Global ETD Search

161	Dissecting the photosystem II light-harvesting antenna Andersson, Jenny January 2003 (has links) In photosynthesis, sunlight is converted into chemical energy that is stored mainly as carbohydrates and supplies basically all life on Earth with energy. In order to efficiently absorb the light energy, plants have developed the outer light harvesting antenna, which is composed of ten different protein subunits (LHC) that bind chlorophyll a and b as well as different carotenoids. In addition to the light harvesting function, the antenna has the capacity to dissipate excess energy as heat (feedback de-excitation or qE), which is crucial to avoid oxidative damage under conditions of high excitation pressure. Another regulatory function in the antenna is the state transitions in which the distribution of the trimeric LHC II between photosystem I (PS I) and II is controlled. The same ten antenna proteins are conserved in all higher plants and based on evolutionary arguments this has led to the suggestion that each protein has a specific function. I have investigated the functions of individual antenna proteins of PS II (Lhcb proteins) by antisense inhibition in the model plant Arabidopsis thaliana. Four antisense lines were obtained, in which the target proteins were reduced, in some cases beyond detection level, in other cases small amounts remained. The results show that CP29 has a unique function as organising the antenna. CP26 can form trimers that substitute for Lhcb1 and Lhcb2 in the antenna structure, but the trimers that accumulate as a response to the lack of Lhcb1 and Lhcb2 cannot take over the LHC II function in state transitions. It has been argued that LHC II is essential for grana stacking, but antisense plants without Lhcb1 and Lhcb2 do form grana. Furthermore, LHC II is necessary to maintain growth rates in very low light. Numerous biochemical evidences have suggested that CP29 and/or CP26 were crucial for feedback de-excitation. Analysis of two antisense lines each lacking one of these proteins clearly shows that there is no direct involvement of either CP29 or CP26 in this process. Investigation of the other antisense lines shows that no Lhcb protein is indispensable for qE. A model for feedback de-excitation is presented in which PsbS plays a major role. The positions of the minor antenna proteins in the PS II supercomplex were established by comparisons of transmission electron micrographs of supercomplexes from the wild type and antisense plants. A fitness experiment was conducted where the antisense plants were grown in the field and seed production was used to estimate the fitness of the different genotypes. Based on the results from this experiment it is concluded that each Lhcb protein is important, because all antisense lines show reduced fitness in the field. Plant physiology antisense Arabidopsis thaliana chlorophyll carotenoid feedback de-excitation fitness LHC NPQ photosynthesis state transitions xanthophyll Växtfysiologi Plant physiology Växtfysiologi
162	Radiolabelled Oligonucleotides for Evaluation of in vivo Hybridisation Utilising PET Methodology Lendvai, Gábor January 2007 (has links) Antisense oligonucleotides (ODN) may interfere in gene expression on the basis of hybridising to its complementary messenger RNA (mRNA) sequence in the cell thereby preventing the synthesis of the peptide. Therefore, these ODNs may be potential drugs to treat human diseases by “knocking down” the expression of responsible genes or correcting the maturation process of mRNA in the field called antisense therapy. Moreover, antisense ODNs upon labelling are also potential imaging agents to monitor gene expression in vivo, i.e. to accomplish in vivo hybridisation. This would provide a non-invasive tool compared to present methods, which require tissue samples. This goal may be reached using positron emission tomography (PET) methodology. PET is a most advanced in vivo imaging technology, which would allow exploring the fate of radionuclide-labelled antisense ODNs in the body; thereby providing information about biodistribution and quantitative accumulation in tissues to assess pharmacokinetic properties of ODNs. This kind of evaluation is important as part of the characterisation of antisense therapeutics but also as part of the development of antisense imaging agents. The present study aimed to investigate 76Br- and 68Ga-labelled ODNs of five different modifications: phosphodiester, phosphorothioate, 2'-O-methyl phosphodiester, locked nucleic acid (LNA), and peptide nucleic acid. The study included exploration of the hybridisation abilities of these ODNs after labelling; furthermore, the biodistribution, metabolite analysis and uptake of the ODNs in rats regarding non-hybridisation and hybridisation specific uptake was conducted. Among the ODNs studied, LNA-DNA mixmer (LNA and DNA nucleotides in alternation along the sequence) displayed the most promising characteristics considering a higher retention in tissues, stability and longer plasma residence. However, biodistribution data demonstrated a non-hybridisation specific distribution in rat tissues with kidney, liver, spleen and bone marrow being the organs of high uptake. Scavenger receptors or other saturable processes unrelated to hybridisation may play a role in tissue uptake and in clearance of antisense ODNs through these organs. These processes may be sequence dependent suggesting that proof of in vivo hybridisation through imaging needs much more elaborate evaluations than just comparison of sense and antisense sequences and proving dose-dependency. Molecular medicine Gene expression Antisense oligonucleotides Positron emission tomography In vivo hybridisation In vivo biodistribution Chromogranin-A 68Ga RT-PCR Scavenger receptors Molekylärmedicin
