Global ETD Search

31	Evaluation of eukaryotic cultured cells as a model to study extracellular DNA / D.L. Peters Peters, Dimetrie Leslie January 2011 (has links) The diagnostic value of extracellular occurring DNA (eoDNA) is limited by our lack of understanding its biological function. eoDNA exists in a number of forms, namely vesicle bound DNA, histone/DNA complexes or nucleosomes and virtosomes. These forms of DNA can also be categorized under the terms circulating DNA, cell free DNA, free DNA and extracellular DNA. The DNA can be released by means of form–specific mechanisms and seem to be governed by cell cycle phases and apoptosis. Active release is supported by evidence of energy dependant release mechanisms and various immunological– and messenger functions. Sequencing has shown that eoDNA sequences present in the nucleome reflects traits and distribution of genome sequences and are regulated by ways of release and/or clearance. eoDNA enables the horizontal transfer of gene sequences from one cell to another, over various distances. The ability of eoDNA to partake in horizontal gene transfer makes it an important facet in the field of epigenetic variation. Clinical implementation of eoDNA diagnostics requires that all of the subgroups of eoDNA be properly investigated. It is suggested that eoDNA is the result of the metabolic fraction of DNA that is released by the cell. Various observations indicate that eoDNA may also be incorporated into the genome of a cell, from where it may affect cell function. Therefore horizontal gene transfer in higher organisms is a real possibility. In this study, variations and increases in eoDNA levels over time correlate with stressors that are subjected to 143B human osteosarcoma cells. It seems viable to assume that a stressor is met by a change in the molecular machinery of a cell, required to neutralise the onset of metabolic instability. This may be done by amplification of necessary cistrons, producing metabolic DNA, that may then be observed after its release as eoDNA. The presence of hydrolysing enzymes gives an updated real time picture of the state of eoDNA. The eogenics hypothesis emanating from this study, suggests that amplification and horizontal transfer of cistrons affect tissue and organ function over long periods of time, in order for an organism to evolve one or more a specialized genomes. / Thesis (M.Sc. (Biochemistry))--North-West University, Potchefstroom Campus, 2011. Circulating Extracellular Nucleic Acids Deoxyribonucleic acid (DNA) Horizontal Gene Transfer Virtosome Blood Nucleome
32	Evaluation of eukaryotic cultured cells as a model to study extracellular DNA / D.L. Peters Peters, Dimetrie Leslie January 2011 (has links) The diagnostic value of extracellular occurring DNA (eoDNA) is limited by our lack of understanding its biological function. eoDNA exists in a number of forms, namely vesicle bound DNA, histone/DNA complexes or nucleosomes and virtosomes. These forms of DNA can also be categorized under the terms circulating DNA, cell free DNA, free DNA and extracellular DNA. The DNA can be released by means of form–specific mechanisms and seem to be governed by cell cycle phases and apoptosis. Active release is supported by evidence of energy dependant release mechanisms and various immunological– and messenger functions. Sequencing has shown that eoDNA sequences present in the nucleome reflects traits and distribution of genome sequences and are regulated by ways of release and/or clearance. eoDNA enables the horizontal transfer of gene sequences from one cell to another, over various distances. The ability of eoDNA to partake in horizontal gene transfer makes it an important facet in the field of epigenetic variation. Clinical implementation of eoDNA diagnostics requires that all of the subgroups of eoDNA be properly investigated. It is suggested that eoDNA is the result of the metabolic fraction of DNA that is released by the cell. Various observations indicate that eoDNA may also be incorporated into the genome of a cell, from where it may affect cell function. Therefore horizontal gene transfer in higher organisms is a real possibility. In this study, variations and increases in eoDNA levels over time correlate with stressors that are subjected to 143B human osteosarcoma cells. It seems viable to assume that a stressor is met by a change in the molecular machinery of a cell, required to neutralise the onset of metabolic instability. This may be done by amplification of necessary cistrons, producing metabolic DNA, that may then be observed after its release as eoDNA. The presence of hydrolysing enzymes gives an updated real time picture of the state of eoDNA. The eogenics hypothesis emanating from this study, suggests that amplification and horizontal transfer of cistrons affect tissue and organ function over long periods of time, in order for an organism to evolve one or more a specialized genomes. / Thesis (M.Sc. (Biochemistry))--North-West University, Potchefstroom Campus, 2011. Circulating Extracellular Nucleic Acids Deoxyribonucleic acid (DNA) Horizontal Gene Transfer Virtosome Blood Nucleome
