Global ETD Search

151	The design of multifunctional hydrogel nanoparticles for drug delivery Smith, Michael Hughes 23 February 2012 (has links) Hydrogel micro- and nanoparticles (microgels and nanogels) are a promising class of drug delivery vehicles. Composed of hydrophilic polymers arranged into a cross-linked network structure, nanogels show several attractive features for the delivery of macromolecule therapeutics. For instance, the hydrated, porous internal cavity of the nanogel may serve as a high capacity compartment for loading macromolecules, whereas the periphery of the nanogel may be used as a scaffold for conjugating cell-specific targeting moieties. This dissertation presents recent investigations of nanogels as targeted delivery vehicles for oligonucleotides to cancer cells, while exploring new nanogel chemistries that enable future in vivo applications. For instance, synthetic efforts have produced particles capable of erosion into low molar mass constituents, providing a possible mechanism of particle clearance after repeated administration in vivo. In another example, the microgel network chemistry was tuned to promote the encapsulation of charged proteins. In parallel with those synthetic efforts, new light scattering methodologies were developed to accurately quantify the particle behaviors (e.g. loading, erosion). Using multiangle light scattering (MALS), changes in particle molar mass and radius were measured, providing a quantitative and direct approach for monitoring nanogel erosion and macromolecule encapsulation. The new particle chemistries demonstrated, together with enabling light scattering methods, will catalyze the development of improved delivery vehicles in the near future. Light scattering SiRNA RNA interference Microgel Drug delivery Hydrogel particle Nanogel Drug delivery systems Nanogels Colloids Nanostructured materials
152	Functional genomic analysis of cell cycle progression in human tissue culture cells Kittler, Ralf 19 October 2006 (has links) (PDF) The eukaryotic cell cycle orchestrates the precise duplication and distribution of the genetic material, cytoplasm and membranes to daughter cells. In multicellular eukaryotes, cell cycle regulation also governs various organisatorial processes ranging from gametogenesis over multicellular development to tissue formation and repair. Consequently, defects in cell cycle regulation provoke a variety of human cancers. A global view of genes and pathways governing the human cell cycle would advance many research areas and may also deliver novel cancer targets. Therefore this work aimed on the genome-wide identification and systematic characterisation of genes required for cell cycle progression in human cells. I developed a highly specific and efficient RNA interference (RNAi) technology to realize the potential of RNAi for genome-wide screening of the genes essential for cell cycle progression in human tissue culture cells. This approach is based on the large-scale enzymatic digestion of long dsRNAs for the rapid and cost-efficient generation of libraries of highly complex pools of endoribonuclease-prepared siRNAs (esiRNAs). The analysis of the silencing efficiency and specificity of esiRNAs and siRNAs revealed that esiRNAs are as efficient for mRNA degradation as chemically synthesized siRNA designed with state-of-the-art design algorithms, while exhibiting a markedly reduced number of off-target effects. After demonstrating the effectiveness of this approach in a proof-of-concept study, I screened a genome-wide esiRNA library and used three assays to generate a quantitative and reproducible multi-parameter profile for the 1389 identified genes. The resulting phenotypic signatures were used to assign novel cell cycle functions to genes by combining hierarchical clustering, bioinformatics and proteomic data mining. This global perspective on gene functions in the human cell cycle presents a framework for the systematic documentation necessary for the understanding of cell cycle progression and its misregulation in diseases. The identification of novel genes with a role in human cell cycle progression is a starting point for an in-depth analysis of their specific functions, which