Global ETD Search

111	Discovering Protein Sequence-Structure Motifs and Two Applications to Structural Prediction Tang, Thomas Cheuk Kai January 2004 (has links) This thesis investigates the correlations between short protein peptide sequences and local tertiary structures. In particular, it introduces a novel algorithm for partitioning short protein segments into clusters of local sequence-structure motifs, and demonstrates that these motif clusters contain useful structural information via two applications to structural prediction. The first application utilizes motif clusters to predict local protein tertiary structures. A novel dynamic programming algorithm that performs comparably with some of the best existing algorithms is described. The second application exploits the capability of motif clusters in recognizing regular secondary structures to improve the performance of secondary structure prediction based on Support Vector Machines. Empirical results show significant improvement in overall prediction accuracy with no performance degradation in any specific aspect being measured. The encouraging results obtained illustrate the great potential of using local sequence-structure motifs to tackle protein structure predictions and possibly other important problems in computational biology. Computer Science Bioinformatics Data mining Clustering Secondary Structure Prediction Local Tertiary Structure Prediction SVM
112	On diverse biophysical aspects of genetics : from the action of regulators to the characterization of transcripts Fouquier D´Hérouel, Aymeric January 2011 (has links) Genetics is among the most rewarding fields of biology for the theoretically inclined, offering both room and need for modeling approaches in the light of an abundance of experimental data of different kinds. Many aspects of the field are today understood in terms of physical and chemical models, joined by information theoretical descriptions. This thesis discusses different mechanisms and phenomena related to genetics, employing tools from statistical physics along with experimental biomolecular methods. Five articles support this work. Two articles deal with interactions between proteins and DNA. The first one reports on the properties of non-specific binding of transcription factors proteins in the yeast Saccharomyces cerevisiae, due to an effective background free energy which describes the affinity of a single protein for random locations on DNA. We argue that a background pool of non-specific binding sites is filled up before specific binding sites can be occupied with high probability, thus presenting a natural filter for genetic responses to spurious transcription factor productions. The second article describes an algorithm for the inference of transcription factor binding sites for proteins using a realistic physical model. The functionality of the method is verified on a set of known binding sequences for Escherichia coli transcription factors. The third article describes a possible genetic feedback mechanism between human cells and the ubiquitous Epstein-Barr virus (EBV). 40 binding regions for the major EBV transcription factor EBNA1 are identified in human DNA. Several of these are located nearby genes of particular relevance in the context of EBV infection and the most interesting ones are discussed. The fourth article describes results obtained from a positional autocorrelation analysis of the human genome, a simple technique to visualize and classify sequence repeats, constituting large parts of eukaryotic genomes. Applying this analysis to genome sequences in which previously known repeats have been removed gives rise to signals corroborating the existence of yet unclassified repeats of surprisingly long periods. The fifth article combines computational predictions with a novel molecular biological method based on the rapid amplification of cDNA ends (RACE), coined 5’tagRACE. The first search for non-coding RNAs encoded in the genome of the opportunistic bacterium Enterococcus faecalis is performed here. Applying 5’tagRACE allows us to discover and map 29 novel ncRNAs, 10 putative novelm RNAs and 16 antisense transcriptional organizations. Further studies, which are not included as articles, on the monitoring of secondary structure formation of nucleic acids during thermal renaturation and the inference of genetic couplings of various kinds from massive gene expression data and computational predictions, are outlined in the central chapters. / QC 20110316 transcription regulation regulatory motifs binding affinity genetic interactions secondary structure sequence repeats transcript characterization Biological physics Biologisk fysik