33	Multiple sequence alignment using particle swarm optimization Zablocki, Fabien Bernard Roman 16 January 2009 (has links) The recent advent of bioinformatics has given rise to the central and recurrent problem of optimally aligning biological sequences. Many techniques have been proposed in an attempt to solve this complex problem with varying degrees of success. This thesis investigates the application of a computational intelligence technique known as particle swarm optimization (PSO) to the multiple sequence alignment (MSA) problem. Firstly, the performance of the standard PSO (S-PSO) and its characteristics are fully analyzed. Secondly, a scalability study is conducted that aims at expanding the S-PSO’s application to complex MSAs, as well as studying the behaviour of three other kinds of PSOs on the same problems. Experimental results show that the PSO is efficient in solving the MSA problem and compares positively with well-known CLUSTAL X and T-COFFEE. / Dissertation (MSc)--University of Pretoria, 2009. / Computer Science / Unrestricted Computational intelligence Particle swarm optimization (PSO) Bioinformatics Artificial intelligence Multi sequence alignment Deoxyribonucleic acid (DNA) UCTD
34	DNA Binding Studies With The Transcriptional Activator Protein C Of Bacteriophage MU Ramesh, V 10 1900 (has links) (PDF) No description available. DNA (Deoxyribonucleic Acid) Bacteriophage Mu Protein - DNA Binding C Protein Mycobacterium tuberculosis Biochemistry
35	Desenvolvimento de sistemas nanoparticulados de quitosana visando aplicação em terapia gênica = Development of chitosan nanoparticles for application in gene therapy / Development of chitosan nanoparticles for application in gene therapy Sípoli, Caroline Casagrande, 1985- 12 November 2014 (has links) Orientador: Lucimara Gaziola de la Torre / Tese (doutorado) - Universidade Estadual de Campinas, Faculdade de Engenharia Química / Made available in DSpace on 2018-08-26T17:50:46Z (GMT). No. of bitstreams: 1 Sipoli_CarolineCasagrande_D.pdf: 4303538 bytes, checksum: 416499c84401c29f761041b6fe23813d (MD5) Previous issue date: 2014 / Resumo: O estudo de processos de produção de nanopartículas poliméricas, mais especificamente a quitosana (CHI), para aplicações em vacinação/terapia gênica é um desafio. Este trabalho teve como objetivo o desenvolvimento do processo de produção de nanopartículas de CHI com o agente reticulante tripolifosfato de sódio (TPP), sendo dividido em 3 etapas. A primeira etapa consistiu na produção destas partículas, avaliando a influência do pH da solução inicial de CHI (pH 4; 5 e 5,5). Para isso, utilizou-se um sistema de reator com chicanas e agitação mecânica com impelidor do tipo cowles facilmente escalonável. A caracterização físico-química das nanopartículas permitiu verificar as diferenças das partículas produzidas nos diferentes pH¿s. Um estudo de estabilidade simulando o ambiente de aplicação biológica foi realizado para avaliar as nanopartículas produzidas em pH¿s diferentes e verificou-se que as partículas produzidas nos pH¿s menores apresentaram maior estabilidade no período estudado (4 horas). A avaliaçãp biológica dos complexos preparados (DNA-CHI/TPP), em termos de transfecção in vitro em células HeLa indicou que não houve diferença entre as partículas produzidas nos diferentes pHs. A segunda, etapa do trabalho avaliou a influência da temperatura durante o processo de produção de nanopartículas de CHI/TPP utilizando o mesmo sistema anteriormente descrito. Foram avaliadas três diferentes condições isotérmicas e também a variação de temperatura ao longo da gelificação ionotrópica. Para este último caso, obteve-se nanopartículas com índice de polidispersidade significativamente menor do que os processos isotérmicos. 2 porcentagens de DNA (10 e 40% m/m) foram incoporadas às nanopartículas e a diferença em termos de pDNA incoporado apresentou diferentes eficiências de transfecção em células A293 ao longo do tempo, indicando uma liberação sustentada. Em termos de citotoxicidade, observou-se queda da viabilidade celular após 120 horas de incubação, sem ocorrer dependência da dose. Na terceira etapa realizou-se o uma análise exploratória para o desenvolvimento de um processo microfluídico para produção de partículas de CHI/TPP. Dois métodos foram estudados: focalização hidrodinâmica e emulsão temporária. O processo de emulsão temporária não foi reprodutível visto que a finalização desta etapa foi comprometida devido a precipitação da quitosana nos microcanais. As condições avaliadas para o método de focalização hidrodinâmica geraram nanopartículas de CHI/TPP com alto índice de polidispersidade. Este trabalho apresenta uma nova área de desenvolvimento de processos de produção de partículas poliméricas / Abstract: The study of polymeric nanoparticle production process, specifically chitosan (CHI), for gene vaccine/therapy