requires the validation of the observed RNAi phenotype by genetic rescue, the study of the subcellular localisation and the identification of interaction partners of the expressed protein. One strategy to achieve these experimental goals is the expression of RNAi resistant and/or tagged transgenes. A major obstacle for transgenesis in mammalian tissue culture cells is the lack of efficient homologous recombination limiting the use of cultured mammalian cells as a real genetic system like yeast. I developed a technology circumventing this problem by expressing an orthologous gene from a closely related species including its regulatory sequences carried on a bacterial artificial chromosome (BAC). This technology allows physiological expression of the transgene, which cannot be achieved with conventional cDNA expression constructs. The use of the orthologous gene from a closely related species confers RNAi resistance to the transgene allowing the depletion of the endogenous gene by RNAi. Thus, this technology mimics homologous recombination by replacing an endogenous gene with a transgene while maintaining normal gene expression. In combination with recombineering strategies this technology is useful for RNAi rescue experiments, protein localisation and the identification of protein interaction partners in mammalian tissue culture cells. In summary, this thesis presents a major technical advance for large-scale functional genomic studies in mammalian tissue culture cells and provides novel insights into various aspects of cell cycle progression. (Die Druckexemplare enthalten jeweils eine CD-ROM als Anlagenteil: 217 MB: Movies, Rohdaten - Nutzung: Referat Informationsvermittlung der SLUB) functional genomics RNA interference cell cycle Funktionelle Genomik RNA-Interferenz Zellzyklus ddc:570 rvk:WE 2500 Genomik RNS-Interferenz Zellzyklus
153	Auswirkungen des LRRK2-Knockdown durch RNA-Interferenz auf die murine dopaminerge Zelllinie MN9D Fransecky, Lars 17 July 2009 (has links) (PDF) Mutationen im Protein LRRK2 wurden im Zusammenhang mit klinischen Symptomen beschrieben, die dem Idiopathischen Parkinsonsyndrom (IPS) nahezu gleichen. So findet sich neben vielen anderen Mutationen die häufigste pathogene Mutation für das IPS im LRRK2-Gen. Die Aufklärung der molekularbiologischen Mechanismen, die zur Pathologie der spezifischen Neurodegeneration in der Substantia nigra Pars Compacta (SNpc) und somit zur Idiopathischen Parkinsonssyndrom führen, ist mit der Hoffnung auf kausale und kurative Therapieansätze verbunden. In dieser medizinischen Doktorarbeit soll daher versucht werden, die biologische Funktion des LRRK2 in einem dopaminergen Mauszellmodell näher zu beschreiben. Hierfür soll die genetische Aktivität des LRRK2 in mesenzephalen, sogenannten MN9D-Zellen reduziert werden, indem der Mechanismus der RNA-Interferenz in vitro durch Transfektion von siRNA angestoßen wird. Durch die Reduktion der LRRK2-Aktivität sollen Veränderungen in den MN9D-Zellen induziert und diese objektiviert werden. Die Darstellung der Beobachtungen konzentriert sich auf die transkriptionelle Expression von Genen des Zellzyklus sowie der neuralen und dopaminergen Differenzierung (Tyrosinhydroxylase, Nestin und β-Tubulin) durch PCR. Die Proliferation der Zellen vor und nach den RNA-Interferenzexperimenten soll global durch MTT- und BrdU-Test gemessen werden. LRRK2 RNA interference RNAi MN9D IPS LRRK2 RNAi RNA Interferenz MN9D IPS ddc:610 rvk:WG 7200 rvk:YG 5504
154	Knockdown von Runx2 durch RNA-Interference in chondrogenen Progenitor-Zellen / Knockdown of Runx2 with RNA-interference in chondrogenic progenitor cells Klein, Moritz 26 March 2014 (has links) No description available. 610 Runx2 Sox9 Osteoarthritis RNA-interference chondrogenic progenitorcells Nucleofaction Medizin (PPN619874732)
155	Na/K ATPase : signaling versus pumping Liang, Man. January 2006 (has links) Thesis (Ph.D.)--University of Toledo, 2006. / "In partial fulfillment of the requirements for the degree of Doctor of Philosophy in Biomedical Sciences." Major advisor: Zi-Jian Xie. Includes abstract. Document formatted into pages: iii, 156 p. Title from title page of PDF document. Bibliography: pages 64-67, 97-100, 116-117, 125-155.
