Global ETD Search

1	Single-molecule Detection in situ Larsson, Chatarina January 2009 (has links) The human body contains a variety of different cell types that share a common genome, but differ in how they use the information encoded therein. Variation in molecular content exists even at the level of individual cells, and to provide deeper insight into complex cellular processes methods that permit analysis of each cell on its own are needed. This thesis presents molecular methods for localized detection of individual nucleic acid molecules. The developed methods are based on padlock probes and target-primed rolling circle amplification. Single-molecule detection sensitivity in combination with single-nucleotide genotyping selectivity enables detection of allelic DNA variants and closely related target sequences directly in cells. Padlock probes further enable multiplex detection of targets, and in combination with image analysis quantitative molecular data for individual cells can be acquired for large cell populations at a resolution that no other in situ detection method can provide at present. In this thesis, the in situ target-primed rolling circle amplification technique was first used for genotyping of a point mutation in the mitochondrial genome with padlock probes. This displayed mitochondrial DNA heterogeneity in cell populations. Application of the method on comet assay preparations showed that mitochondrial genomes are lost from these samples prior to analysis. Nuclear DNA targets, however, can be efficiently detected in corresponding samples. Padlock probes and rolling circle amplification are thus an attractive alternative to FISH analysis for localized DNA detection in comet assay samples. A method was also developed for localized detection of individual mRNA molecules with padlock probes and rolling circle amplification. This method provides unique possibilities to genotype allelic variants of transcripts in situ. mRNA expression is associated with substantial cell-to-cell variation and our presented method permits simultaneous visualization of multiple transcripts directly in complex tissue samples. Application of the methods presented in this thesis will enable new types of studies of biological samples from both normal and disease states. Molecular medicine Molekylär medicin
2	Lipoproteomics : A New Approach to the Identification and Characterization of Proteins in LDL and HDL Karlsson, Helen January 2007 (has links) A proteomic approach was applied to examine the protein composition of low-density lipoprotein (LDL) and high-density lipoprotein (HDL) in humans. LDL and HDL were isolated by density gradient ultracentrifugation, and proteins were separated with twodimensional gel electrophoresis (2-DE) and identified with peptide mass fingerprinting, using matrix-assisted laser desorption/ionization-time of flight mass spectrometry, and with amino acid sequencing using electrospray ionization tandem mass spectrometry. To improve the identification of low abundant proteins in silver stained 2-DE gels, 2,5-dihydroxybenzoic acid was used instead of α-cyano-4-hydroxycinnamic acid as matrix in the peptide mass fingerprinting procedure; this was demonstrated to give more matching peptide peaks, higher sequence coverage, and higher signal to noise ratio. Altogether 18 different proteins were demonstrated in LDL and/or HDL: three of these (calgranulin A, lysozyme C and transthyretin) have not been identified in LDL before. Apo C-II, apo C-III, apo E, apo A-I, apo A-IV, apo J, apo M, serum amyloid A-IV and α1-antitrypsin were found in both LDL and HDL, while apo B-100 (clone), calgranulin A, lysozyme C and transthyretin were found only in LDL, and apo A-II, apo C-I, and serum amyloid A only in HDL. Salivary α-amylase wass identified only in HDL2, and apo L and glycosylated apo A-II only in HDL3. Many of the proteins occurred in a number of isoforms: in all, 47 different isoform identities were demonstrated. A 2-DE mobility shift assay and deglycosylation experiments were used to demonstrate, for the first time, that apo M in LDL and HDL occurs in five isoforms; three that are both N-glycosylated and sialylated, one that is N-glycosylated but not sialylated and one that is neither N-glycosylated nor sialylated. LDL from obese subjects was found to contain more apo J, apo C-II, apo M, α1-antitrypsin and serum amyloid A-IV than LDL from controls,, and also more of an acidic isoform (pI/Mr; 5.2 / 23 100) of apo A-I. In addition, the new LDLassociated protein transthyretin, was found to be significantly more abundant in LDL from obese subjects. On the other hand, the amounts of apo A-IV and the major isoform of apo A-I (pI/Mr; 5.3 / 23 100) were significantly less. Altogether, these findings (i) illustrate the power of 2-DE and mass spectrometry for detailed mapping