application is a challenge. This work aims to the development of production process of chitosan (CHI) with the crosslinking agent pentasodium triphosphate (TPP), and it was divided into three steps. The first step was the production of these nanoparticles evaluating the influence of pH of chitosan solution (pH 4; 5; 5.5). For this purpose, the system used was a reactor with baffles, mechanical stirring with cowles impeller, easy to scale up. Physico-chemical characterization reveals the difference between the produced nanoparticle in the different pH¿s. One stability tests simulating the biological application environment was carried out to evaluate the nanoparticle produced in different pH¿s and it was possible to verify that the nanoparticles produced in lower pH¿s presented higher stability at the evaluated period (4 hours). The biological study of the prepared complexes (DNA-CHI/TPP), in terms of in vitro tranfection in in HeLa cells indicated no difference between between the nanoparticles produced in the different pHs. The second step of this work studied the influence of temperature the CHI/TPP nanoparticles production using the same system as previously reported. Three isothermal conditions and also temperature variation during the ionic gelation were tested. For this last condition, nanoparticles produced were significantly smaller in terms of PDI if compared to the isothermal process. 2 percentage of pDNA were incorporated (10 and 40% w/w) to the nanoparticles and the difference in terms of amount of pDNA showed different transfection efficiency in A293 cells over the time, suggesting sustained release capability. In terms of cytotoxicity, it was noticed that the cell viability decreased after 120 hours of incubation, and it is no dose-dependent. The third step was the exploratory investigation of microfluidic processes to obtain CHI/TPP nanoparticles. Two methods were studied: (i) temporary emulsion and (ii) hydrodynamic flow focusing. The temporary emulsion process was not reproducible since this step was not concluded due to the chitosan precipitation inside the microchannels. In hydrodynamic flow focusing, CHI/TPP nanoparticles presented high values of polydispersity index at the studied conditions. This work presents new area in the development of polymeric nanoparticles production processes. Keywords: chitosan nanoparticles, sodium triphsosphate, pH, temperature, plasmidial DNA, microfluidic, HeLa cells, A293 cells / Doutorado / Engenharia Química / Doutora em Engenharia Quimica Quitosana Nanopartículas Ácido desoxirribonucleico Nanotecnologia Terapia genética Transfecção Chitosan Nanoparticles Deoxyribonucleic acid Nanotechnology Gene Therapy
36	Detection of Babesia species in domestic and wild Southern African felids by means of DNA probes Bosman, Anna-Mari 03 January 2011 (has links) Feline babesiosis, first described in domestic cats in South Africa in 1937, is regarded to be of great importance in the coastal regions although isolated cases also occur on the eastern highlands of Mpumalanga Province. Babesia felis (described from domestic cats) and B. leo (described from lions) are the two best characterised Babesia species in felids. These two parasites are morphologically similar when examined under a light microscope, but are serologically and genetically distinct. In this study the prevalence of these two Babesia species in various wild and domestic felid species was determined. A total of 358 samples were tested using the reverse line blot hybridization (RLB) assay. This assay makes it possible to simultaneously detect and differentiate between blood parasites using DNA probes. The RLB consists of three basic steps, the first being amplification of the variable region (V4) in the 18S rRNA gene using genus-specific primers where one is labelled with biotin. This is followed by a blotting step, where the amplicons are hybridized to oligonucleotides bound to a nitrocellulose membrane. The third and last step is the detection of the hybridized amplicons by using chemiluminescence reagents. This assay is a screening tool utilizing the variable (V4) region in the 18S rRNA gene to detect and differentiate between blood parasites. A new B. felis-specific DNA probe was developed to use in the RLB assay. Results demonstrated that these two parasites not only occur in the felid species from which they have been described, but also in other felid species. Babesia microti was also detected in various felid species, while B. rossi was detected in 1 of the lion samples. Two hundred and twelve samples tested positive for Babesia spp., of which only 54.24% of the samples reacted with the genus-specific probe. This indicates the presence of a novel Babesia or Theileria species or variant of a species. / Dissertation (MSc)--University of Pretoria, 2010. / Veterinary Tropical Diseases / unrestricted Babesia felis South Africa (SA) Domestic cats Deoxyribonucleic acid (DNA) Babesia species UCTD