156	Analysis of RNA Interference in <em>C. elegans</em>: A Dissertation Grishok, Alla 27 September 2001 (has links) RNA interference (RNAi) in the nematode Caenorhabditis elegans is a type of homology-dependent post-transcriptional gene silencing induced by dsRNA. This dissertation describes the genetic analysis of the RNA interference pathway and inheritance properties associated with this phenomenon. We demonstrate that the RNAi effect can be observed in the progeny of the injected animal for at least two generations. Transmission of the interference effect occurs through a dominant extragenic agent. The wild-type activities of the RNAi pathway genes rde-l and rde-4 are required for the formation of this interfering agent but are not needed for interference thereafter. In contrast, the rde-2 and mut-7 genes are required downstream for interference. These findings provide evidence for germline transmission of an extragenic sequence-specific silencing factor and implicate rde-l and rde-4in the formation of the inherited agent. Other forms of homology-dependent silencing in C. elegansinclude co-suppression and transcriptional silencing of transgenes in the germline. We demonstrate that silencing of a germline transgene can be initiated by injected dsRNA, via the RNAi pathway, and then maintained on a different level. This observation indicates that post-transcriptional and transcriptional silencing of homologous genes could be connected. This dissertation also describes the connection between RNAi and developmental pathways of gene regulation in C. elegans. We show that inactivation of genes related to RNAi pathway genes, a homolog of Drosophila Dicer (dcr-l), and two homologs of rde-1 (alg-l and alg-2) cause heterochronic phenotypes similar to lin-4 and let-7 mutations. Further we show that dcr-l, alg-l, and alg-2 are necessary for the maturation and activity of the lin-4 and let-7small temporal RNAs that regulate stage-specific development. Our findings suggest that a common processing machinery generates guide RNAs that mediate both RNAi and endogenous gene regulation. Finally, this study illustrates the detection of small interfering RNAs (siRNAs), intermediates in the RNAi process, and describes requirements for their accumulation. We show that, in the course of RNAi induced by feeding dsRNA, C. elegans accumulate only siRNAs complementary to the target gene. This accumulation depends on the presence of the target sequence and requires activities of several RNAi-pathway genes. We show that selective retention or amplification of RNAi-active molecules can create a reservoir of memory antisense siRNAs that prevent future expression of the genes with complementary sequence. This suggests a parallel at the molecular level with the clonal selection of antibody forming cells and in the vertebrate immune system. Caenorhabditis elegans RNA Interference RNA Small Interfering Animal Experimentation and Research Genetic Phenomena Hemic and Immune Systems
157	A Biochemical Dissection of the RNA Interference Pathway in <em>Drosophila melanogaster</em>: A Dissertation Haley, Benjamin 24 August 2005 (has links) In diverse eukaryotic organisms, double-stranded RNA (dsRNA) induces robust silencing of cellular RNA cognate to either strand of the input dsRNA; a phenomenon now known as RNA interference (RNAi). Within the RNAi pathway, small, 21 nucleotide (nt) duplexed RNA, dubbed small interfering RNAs (siRNAs), derived from the longer input dsRNA, guide the RNA induced silencing complex (RISC) to destroy its target RNA. Due to its ability to silence virtually any gene, whether endogenous or exogenous, in a variety of model organisms and systems, RNAi has become a valuable laboratory tool, and is even being heralded as a potential therapy for an array of human diseases. In order to understand this complex and unique pathway, we have undertaken the biochemical characterization of RNAi in the model insect, Drosophila melanogaster. To begin, we investigated the role of ATP in the RNAi pathway. Our data reveal several ATP-dependent steps and suggest that the RNAi reaction comprises as least five sequential stages: ATP-dependent processing of double-stranded RNA into siRNAs, ATP-independent incorporation of siRNAs into an inactive ~360 kDa protein/RNA complex, ATP-dependent unwinding of the siRNA duplex to generate an active complex, ATP-dependent activation of RISC following siRNA unwinding, and ATP-independent recognition and cleavage of the RNA target. In addition, ATP is used to maintain 5´ phosphates on siRNAs, and only siRNAs with these characteristic 