163	Función biológica y regulación de la ciclina específica de meiosis Rem1 en Schizosaccharomyces Pombe Malapeira Argilaga, Jordi 30 November 2006 (has links) Esta tesis doctoral consiste en la caracterización de la ciclina meiótica Rem1, de Schizosaccharomyces pombe. En este trabajo se analizó, inicialmente, el patrón de transcripción y expresión de rem1 durante la meiosis observando que el pico de expresión se produce durante la meiosis I, la actividad quinasa del complejo ciclina-Cdk también coincide con la meiosis I. Seguidamente, se determinó que la transcripción del mRNA maduro de rem1 depende de Mei4 a través de las cajas FLEX del promotor de rem1. También se observó la presencia de un RNA "antisense" que se transcribe durante las primeras horas de la meiosis. A continuación, se estudió la función de Rem1 durante la meiosis determinando una función de esta ciclina en la meiosis I. Se observó la toxicidad de Rem1 expresado durante el ciclo mitótico. Posteriormente, se analizaron posibles interacciones genéticas con otras ciclinas meióticas detectando que Rem1 tiene una función redundante con Cig2 durante la fase S meiótica. También se determinó la necesaria presencia de rem1 para conseguir unos niveles de recombinación meiótica intragénica normales, mientras que se requiere para la recombinación intergénica. / The main goal of this doctoral thesis is the characterization of the meiotic cyclin Rem1, in Schizosaccharomyces pombe. First of all we analized the transcription and expresion profiles of rem1 during meiosis. We observed the maximum of expresion during meiosi I and the kinase activity of the complex cyclin-Cdk had exactly the same profile. Then, we analized the transcription profile of the mature mRNA of rem1, showing that this transcription depends on Mei4 through the FLEX boxes which are loclized in the rem1 promoter. An antisense RNA was also detected at the begining of the meiosis. We next diceded to study the function of this cyclin. Firstly we observed that overexpression of Rem1 is toxic for the cell during mitotic cell growth. Moreover, a function for Rem1 was observed during meiosis I. Rem1 is also required in order to obtain normal levels of meiotic intragenic recombination, but it is not necesary for the intergenic recombination. Finally, we could detect a genetic interaction betwen Rem1 and the meiotic S phase cyclin, Cig2. transcription recombination cyclin mei4 cig2 rem1 transcripción antisense splicing recombinación ciclina meiosis S. pombe ciclo celular cell cycle 576
164	Alteration of transcription by non-coding elements in the human genome Conley, Andrew Berton 27 June 2012 (has links) The human genome contains ~1.5% coding sequence, with the remaining 98.5% being non-coding. The functional potential of the majority of this non-coding sequence remains unknown. Much of this non-coding sequence is derived from transposable element (TE) sequences. These TE sequences contain their own regulatory information, e.g. promoter and transcription factor binding sites. Given the large number of these sequences, over 4 million in the human genome, it would be expected that the regulatory information that they contain would affect the expression of nearby genes. This dissertation describes research that characterizes that alternation of and contribution to the human transcriptome by non-coding elements, including TE sequences. Gene regulation Human genomics Antisense transcription Chromatin Transposable elements Functional genomics Human genome Human gene mapping Gene mapping
165	Synthesis and evaluation of an [18F]-labelled antisense oligonucleotide as an imaging probe to measure cellular response to radiation therapy Koslowsky, Ingrid L Unknown Date No description available. [18F]fluoride antisense oligonucleotide radiation p21 senescence copolymer borohydride resin 4-[18F]fluorobenzyl-2-bromoacetamide 4-[18F]fluorobenzylamine
166	Integrin subunits: expression and function in early development of Strongylocentrotus purpuratus Brothers, M Elizabeth 09 December 2008 (has links) Integrins are heterodimeric transmembrane receptors composed of an α and a β subunit, that are expressed on the surface of all metazoan cells. These bidirectional signaling molecules are involved in many well-known aspects of cell function, although the role of integrins in early embryonic development remains a mystery. The purpose of this study was to characterize S. purpuratus integrins and determine if they are necessary for early embryonic development. Full length cDNA sequences for four incomplete gene predictions, αC, αD, αF, and βD, were determined by amplifying overlapping fragments and sequencing EST clones. Each cDNA has a single open reading frame predicting a protein with canonical integrin features. QPCR results show αC, αD, and βD are expressed in the embryo at relatively constant levels during the first 96 hours of development. αF is expressed in blastulae, during morphogenesis and tissue differentiation, at up to 35 times the levels of mRNA in the egg. Using a morpholino antisense oligonucleotide to block translation of αC results in a higher than normal mortality rate (57.1%) by 24 hours of development and 36.7% of embryos during this period have defects in aspects of cell division. These results indicate that αC is an essential gene for early development and that it may function in coordination of mitosis and cytokinesis. The expression of multiple subunits and the demonstration that αC has an essential role suggests that there are several non-overlapping functions for integrins in early embryonic development. integrin Strongylocentrotus purpuratus sea urchin morpholino antisense oligonucleotide development embryogenesis Quantitative PCR
