shown that the fate of B cells is largely modulated according to the class of immunoglobulin they produce and in particular the signals transmitted by their BCR « for example for IgE, BCRs can combine proapoptotic signals. We used several relevant mouse models to study the physiological aspect and the B cell compartment after switching to IgA2 (a dedicated transgenic model expressing IgA2) since IgA2 conveys a membrane signal different from tht of IgA1. In addition, we tested two pharmaceuticals drugs(RHPS4: stabilizer of G-quadruplex structures at the DNA level and JQ1: inhibitor of bromodomain proteins) showed their ability to delay or inhibit class switching towards IgE in vitro but also in vivo in allergic mice. Interestingly, we also demonstrated the existence (till now ignored and maybe masked by the other 4 more abundant IgG subclasses) of a fifth subclass of human IgG, IgG5 which is encoded by a gene classified as a pseudo-gene. We studied the expression modalities of the corresponding gene after a non-canonical switch, the normal IgG5 repertoire, their representation among the monoclonal human IgGs as well as their immune functions through an artificially synthesited IgG5 with human anti-CD20 activity.
107

Single Molecule Fluorescence and Force Measurements on Non-Canonical DNA Structures

Mustafa, Golam 17 March 2022 (has links)
No description available.
108

The Renaissance of Isothermal Titration Calorimetry

Le, Vu Hoang 17 May 2014 (has links)
This dissertation is a composite of some of the research that I have conducted during the course of my PhD study. The larger goal of this dissertation is to renew the interests among the scientific community for an otherwise under-appreciated technique called Isothermal Titration Calorimetry. The resurgence of calorimetry in the biophysical community and the shift to investigations of more complex biological systems signal a real need for more sophisticated analysis techniques. This dissertation expounds on new ITC analysis methods that we have developed as well as results from the study of thermodynamic properties of higher order DNA structures. In 1978, Peter Privalov described the first use of microcalorimetry to obtain the thermodynamic properties for removing calcium from parvalbumin III protein. Fast forward 36 years: modern day electronics, highly efficient thermally conductive and chemically inert materials, in conjunction with sensitive thermal detectors, has transformed the original calorimeter into a device capable of measuring heat changes as small as 0.05 nanowatts, which is equivalent to capturing heat from an incandescent light bulb a kilometer away. However, analytical methods have not kept pace with this technology. Commercial ITC instruments are typically supplied with software that only includes a number of simple interaction models. As a result, the lack of analysis tools for more complex models has become a limiting factor for many researchers. We have recently developed new ITC fitting algorithms that we have incorporated into a userriendly program (CHASM©) for the analysis of complex ITC equilibria. In a little over a year, CHASM© has been downloaded by over 370 unique users. Several chapters in this dissertation demonstrate this software’s power and versatility in the thermodynamic investigations of two model systems in both aqueous and non-aqueous media. In chapter VI, we assembled a model NHE-III1 : a novel structure of Gquadruplex in a double stranded form and studied its structural complexity and binding interactions with a classical G-quaduplex interactive ligand known as TMPyP4. In chapter VII, we reported the thermodynamic properties of a novel PAH system in which weak dispersion forces are solely responsible for formation of the supramolecular complexes.
109

Study of DNA damage on DNA G-quadruplexes and biophysical evaluation of the effects of modified bases (lesions) on their conformation and stability

Aggrawal, Manali 01 January 2014 (has links) (PDF)
Exposure of DNA to reactive oxygen species (ROS) results in the modified nucleobases (lesions) as well as strand scissions under physiological conditions. Due to its lowest oxidation potential (1.29 eV), guanine is the most easily oxidisable nucleobase. Furthermore, it has been observed that the 5'-guanine in G-tracts (e.g. GGG) has even lower oxidation potential (1.00 V vs. NHE). One of the representative G-rich examples is telomeres that consist of repeating units of 5'-d [TTAGGG]-3' found at the ends of chromosomes. Telomeres play an important role in biological functions, serving as guardians of genome stability; however, their G-rich nature implies that they can be readily oxidized. So how does nature protect these biologically important regions from oxidation? We believe the formation of a secondary structure known as G-Quadruplex in telomeric regions can partly serve as a protective role. In the first part of this work, we investigated DNA G-Quadruplex damage under various oxidation conditions and compare the damage results with single-stranded telomeric sequences. Damage to G-Quadruplex is generally less than single strands and is condition dependent. Guanines are the primary damage sites, but damage of adenine and thymine is also possible. Based on our studies, telomeric DNA can be readily oxidized to produce DNA lesions. How do DNA lesions affect the conformation and the stability of telomeric G-Quadruplex DNA? In the second part, we sought to address this question using various biophysical methods. Several native (OxodG, OxodA, and abasic site) and non-native (8-NH 2 -dA and 8-Br-dA) lesions were tested. UV thermal denaturation and circular dichroism revealed that the conformation and the stability of G-Quadruplex DNA are dependent on the location and the type of lesion in the sequence. G-Quadruplex DNA containing OxodG maintains its conformation with a decreased stability. Abasic site in the TTA loop affects the conformation of G-Quadruplex DNA but shows little effect on its stability. An unexpected stabilization of telomeric G-Quadruplex DNA was observed when deoxyadenosine (dA) in the loops was replaced with its native oxidized form OxodA. This is the first example of native DNA lesion that increases the stability of G-Quadruplex DNA. Like OxodA lesion, 8-NH 2 -dA (a non native DNA lesion) increases the stability of G-Quadruplex DNA while 8-Br-dA only affects the stability in KCl but has no significant effect in NaCl. In addition, studies of the effect of OxodA lesion on the human telomerase activity using TRAP assay will be discussed.
110

BIOGENESIS AND FUNCTIONAL APPLICATIONS OF PIWI INTERACTING RNAs (piRNAs)

Balaratnam, Sumirtha 25 July 2018 (has links)
No description available.

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