113	THE DIFFERENCES BETWEEN IRON AND IRON-SUBSTITUTED MANGANESE SUPEROXIDE DISMUTASE WITH RESPECT TO HYDROGEN PEROXIDE TREATMENT Wang, Jianing 01 January 2014 (has links) Iron-substituted manganese superoxide dismutase (Fe(Mn)SOD) was produced using an in vivo preparation method. It’s an inactive enzyme in catalyzing superoxide radical dismutation owing to the mis-incorporation of Fe in the active site evolved to use Mn. To investigate the possible toxicity of human Fe(Mn)SOD proposed by Yamakura, we studied the properties of Fe(Mn)SOD upon H2O2 treatment and compared to that of FeSOD. It’s found that the responses to H2O2 treatment were different, including the changes of optical spectra, variations of active site coordination and secondary structures. Fe3+ reduction was not observed in Fe(Mn)SOD even H2O2 is believed to oxidize proteins via highly reactive intermediates including Fe and formed via Fe2+, which is true in FeSOD. What’s more, the activities of Fe(Mn)SOD and FeSOD were totally different in the ABTS assay or Amplex Red assay. These results indicated that the mechanism of peroxidase reaction of Fe(Mn)SOD is not identical to that of FeSOD. Hydrogen peroxide treatment Tryptophan modification secondary structure loss Alternate substrate oxidation Biochemistry
114	Propriedades físico-químicas da lectina KM+ monitoradas por dicroismo circular (CD) e fluorescência. Estimativa do conteúdo de estrutura secundaria por CD / Physico-chemical properties of lectin KM+ monitored by circular dichroism (CD) and fluorescence. Estimative of secondary structure content by CD Rosemeire Aparecida da Silva de Lucca 01 July 1994 (has links) Uma nova lectina extraída da semente de Artocarpus integrifólia, denominada KM+ foi recentemente descrita. KM+ e haptotática para neutrófilos, promove a aglutinação de hemácias dos grupos A, B, 0, estimula a proliferação de linfócitos do baço de camundongos e liga-se em &#945 D-manose, &#945 metil manosidio e &#945 D-glicose. Esta lectina é composta por quatro monômeros, com peso molecular de 13.150 daltons cada, unidos por interações não covalentes. KM+ contem 1,8% de carboidratos e apresentou quatro isoformas com pontos isoelétricos entre 4,2 e 5,2. Este trabalho teve como objetivos estudar modificações estruturais de KM+ em função de parâmetros como temperatura, força iônica, pH, agentes desnaturantes, ligação com D-manose, monitoradas por dicroísmo circular (CD) e fluorescência. CD também foi utilizado para estimar o conteúdo de estrutura secundaria de KM+, utilizando-se dois programas descritos na literatura: SSE (Secondary Structure Estimation), que utiliza o método dos mínimos quadrados para a estimativa da estrutura secundaria e obtenção dos espectros básicos, baseados nos dados cristalográficos de proteínas de .estrutura resolvida; CCA (Convex Constraint Analisys) que utiliza o algoritmo simplex e a partir dos espectros de CD das proteínas de referencia calcula os espectros das componentes básicas. Para a estimativa das frações de estrutura secundária o segundo método utiliza o programa Lincomb. Os espectros de CD foram registrados no intervalo de 185 a 260 nm. O conteúdo em estrutura secundária, estimado pelo programa SSE foi: 0% de &#945-hélice, 41% de folha &#946, 27% de volta &#946 e 32,3 de estrutura desordenada; pelo programa CCA foi: 1% de &#945-hélice, 35% de folha &#946 anti-paralela, 21% de volta &#946 e/ou folha &#946 paralela, 15% de contribuições de aromáticos e/ou ligações dissulfeto, 28% de estrutura desordenada. Os desvios médios quadráticos para os programas SSE e CCA foram 12% e 1%, respectivamente. Portanto a lectina KM+ é principalmente constituída por estruturas tipo folha &#946 e tipo desordenada. A curva calculada pelo programa CCA foi mais bem estimada, pois tem o desvio médio quadrático 12 vezes menor que o do programa SSE. Este resultado, provavelmente ocorre devido aos seguintes fatores: (i) no programa CCA, o espectro da proteína a ser analisada e alinhado com os espectros das proteínas de referência, influenciando no calculo dos espectros básicos; (ii) maior número de proteínas com estrutura &#946 no grupo de referência do programa CCA. A estabilidade de KM+ em função da temperatura tem comportamento diferente em tampão sódio fosfato (PBS) daquele observado em água. Em PBS, quando a amostra esta a 70&#176C, a forma do espectro de CD mostrou-se consistente com um espectro de proteína desnaturada. Comumente, um espectro de proteína desnaturada caracteriza-se pela perda da estrutura secundaria predominante e aumento da estrutura desordenada. Em água, também a 70&#176C, na região da estrutura &#946 (216 nm) surge uma nova banda e na região da estrutura desordenada (195 nm) aparece uma banda com valores positivos mimetizando um espectro da estrutura &#945-hélice. Esta diferença de comportamento pode ser devida à força iônica. A desorganização promovida na molécula de KM+ por cloreto de guanidina foi típica de desnaturação. o máximo da emissão de fluorescência, da KM+ em PBS pH 7,2, foi a 328 nm, característico de resíduos de triptofano protegidos do solvente. Este máximo mudou para 340 nm em pH 10,5. Este resultado indica mudanças no ambiente químico do triptofano neste pH. O deslocamento para a região do vermelho indica, que em pH. os resíduos de triptofano estio em maior contato com o solvente. O número de sitios ligantes de D-manose J)a molécula de KM+, foi estimado pela supressão da fluorescência promovida pelo D-manose. Esta estimativa