5´ phosphates gain entry into the RNAi pathway. Next, we determined that RISC programmed exogenously with an siRNA, like that programmed endogenously with microRNAs (miRNAs), is an enzyme. However, while RISC behaves like a classical Michaelis-Menten enzyme in the presence of ATP, without ATP, multiple rounds of catalysis are limited by release of RISC-produced cleavage products. Kinetic analysis of RISC suggests that different regions of the siRNA play distinct roles in the cycle of target recognition, cleavage and product release. Bases near the siRNA 5´ end disproportionately contribute to target RNA-binding energy, whereas base pairs formed by the central and 3´ region of the siRNA provide helical geometry required for catalysis. Lastly, the position of the scissile phosphate is determined during RISC assembly, before the siRNA encounters its RNA target. In the course of performing the kinetic assessment of RISC, we observed that when siRNAs are designed with regard to 'functional asymmetry' (by unpairing the 5´ terminal nucleotide of the siRNA's guide strand, i.e. the strand anti-sense to the target RNA), not all of the RISC formed was active for target cleavage. We observed, somewhat paradoxically, that increased siRNA unwinding and subsequent accumulation of single-stranded RNA into RISC led to reduced levels of active RISC formation. This inactive RISC did not act as a competitor for the active fraction. In order to characterize this non-cleaving complex, we performed a series of protein-siRNA photo-crosslinking assays. From these assays we found that thermodynamic stability and termini structure plays a role in determining which proteins an siRNA will associate with, and how association occurs. Furthermore, we have found, by means of the photo-crosslinking assays, that siRNAs commingle with components of the miRNA pathway, particularly Ago1, suggesting overlapping functions or crosstalk for factors thought to be involved in separate, distinct pathways. Gene Silencing RNA Interference Adenosine Triphosphate RNA Processing Post-Transcriptional RNA Double-Stranded Animal Experimentation and Research
158	O uso de interferência por RNA para a análise da função do gene E2F1 na progressão do ciclo celular em células tumorais / Use of RNA interference for the analysis of E2F1 gene function in cell cycle progression in tumor cells Oliveira, Maria Theresa de [UNIFESP] 27 October 2010 (has links) (PDF) Made available in DSpace on 2015-07-22T20:50:30Z (GMT). No. of bitstreams: 0 Previous issue date: 2010-10-27. Added 1 bitstream(s) on 2015-08-11T03:25:30Z : No. of bitstreams: 1 Publico-00376a.pdf: 1954101 bytes, checksum: ab9812845158d2c4c296f255d1304dac (MD5). Added 1 bitstream(s) on 2015-08-11T03:25:30Z : No. of bitstreams: 2 Publico-00376a.pdf: 1954101 bytes, checksum: ab9812845158d2c4c296f255d1304dac (MD5) Publico-00376b.pdf: 1910033 bytes, checksum: 3104d18a155b521c486f36410aae2b4c (MD5). 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Added 1 bitstream(s) on 2015-08-11T03:25:31Z : No. of bitstreams: 6 Publico-00376a.pdf: 1954101 bytes, checksum: ab9812845158d2c4c296f255d1304dac (MD5) Publico-00376b.pdf: 1910033 bytes, checksum: 3104d18a155b521c486f36410aae2b4c (MD5) Publico-00376c.pdf: 1815310 bytes, checksum: ed9fd0e797e536bfb039209f57c2ba21 (MD5) Publico-00376d.pdf: 1673355 bytes, checksum: 0f8e3c112d9bf024a9c7e52fb4859991 (MD5) Publico-00376e.pdf: 1965795 bytes, checksum: 373c9589bb7d477fe5d31f7838237e5b (MD5) Publico-00376f.pdf: 1677823 bytes, checksum: d93d3b40f2c273e474e7fef525f351c8 (MD5) / E2F1 pertence a uma família de fatores de transcrição e possui papel central no controle da expressão de genes relacionados à regulação da proliferação celular, pois ativa genes que participam da síntese de DNA. A atividade de E2F1 é regulada por meio da proteína pRB que, quando fosforilada por quinases associadas à ciclinas (Ciclinas/CDK) libera este fator de transcrição, promovendo assim a proliferação. A disfunção da complexa via de regulação da divisão celular pode acarretar em proliferação exacerbada, sendo a superexpressão de E2F1 bastante comum em diferentes tipos de tumores. Este fenômeno pode ser o principal fator para a alta proliferação de células tumorais. Desta forma, a inibição da atividade de E2F1 através de RNA de interferência (RNAi) pode ser promissora como tratamento para a diminuição da proliferação de células de melanoma. Assim sendo, objetiva-se neste trabalho inativar por RNAi o gene E2f1 em células B16mCAR, derivadas de melanoma de C57BL/6 e que superexpressam o receptor CAR, e averiguar os efeitos de