of the proteins and their isoforms in human lipoproteins; (ii) demonstrate the presence of a number of new proteins in LDL (calgranulin A, lysozyme C and transthyretin); (iii) give precise biochemical clues to the polymorphism of apo M in LDL and HDL, and; (iv) indicate that obesity is associated with significant changes in the protein profile of LDL. It is concluded that new information on lipoproteins can easily be obtained through a proteomic approach, thus facilitating the development of a new proteomic field: lipoproteomics. Much further investigation in this field is warranted, particularly because newly discovered LDL and HDL proteins may play hitherto unknown role(s) in inflammatory reactions of the arterial wall and evolve as useful biomarkers in cardiovascular disease. LDL HDL Proteomik Atheroskleros Masspektrometri 2-DE Molecular medicine Molekylär medicin
3	Inflammatory mediators in perinatal infections Døllner, Henrik January 2002 (has links) No description available. Molecular medicine Molekylärmedicin
4	Characterisation of <em>EGFR and <em>KRAS mutations in non-small cell lung cancer</em></em> Martinsson, Caroline January 2010 (has links) <p><strong>Background: </strong>Lung cancer is the leading cause of cancer-related death and one of the most common cancer types worldwide. Epidermal growth factor receptor (EGFR) has been shown to be an important therapeutic target in non-small cell lung cancer. Kirsten rat sarcoma viral oncogene homologue (KRAS) is a downstream signalling molecule in the EGFR pathway. Lung cancer patients with <em>EGFR </em>mutations respond to tyrosine EGFR inhibitor therapy, in contrast, patients with <em>KRAS </em>mutations do not benefit of such treatment.</p><p><strong>Methods: </strong>This study investigates the frequency of <em>EGFR </em>and <em>KRAS </em>mutations in non-small cell lung cancer patients. Fifty-one lung cancer patients with primary non-small cell lung cancer diagnosed between 1995 and 2005 in the Uppsala-Örebro region were analysed by Sanger sequencing and Pyrosequencing to determine the mutation status of these genes.</p><p><strong>Results: </strong>Five <em>EGFR </em>mutations were found in four patients (8%), two deletions in exon 19, one point mutation in exon 20 and two point mutations in exon 21. <em>KRAS </em>mutations were found in 12 patients (24%), ten codon 12 mutations and two codon 61 mutations.</p><p><strong>Conclusions: </strong>This study confirms previous observations regarding the frequency of <em>EGFR </em>and <em>KRAS </em>mutations in non-small cell lung cancer. Mutations in <em>EGFR </em>and <em>KRAS </em>were mutually exclusive, indicating that both mutations present relevant tumorigenic genomic aberrations.</p> NSCLC mutation TKI Sanger sequencing and Pyrosequencing
5	Inflammatory mediators in perinatal infections Døllner, Henrik January 2002 (has links) No description available. Molecular medicine Molekylärmedicin
6	In vivo and in vitro approaches to induce beta cells from stem and progenitor cells Selander, Lars January 2009 (has links) Diabetes or diabetes mellitus which is the correct medical term is a medical condition were the affected person lack the ability to regulate his or her blood glucose levels. This inability is directly due to the fact that the insulin producing cells, residing in the pancreas, can’t meet the body’s demand for insulin. It is estimated that close to 200 million people are suffering from diabetes today and this number is predicted to double within 20 years. Of the approximately 200 million people suffering from diabetes today approximately 20 million are in dependent on daily injections of insulin. Being dependent on exogenous insulin is not only an inconvenience it also increase the risk for several medical complications such as stroke, heart disorders, kidney failure, retinopathy, atherosclerosis and impaired wound healing. The major risk factor for all these complications is long periods of high blood sugar levels that is damaging to thin blood vessels and nerves. Even in the best of situations the blood sugar levels of a diabetic with need for daily insulin injections can never be as well controlled as in a healthy individual. Increased understanding in the developmental processes behind the formation of the pancreas, and more specifically the insulin producing β-cells could result in new treatments for diabetics. By imitating the in vivo conditions generating pancreatic development scientist are now able to induce embryonic stem cells to differentiate into pancreatic progenitors as well as insulin producing β-cells in vitro. These in vitro generated pancreatic cells might in the future serve as a donor source for transplantations, thereby restoring the insulin producing capability of diabetic patients. An alternative approach to restore insulin production in diabetics is to influence cells in the pancreas to generate more insulin producing cells. To successfully achieve this, what cell types have the capacity to generate β-cells needs to be appreciated. In this thesis papers concerning in vitro differentiating of embryonic stem cells towards a pancreatic fate as well as in vivo studies in basic pancreas development are presented and discussed. pancreas stem cell progenitor beta cell in vitro