foi baseada na suposição de que todos os sítios ligantes de D-manose estivessem próximos aos resíduos de triptofano. A relação encontrada foi de 2 moles de D-manose/mol de KM+ / Recently a new lectin, KM+, isolated from Artocarpus integrifolia seeds was described. KM+ induces neutrophil migration, agglutination of human red blood cells, proliferation of mouse spleen cells and binding with monosacharides D-mannose, D-glicose and &#945-metil mannoside. This glycoprotein is composed of four monomers, assembled by non covalent bonds, has 500 aminoacids residues/mol, with a Molecular Weight of 52,000 Daltons and 1.8% of carbohydrates [27]. In this work structural changes of KM+ was studied as a function of temperature, pH, chemical denaturing agents as well as the binding with D-mannose. These changes were monitored by circular dichroism (CD) and fluorimetry. Circular Dichroism (CD) spectroscopy was used for the analysis of the secondary structure of KM+ in solution due do its capacity to indicate the presence and to estimate the proportion of &#945-helix, &#946-sheet, &#946-turn and unordered conformations. This measurent can be regarded as a function of the relative orientation of the chromophores responsible for their chiroptical activity. CD spectroscopy is also one of the methods of choice for monitorization of conformational changes in proteins as a function of solvents, pH, temperature, ionic strength and specific or non specific binding. Two programs which are in use for estimation of secondary structure: SSE, using the linear least squares method and CCA, using the simplex method, were evaluated in the present work. SSE uses a set of proteins with known X-ray data as the basis for evaluation while CCA uses only pure proteins experimental CD spectra. Fluorescence spectroscopy is very useful to monitore of protein conformational changes in solution due to the presence of intrinsic fluorophores. Fluorescence Measurements were performed at 25&#176C. Samples were excited at 280 nm and the emission was monitored in the range 290-450 nm. The maximum emission as a function of pH was at pH 7.0. The wavelength for maximum emission changed from 328 nm at pH 7.0 to 340 nm at pH 10.5. CD spectra were recorded over the range of 185 up to 260 nm. The Secondary structure content estimated by SSE program was: 0% &#945-helix, 41% &#946-sheet, 26% &#946-turn and 32% random with RMS of 12% and CCA program was: 1% &#945-helix, 35% antiparallel &#946-sheet, 21% &#946-turn and/or parallel B-sheet, 28% random, 15% aromatics contributions and dissulfide linkages with RMS of 1%. The fractions of secondary structure obtained when using CCA program were more consistent than those of SSE program. The simulation by CCA program was better probably due to its desconvolution of the spectral contribution of the common secondary structures using experimental CD curves of proteins. The stability of KM+, in PBS, as a function of temperature changes above 55&#176C but only at 70&#176C the shape of the CD spectrum is consistent with the loss of the native ordered secondary structure that should accompany protein unfolding. CD spectra of KM+ in water showed conformational changes as a function of temperature was not consistent with denaturated proteins. The unfolding of KM+ by GdnCl and SDS resulted in CD spectroscopic changes: consistent with the increased random structure and disappearance of beta sheet. Using the two denaturing agents together GdnCl and temperature, the denaturation was observed at lower decreased both GdnCl concentration and at lower temperature. The estimation of the number of binding sites for D-mannose was obtained through the fluorescence intensity decrease due to a quenching effect of D-mannose and showed that the stoichiometry of binding was 2 moles of D-mannoseimol of lectin Dicroismo Circular Estrutura secundaria Fluorescência de lectinas Lectina Lectina CD Circular Dichroism Lectin Lectin fluorescence Lectins CD Secondary structure
115	Interactions et stabilité des protéines étudiées par spectroscopies infrarouge et Raman / Interactions and stability of proteins studied by infrared and Raman spectroscopies Khalil, Mireille 26 January 2016 (has links) Ce travail de thèse est porté sur l’étude des interactions protéines-protéines, protéines-peptides ainsi que la stabilité des protéines en faisant appel à la spectroscopie Raman et infrarouge. Dans la première partie, nous nous sommes focalisés sur l’étude de l’interaction entre les différentes protéines d’adrénodoxine et d’adrénodoxine réductase afin d’apporter de nouvelles données pour compléter la compréhension du mécanisme d’échange électronique. Le deuxième objectif à atteindre dans le cadre de ce travail est de suivre les changements conformationnels au niveau de la structure secondaire et tertiaire qui se produisent en présence et en absence des peptides lors de la formation des complexes. Enfin, la dernière partie est dédiée dans un premier temps à une étude comparative de la stabilité des hémocyanines de Limulus polyphemus et Eurypelma californicum issue de deux