sua ausência na proliferação celular, tanto in vitro como in vivo. / E2F1 belongs to a family of transcription factors and plays a central role in controlling the expression of genes related to regulation of the cell-cycle progression, since it activates genes involved in DNA synthesis. The activity of E2F1 is regulated by pRB protein, that when phosphorylated by cyclin-dependent kinases cyclins (Cyclins/CDK) releases this transcription factor, thereby promoting proliferation. The dysfunction of the complex regulatory pathway of cell division can lead to excessive proliferation, which overexpression of E2F1 is quite common in different types of tumors. This phenomenon may be the main factor for the high proliferation of tumor cells. Thus, inhibition of E2F1 activity by RNA interference (RNAi) may be promising as a treatment for decreased proliferation of melanoma cells. Therefore, the purpose of this work is the inactivation of the E2f1 gene through RNAi in B16mCAR cells, derived from C57BL/6’s melanoma and overexpresses the CAR receptor, and also verifies the effects of its absence on cell proliferation in vitro and in vivo. / TEDE / BV UNIFESP: Teses e dissertações Adenovírus humanos Melanoma Proliferação celular Interferência de RNA Fator de transcrição E2F1 Adenoviruses, human Cell proliferation Melanoma RNA interference E2F1 transcription factor
159	RNA interference mediated virus resistance in transgenic wheat Rupp, Jessica Lynn Shoup January 1900 (has links) Doctor of Philosophy / Plant Pathology / John P. Fellers / Harold N. Trick / Wheat streak mosaic virus (WSMV) and Triticum mosaic virus (TriMV) are two viruses affecting wheat in the Great Plains region of the United States. Genetic resistance is severely limited, requiring management methods focusing on the deployment of resistant varieties and various cultural practices. Evaluation of resistance is complicated by the lack of a standard rating scale. The objective of this work was to develop new avenues to mitigate these challenges. A standardized virus symptom rating scale was developed using historical Kansas rating scales, and validated using multiple wheat populations. Two independent RNA interference (RNAi) expression vectors targeting portions of viral coat protein (CP) of WSMV and TriMV were previously transformed into wheat. T₂ plants and beyond were evaluated using PCR, reverse transcription-PCR and bioassays in which plants were challenged with their respective virus. These lines were evaluated for resistance through the T₆ generation. Crosses were made with the susceptible winter wheat cultivars, ‘Overley’ and ‘Karl 92.’ Real-time PCR results show viral titer was up to 20-fold lower in the T₆ transgenic lines, the F₁, and the BC₁F₁ compared to control plants. This provides evidence that this RNAi silencing method is stable in wheat over multiple generations. WSMV and TriMV use host eukaryotic initiation factors (eIF) in order to facilitate replication of their genomes. Previously created RNAi expression vectors were derived from the sequences of the wheat genes eIF(iso)4E-2 and eIF4G. Evaluation of these lines began in the T₁ generation. Resistance has been demonstrated in three lines of eIF(iso)4E-2 and four lines of eIF4G, derived by single seed descent. T₆ progeny co-infected with WSMV and TriMV continue to be resistant. Crosses have been performed with the winter wheat ‘Karl 92’ and three Kansas elite lines, KS030887K-6, KS09H19-2-3, and KS10HW78-1-1. RNAi construct effectiveness was evaluated using real-time PCR. Results show up to 18-fold reduction in viral titer in the transgenic lines, the F₁, and the BC₁F₁ in comparison to control plants. This research provides the first evidence that a single host transgene can provide resistance to multiple viruses and has great potential benefits to both breeders and producers. Transgenic wheat Virus resistance Host gene silencing Pathogen derived resistance RNA Interference Virus rating scale Plant Pathology (0480)
160	Mitochondrial energy metabolism in \kur{Trypanosoma brucei} / Mitochondrial energy metabolism in \kur{Trypanosoma brucei} VERNER, Zdeněk January 2011 (has links) The thesis summarizes data gathered on various components of respiratory chain of Trypanosoma brucei. Namely, NADH:ubiquinone oxidoreductase (complex I), alternative NADH:ubiquinone oxidoreductase (NDH2) and mitochondrial glycerol-3-phosphate dehydrogenase are discussed themselves and in broader context of energy metabolism. Also, a work done using RNA interference library is described.

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