7	Studies of Stroma Formation and Regulation in Human Pathological Conditions and in Experimental in vivo Models Rodriguez, Alejandro January 2010 (has links) Fibrosis is a sequel of chronic inflammation and is defined as an excessive deposition of collagen that ultimately leads to organ dysfunction. To date there are no effective treatments for fibrosis. The main cell type involved in collagen deposition and organization is the myofibroblast. In the first study we examined how myofibroblasts differentiate in human fibrotic conditions and in experimental animal models. Human tissues were stained with antibodies that recognize integrin receptors and in addition we also stained for α-SMA, a myofibroblast marker. We found a co-localization between these two markers in stromal cells and hypothesized that integrin α1 is important for the acquisition of the myofibroblast phenotype. To tests this hypothesis we used knockout animals for this integrin subunit. These animals showed a reduction of α-SMA positive fibroblasts, indicating that the α1 integrin subunit is required for proper myofibroblast differentiation. In the second study we used a neuroblastoma tumor model to study tumour growth when a drug targeting the synthesis of cellular NAD was administered. In treated animals an expansion of the nonvascular stroma was observed compared to controls. Normalization of the vasculature was observed in treated tumors together with a decrease in hypoxia. Moreover, this was followed by a decrease in stromal PDGF-B and VEGF expression, suggesting a deactivation of the stroma. In the third study the effects of over-expression of the two pro-fibrotic growth factors TGF-β and PDGF-B in skin was evaluated. We observed that both growth factors induced fibrosis. Over time, a decrease in blood vessel density was observed in both treatment groups. Both factors also stimulated an expansion of the connective tissue cell population originating from the microvascular pericyte, but the phenotype of these cells differed in the different treatments with regards to expression of markers. Furthermore, in tissue over-expressing PDGF-B but not TGF-β, the fibrotic process was partially reversible. Fibrosis Tumor Stroma Myofibroblast Pericyte Angiogenesis Inflammation adenovirus Tumour biology Tumörbiologi Molecular medicine Molekylär medicin
8	Microfluidic and Molecular Tools for Genetic Analyses Johansson, Henrik January 2010 (has links) Methods that enable interrogation of multiple genomic regions in parallel are very useful for efficient detection of genetic variation. Two different types of probes are described in this thesis that can be used for direct analysis or for sample preparation upstream of Next Generation Sequencing. In addition to the development of molecular probing systems it also reports on the progress of two assay formats for biological experiments. The Selector probe enrich for genomic regions of interest by probe mediated specific circularization of target fragments. Amplification based enrichment of circles can be carried out using polymerase chain reaction, rolling-circle amplification or multiple displacement amplification. Enrichment of all exons in 28 genes known to be mutated in lung and/or colon cancer is demonstrated. Selection and analysis by SOLiD Sequencing was performed on fresh frozen and formalin fixed paraffin embedded (FFPE) samples, and mutations previously detected by Sanger sequencing were detected. The extractor probe is another probe variant that can be used for multiplex enrichment of DNA. It targets genomic fragments by using both ligation and sequence specific elongation for discrimination between on and off target sequences. A microfluidic platform fabricated by compact disc injection molding that can be used for biological assays is described. Microchannel structures in thermoplastic material are coated with silicon dioxide by electron beam evaporation which facilitates closing of the structures by PDMS- glass bonding by ozone plasma. The platform’s utility for biological experiments is demonstrated by for detection of amplified single molecules (ASM), cell culturing and on-chip peristaltic pumping. The thesis also includes an exploratory study for the purpose of using a non-optical system for detection of ASM’s. Optimizations were performed of the conditions needed in order to detect an increase in hydrodynamic size of magnetic particles, using a superconducting quantum interference device (SQUID), as they form complex with ASM’s. microfluidics PCR sequencing cancer genetics