organismes ayant des conditions de vie différentes en suivant l’effet de la température (294-20 K) et du pH sur la structure secondaire des protéines. Dans un deuxième temps l’étude porte sur l’influence de la teneur en oxygène sur la structure secondaire et sur le site actif des hemocyanines de Limulus polyphemus, Eurypelma californicum et Astacus leptodactylus. / This thesis is focused on the study of protein-protein and protein-peptide interactions as well as the study of proteins stability by means of Raman and infrared spectroscopies. In the first part, we focused on the interactions between different adrenodoxin and adrenodoxin reductase proteins in order to get a better understanding of the electron transfer mechanism. The second part of the thesis concerns the changes in the secondary and tertiary structure of PDZ domains in the presence and absence of peptides during complex formation. The last part is dedicated to a comparative study of hemocyanins originated from organisms living in vastly different conditions such as Limulus polyphemus and Eurypelma californicum. This part of the project concerns the effect of temperature (294-20 K) and pH on the secondary structure of proteins. Finally the influence of oxygen binding on the secondary structure and the active site of Limulus polyphemus, Eurypelma californicum and Astacus leptodactylus was investigated. Spectroscopie Raman et infrarouge Cryostat Structure secondaire Interaction Protéine Raman spectroscopy and infrared Cryostat Secondary structure Interaction Protein 572.6
116	Substitution de la liaison amide par un triazole 1,4- disubstitué dans le but d’étudier l’impact de ce remplacement sur la structure secondaire et l’activité biologique de peptides / Substitution of amide bond by 1,4-disubstituted-1,2,3-triazole. Impact of such replacement on the secondary structure and biological activity of peptides. Ben Haj Salah, Khoubaib 29 September 2015 (has links) La réaction de cycloaddition entre un azoture et un alcyne catalysée par le cuivre (I) (CuAAC) pour former un 1,2,3-triazole 1,4-disubstitué est très utilisée dans de nombreux domaines de la chimie. Cette réaction a très vite été utilisée en synthèse peptidique notamment du fait du caractère isostère du noyau triazole et de la liaison amide. Toutefois l'impact de l'insertion d'un triazole sur la structure secondaire de peptides n'a été que faiblement exploré. Ainsi, pour étudier l'effet d'un tel remplacement nous avons choisi deux peptides modèles structurés le premier modèle est un peptide linéaire de la famille des peptaibols et le second est un peptide cyclique la tamandarine B. Dans un premier temps, nous avons optimisé une voie de synthèse de peptaibols que nous avons appliqué à l'alaméthicine F50/5 et à un analogue de la bergofungine D. Pour cela, nous avons utilisé une synthèse peptidique en phase solide sous irradiation micro-ondes en profitant d'un cocktail de réactifs efficaces contenant du diisopropylcarbodiimide comme agent de couplage et de l'oxyma. Cette méthode de synthèse a été étendue à l'obtention d'analogues silylés de l'alamethicine en substituant dans différentes positions l'acide aminobutyrique par un résidu hydrophobe et encombré : la bis-triethylsilyl-dipropylglycine (TES-Dpg). Dans la deuxième partie nous avons développé la synthèse de dipeptides à motif triazole. Puis nous avons défini les conditions réactionnelles nécessaires pour leur utilisation en SPPS et synthétisé des peptides contenant plusieurs motifs triazoles. Ces dipeptides ont ensuite été utilisés pour réaliser un scan triazole sur les deux peptaibols modèles. Les études structurales par dichroïsme circulaire, RMN et les tests biologiques de différents analogues nous permettent de conclure que le triazole affecte la structure secondaire des peptaibols et par conséquence induit une perte d'activité. Ainsi il apparaît que le concept de triazole comme isostère de la liaison peptidique doit être employé avec prudence. Dans l'optique de comprendre l'impact de triazole sur l'activité et la structure secondaire de peptides cycliques, nous avons généré des analogues simplifiés de la tamandarine B un depsipeptide cyclique d'origine marine. Nous rapportons les résultats préliminaires de cette étude. / The cycloaddition reaction between an azide and an alkyne catalyzed by copper (I) (CuAAC) to form a 1,2,3-triazole 1,4-disubstituted is widely used in many areas of chemistry. This reaction was rapidily used in peptide synthesis because of the isosteric nature between the triazole ring and the amide bond. However, impact of the insertion of a triazole on the secondary structure of peptides was only scarcely explored. Thus, to study the effect of such a replacement we chose two models of structured peptides. The first models are linear peptides of the peptaibols family and the second is the cyclic peptide tamandarin B.First, we have optimized a peptaibols synthesis that was applied to alamethicin F50 / 5 and to an analog of bergofungin D. For this we used a solid phase peptide synthesis under microwave irradiation taking