37	Finding Song Melody Similarities Using a DNA String Matching Algorithm Frey, Jeffrey Daniel 23 April 2008 (has links) No description available. Bioinformatics Computer Science Music music melody song mir deoxyribonucleic acid DNA smith waterman
38	Charge Transfer in Deoxyribonucleic Acid (DNA): Static Disorder, Dynamic Fluctuations and Complex Kinetic. Edirisinghe Pathirannehelage, Neranjan S 07 January 2011 (has links) The fact that loosely bonded DNA bases could tolerate large structural fluctuations, form a dissipative environment for a charge traveling through the DNA. Nonlinear stochastic nature of structural fluctuations facilitates rich charge dynamics in DNA. We study the complex charge dynamics by solving a nonlinear, stochastic, coupled system of differential equations. Charge transfer between donor and acceptor in DNA occurs via different mechanisms depending on the distance between donor and acceptor. It changes from tunneling regime to a polaron assisted hopping regime depending on the donor-acceptor separation. Also we found that charge transport strongly depends on the feasibility of polaron formation. Hence it has complex dependence on temperature and charge-vibrations coupling strength. Mismatched base pairs, such as different conformations of the G・A mispair, cause only minor structural changes in the host DNA molecule, thereby making mispair recognition an arduous task. Electron transport in DNA that depends strongly on the hopping transfer integrals between the nearest base pairs, which in turn are affected by the presence of a mispair, might be an attractive approach in this regard. I report here on our investigations, via the I –V characteristics, of the effect of a mispair on the electrical properties of homogeneous and generic DNA molecules. The I –V characteristics of DNA were studied numerically within the double-stranded tight-binding model. The parameters of the tight-binding model, such as the transfer integrals and on-site energies, are determined from first-principles calculations. The changes in electrical current through the DNA chain due to the presence of a mispair depend on the conformation of the G・A mispair and are appreciable for DNA consisting of up to 90 base pairs. For homogeneous DNA sequences the current through DNA is suppressed and the strongest suppression is realized for the G(anti)・A(syn) conformation of the G・A mispair. For inhomogeneous (generic) DNA molecules, the mispair result can be either suppression or an enhancement of the current, depending on the type of mispairs and actual DNA sequence. Deoxyribonucleic acid Non equilibrium Greens’ function Model hamiltonian Stochastic differential equations Polaron Parallel and distributed computing Astrophysics and Astronomy Physics
39	Usability of navigation tools in software for browsing genetic sequences Rutherford, Paul January 2008 (has links) Software to display and analyse DNA sequences is a crucial tool for bioinformatics research. The data of a DNA sequence has a relatively simple format but the length and sheer volume of data can create difficulties in navigation while maintaining overall context. This is one reason that current bioinformatics applications can be difficult to use. This research examines techniques for navigating through large single DNA sequences and their annotations. Navigation in DNA sequences is considered here in terms of the navigational activities: exploration, wayfinding and identifying objects. A process incorporating user-centred design was used to create prototypes involving panning and zooming of DNA sequences. This approach included a questionnaire to define the target users and their goals, an examination of existing bioinformatics applications to identify navigation designs, a heuristic evaluation of those designs, and a usability study of prototypes. Three designs for panning and five designs for zooming were selected for development. During usability testing, users were asked to perform common navigational activities using each of the designs. The “Connected View” design was found to be the most usable for panning while the “Zoom Slider” design was best for zooming and most useful zooming tool for tasks involving browsing. For some tasks the ability to zoom was unnecessary. The research provides important insights into the expectations that researchers have of bioinformatics applications and suitable methods for designing for that audience. The outcomes of this type of research can be used to help improve bioinformatics applications so that they will be truly usable by researchers. bioinformatics deoxyribonucleic acid usability user interface navigation browsing panning zooming user-centred design
40	Cofactor And DNA Interactions In The EcoPI DNA Methyltransferase Krishnamurthy, Vinita 04 1900 (has links) (PDF) No description available. DNA Methyltransferase Deoxyribonucleic Acid Enzymes AdoMet Binding DNA Cleavage Protein - DNA Binding EcoPI MTase EcoPI Restriction Enzyme Cell Biology

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