9	Microarray Technology for Genotyping in Pharmacogenetics Liljedahl, Ulrika January 2004 (has links) The studies in this thesis describe the development of a microarray based minisequencing system and its application to highly parallel genotyping of single nucleotide polymorphisms. The technical developments included identification of a three-dimensional microarray surface coating with high binding capacity for oligonucleotides modified with amino groups as the most optimal one for the system. The system was also established for multiplexed, reproducible quantitative analysis of SNP alleles both on the level of DNA and RNA. The sensitivity of the system to distinguish SNP alleles present as a minority in a mixed sample was found to be 1-6%. The microarray based minisequencing system was applied in a pharmacogenetic study on antihypertensive drug response. A panel of 74 SNPs located in candidate genes related to blood pressure regulation were genotyped in DNA samples from hypertensive patients that had been treated with the antihypertensive drugs irbesartan or atenolol. Multiple regression analysis of the genotype data against the reduction in blood pressure identified genotype combinations of four to five SNPs that explain 44-56% of the reduction in blood pressure in the two treatment groups. The genotypes of two individual SNPs in the angiotensinogen (AGT) gene and a SNP in the low density lipoprotein receptor (LDLR) gene appeared to be associated to reduced blood pressure after treatment with atenolol, while a SNP in the apolipoprotein B (APOB) gene was associated to blood pressure reduction after irbesartan treatment. The genotype of one SNP in the adrenergic alpha-2A-receptor gene (ADRA2A) was related to the reduction in left ventricular mass following atenolol treatment while the genotypes of two SNPs, one in the APOB gene and one in the AGT gene were related to the reduction in left ventricular mass in the patients treated with irbesartan. Molecular medicine microarray genotyping pharmacogenetics molecular medicine single nucleotide polymorphism hypertension Molekylärmedicin
10	Proximity Ligation : Transforming protein analysis into nucleic acid detection through proximity-dependent ligation of DNA sequence tagged protein-binders Fredriksson, Simon January 2002 (has links) <p>A novel technology for protein detection, proximity ligation, has been developed along with improved methods for <i>in situ</i> synthesis of DNA microarrays. Proximity ligation enables a specific and quantitative transformation of proteins present in a sample into nucleic acid sequences. As pairs of so-called proximity probes bind the individual target protein molecules at distinct sites, these reagents are brought in close proximity. The probes consist of a protein specific binding part coupled to an oligonucleotide with either a free 3’- or 5’-end capable of hybridizing to a common connector oligonucleotide. When the probes are in proximity, promoted by target binding, then the DNA strands can be joined by enzymatic ligation. The nucleic acid sequence that is formed can then be amplified and quantitatively detected in a real-time monitored polymerase chain reaction. This convenient assay is simple to perform and allows highly sensitive protein detection. Parallel analysis of multiple proteins by DNA microarray technology is anticipated for proximity ligation and enabled by the information carrying ability of nucleic acids to define the individual proteins. Assays detecting cytokines using SELEX aptamers or antibodies, monoclonal and polyclonal, are presented in the thesis.</p><p>Microarrays synthesized <i>in situ</i> using photolithographic methods generate impure products due to damaged molecules and interrupted synthesis. Through a molecular inversion mechanism presented here, these impurities may be removed. At the end of synthesis, full-length oligonucleotides receive a functional group that can then be made to react with the solid support forming an arched structure. The 3’-ends of the oligonucleotides are then cleaved, removing the impurities from the support and allowing the liberated 3’-hydroxyl to prime polymerase extension reactions from the inverted oligonucleotides. The effect of having pure oligonucleotides probes compared to ones contaminated with shorter variants was investigated in allele specific hybridization reactions. Pure probes were shown to have greater ability to discriminate between matched and singly mismatched targets at optimal hybridization temperatures.</p> Molecular medicine Proximity ligation proteomics SELEX antibody DNA microarray Molekylärmedicin

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