167	Synthesis and evaluation of an [18F]-labelled antisense oligonucleotide as an imaging probe to measure cellular response to radiation therapy Koslowsky, Ingrid L 11 1900 (has links) Antisense oligodeoxynucleotides (asODNs) show strong binding and high selectivity and can be constructed to recognize specific cellular targets such as gene regulated mRNA. Radiolabelled asODNs have the potential to image gene expression through mRNA targeting and could be a valuable tool in the early assessment of outcome to cancer treatment. We have explored the potential of in vivo imaging of p21 gene expression, using fluorine-18 labelled asODNs ([18F]asODNs) and in vitro techniques, recognizing the relationship between the expression of this gene and resistance of cancer cells to radiation therapy. Radiolabelling of fully phosphorothioated, 20-mer ODNs was performed using the [18F]-labelled prosthetic group, 4-N-[18F]fluorobenzyl-2-bromoacetamide ([18F]FBBA). [18F]FBBA was first synthesized in an automated synthesis unit, resulting in a modest radiochemical yield. Methods to improve the yield were investigated using a metal catalyst-assisted borohydride exchange resin. Alkylation of [18F]FBBA to ODN resulted in radiochemical yields of 40%. Cellular uptake and retention studies were performed in human carcinoma cells expressing p21+/+ (HCT116) and the p21 knock-out cell line, 80S4, using both [18F]-labelled antisense and random sequence ODNs. Nonradioactive FBBA-labelled ODNs were used to evaluate the antisense effectiveness and distribution of the FBBA-modified ODNs. In vitro studies demonstrated that FBBA did not interfere with the antisense effect of ODNs against p21 mRNA; however, the probes required a transfection agent to observe an antisense effect. Cell fractionation studies with [18F]ODNs revealed increasing accumulation of liposome-transfected [18F]asODN in the cytoplasm of HCT116 cells over time. A biocompatible spermine-grafted block copolymer (SP) was subsequently evaluated as a potential vector to improve the delivery of [18F]asODN into cells. SP was shown to direct [F]-labelled ODNs to the cytoplasm, whereas naked [F]ODNs remained sequestered in vesicles, and liposome-transfected [F]ODNs localized mostly in the nucleus. Selective uptake and retention of [18F]asODN was observed in p21+/+ cells only when the probe was transfected with SP. Based on these studies, it can be concluded that [18F]asODNs have the potential to image gene expression, however the focus may need to be directed to find an appropriate vector which can rapidly deliver [18F]-labelled asODNs to the target tissue in vivo. [18F]fluoride antisense oligonucleotide radiation p21 senescence copolymer borohydride resin 4-[18F]fluorobenzyl-2-bromoacetamide 4-[18F]fluorobenzylamine
168	Peptide nucleic acid (PNA) hybridization to nucleic acid targets Nulf, Christopher J. January 2004 (has links) (PDF) Thesis (Ph. D.) -- University of Texas Southwestern Medical Center at Dallas, 2004. / Vita. Bibliography: References located at the end of each chapter.
169	Transfection of the breast cancer cell line MDA-468 with antisense RNA to P21 CIP1 in order to investigate the mechanism of EGF-mediated G1 arrest in these cells / Paquin, André, January 2000 (has links) Thesis (M.Sc.)--Memorial University of Newfoundland, Faculty of Medicine, 2000. / Typescript. Bibliography: leaves 92-100.
170	Integrin subunits: expression and function in early development of Strongylocentrotus purpuratus Brothers, M Elizabeth 09 December 2008 (has links) Integrins are heterodimeric transmembrane receptors composed of an α and a β subunit, that are expressed on the surface of all metazoan cells. These bidirectional signaling molecules are involved in many well-known aspects of cell function, although the role of integrins in early embryonic development remains a mystery. The purpose of this study was to characterize S. purpuratus integrins and determine if they are necessary for early embryonic development. Full length cDNA sequences for four incomplete gene predictions, αC, αD, αF, and βD, were determined by amplifying overlapping fragments and sequencing EST clones. Each cDNA has a single open reading frame predicting a protein with canonical integrin features. QPCR results show αC, αD, and βD are expressed in the embryo at relatively constant levels during the first 96 hours of development. αF is expressed in blastulae, during morphogenesis and tissue differentiation, at up to 35 times the levels of mRNA in the egg. Using a morpholino antisense oligonucleotide to block translation of αC results in a higher than normal mortality rate (57.1%) by 24 hours of development and 36.7% of embryos during this period have defects in aspects of cell division. These results indicate that αC is an essential gene for early development and that it may function in coordination of mitosis and cytokinesis. The expression of multiple subunits and the demonstration that αC has an essential role suggests that there are several non-overlapping functions for integrins in early embryonic development. integrin Strongylocentrotus purpuratus sea urchin morpholino antisense oligonucleotide development embryogenesis Quantitative PCR

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