advantage of the efficient cocktail consisting of diisopropylcarbodiimide as a coupling agent and Oxyma. This synthesis has been extended to silylated analogues of alamethicin by substituting in different positions the aminobutyric acid by the hydrophobic and crowded residue: bis-triethylsilyl-dipropylglycine (Dpg-TES).In the second part we have developed the synthesis of dipeptides containing a triazole motif. Then we defined the reaction conditions necessary for their use in SPPS and synthesized peptides containing several triazoles rings. These dipeptides were then used to perform a triazole scan on the two peptaibols models. The structural studies by circular dichroism, NMR and biological tests of various analogs allow us to conclude that the triazole affect the secondary structure of peptaibols and consequently induces a loss of activity. Thus it appears that the concept of triazole as isosteric of the peptide bond should be used with caution.In order to understand the triazole impact on the activity and the secondary structure of cyclic peptides, we generated simplified cyclic analogues of tamandarin B a depsipeptide of marine origin. We report the preliminary results of this study. Peptaibols Tamandarin B Structure secondaire CuAAC 1.2.3-Triazole Peptidomimétique Peptaibols Tamandarin B Secondary structure CuAAC 1.2.3-Triazole Peptidomics
117	Predikce sekundární struktury RNA sekvencí / Prediction of RNA secondary structure Klímová, Markéta January 2015 (has links) RNA secondary structure is very important in many biological processes. Efficient structure prediction can give information for experimental investigations of these processes. Many available programs for secondary structure prediction exist. Some of them use single sequence, the others use more related sequences. Pseudoknots are still problematic for most methods. This work presents several methods and publicly available software and the implementation of minimum free energy method is described.
118	Recoding of viral mRNAs by –1 programmed ribosome frameshifting Korniy, Natalia 17 May 2019 (has links) No description available. 570 ribosome translation programmed ribosome frameshifting HIV-1 SFV tRNA abundance mRNA secondary structure enhancer Biologie (PPN619462639)
119	Conserved RNA secondary structures in Flaviviridae genomes Thurner, Caroline, Witwer, Christina, Hofacker, Ivo L., Stadler, Peter F. 16 October 2018 (has links) Presented here is a comprehensive computational survey of evolutionarily conserved secondary structure motifs in the genomic RNAs of the family Flaviviridae. This virus family consists of the three genera Flavivirus, Pestivirus and Hepacivirus and the group of GB virus C/hepatitis G virus with a currently uncertain taxonomic classification. Based on the control of replication and translation, two subgroups were considered separately: the genus Flavivirus, with its type I cap structure at the 5′ untranslated region (UTR) and a highly structured 3′ UTR, and the remaining three groups, which exhibit translation control by means of an internal ribosomal entry site (IRES) in the 5′ UTR and a much shorter less-structured 3′ UTR. The main findings of this survey are strong hints for the possibility of genome cyclization in hepatitis C virus and GB virus C/hepatitis G virus in addition to the flaviviruses; a surprisingly large number of conserved RNA motifs in the coding regions; and a lower level of detailed structural conservation in the IRES and 3′ UTR motifs than reported in the literature. An electronic atlas organizes the information on the more than 150 conserved, and therefore putatively functional, RNA secondary structure elements. info:eu-repo/classification/ddc/572.88 ddc:572.88
120	Thermodynamics of RNA-RNA binding Mückstein, Ulrike, Tafer, Hakim, Hackermüller, Jörg, Bernhart, Stephan H., Stadler, Peter F., Hofacker, Ivo L. 24 October 2018 (has links) Background: Reliable prediction of RNA–RNA binding energies is crucial, e.g. for the understanding on RNAi, microRNA–mRNA binding and antisense interactions. The thermodynamics of such RNA–RNA interactions can be understood as the sum of two energy contributions: (1) the energy necessary to ‘open’ the binding site and (2) the energy gained from hybridization. Methods: We present an extension of the standard partition function approach to RNA secondary structures that computes the probabilities Pu[i, j] that a sequence interval [i, j] is unpaired. Results: Comparison with experimental data shows that Pu[i, j] can be applied as a significant determinant of local target site accessibility for RNA interference (RNAi). Furthermore, these quantities can be used to rigorously determine binding free energies of short oligomers to large mRNA targets. The resource consumption is comparable with a single partition function computation for the large target molecule. We can show that RNAi efficiency correlates well with the binding energies of siRNAs to their respective mRNA target. info:eu-repo/classification/ddc/572.8 ddc:572.8

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