Global ETD Search

61	Approaches to Structural Characterization of a Heteromeric GABA(A)R / Metoder för Strukturell Karakterisering av en Heteromerisk GABA(A)R Stevens, Alexander January 2023 (has links) Structural biology has become an important part of researching various diseases and drug development. In this thesis, I provide details on how I worked with approaches to structural characterization of a heteromeric GABA(A)R. These pentameric ligand gated ion channels take part in regulating inhibition of action potentials in nerve cells by allowing the passage of Cl- ions when bound by gamma-aminobutyric acid (GABA). They are formed by the assembly of five subunits which can be of various different types, denoted by greek letters and a number. Much is still unknown about how GABA and several other ligands bind to these ion channels and how that impacts function. Obtaining a structure of these proteins can aid in closing those knowledge gaps. It is reasonable to screen the proteins you have before you study their structures by Cryo-EM in order to get the best result, a methodology for which is described here. I have followed this methodology to screen two heteromeric GABA$_A$R that we wish to determine the structure of, alpha 5 beta 3 and rho 1 gamma 2. Neither of the combinations of genes we used to express these proteins proved to produce the desired fully assembled heteromeric protein. In the case of alpha 5 beta 3, we only witnessed building blocks, with no fully assembled channels. In rho 1 gamma 2, we instead only witnessed fully formed homomers of the rho 1 subunit. These findings then exclude the gene constructs used from further structural study, and the methodology described will inform the next steps to be taken. / Strukturbiologi har blivit en viktig del av forskningen kring många sjukdomar samt utveckling av läkemedel. I denna uppsats delger jag hur jag arbetat med metoder för strukturell karakterisering av en heteromerisk GABA(A)R. Dessa pentameriska ligandstyrda jonkanaler deltar i regleringen av hämning av aktionspotentialer i nervceller genom att tillåta passagen av Cl- joner när gamma-aminosmörsyra (GABA) binder. Dessa består av fem subenheter som kan vara en av flera olika typer, vilka anges med en grekisk bokstav och en siffra. Mycket om hur GABA och andra ligander binder till dessa jonkanaler och hur det påverkar dess funktion är fortfarande okänt. Att hitta en struktur av dessa proteiner kan hjälpa oss att stänga kunskapsgapen. Det är klokt att undersöka om genen man ska använda för att uttrycka det sökta proteinet ger det man söker innan man sen börjar studera strukturen. Jag har beskrivit en metodologi för detta och följt den för två heteromeriska proteiner, alpha 5 beta 3 och rho 1 gamma 2. Ingen av kombinationerna av gener vi använt för att uttrycka dessa proteiner har producerat de sökta, fullt ihoppbyggda proteinerna. I fallet för alpha 5 \beta 3 så ser vi endast byggstenar och inga kompletta proteiner, och för rho 1 gamma 2 så ser vi endast homomeriska proteiner av rho 1. Dessa slutsatser exkluderar de genkonstruktioner vi använt från vidare strukturella studier, och stegen som bör tas härnäst beskrivs av den använda metodologin. Applied Physics Biophysics Molecular Biophysics GABA(A)R LGIC pLGIC Tillämpad Fysik Biofysik Molekylär Biofysik GABA(A)R LGIC pLGIC Physical Sciences Fysik
62	Towards Single Molecule Imaging - Understanding Structural Transitions Using Ultrafast X-ray Sources and Computer Simulations Caleman, Carl January 2007 (has links) X-ray lasers bring us into a new world in photon science by delivering extraordinarily intense beams of x-rays in very short bursts that can be more than ten billion times brighter than pulses from other x-ray sources. These lasers find applications in sciences ranging from astrophysics to structural biology, and could allow us to obtain images of single macromolecules when these are injected into the x-ray beam. A macromolecule injected into vacuum in a microdroplet will be affected by evaporation and by the dynamics of the carrier liquid before being hit by the x-ray pulse. Simulations of neutral and charged water droplets were performed to predict structural changes and changes of temperature due to evaporation. The results are discussed in the aspect of single molecule imaging. Further studies show ionization caused by the intense x-ray radiation. These simulations reveal the development of secondary electron cascades in water. Other studies show the development of these cascades in KI and CsI where experimental data exist. The results are in agreement with observation, and show the temporal, spatial and energetic evolution of secondary electron cascades in the sample. X-ray diffraction is sensitive to structural changes on the length scale of chemical bonds. Using a short infrared pump pulse to trigger structural changes, and a short x-ray pulse for probing it, these changes can be studied with a temporal resolution similar to the pulse lengths. Time resolved diffraction experiments were performed on a phase transition during resolidification of a non-thermally molten InSb crystal. The experiment reveals the dynamics of crystal regrowth. Computer simulations were performed on the infrared laser-induced melting of bulk ice, giving a comprehension of the dynamics and the wavelength dependence of melting. These studies form a basis for planning experiments with x-ray lasers. Molecular biophysics XFEL Ultrafast Melting InSb Molecular Dynamics Water Cluster Evaporation Secondary Electron Photo-cathode Electron Scattering Energy Loss Function Single Particle Imaging X-ray Diffraction Water Ice KI CsI Molekylär biofysik
63	In Vitro Drug Sensitivity and Apoptosis in Chronic Lymphocytic Leukemia Norberg, Maria January 2010 (has links) Chronic lymphocytic leukemia (CLL) is a heterogeneous malignancy displaying varying clinical outcome, where molecular markers today can divide patients into prognostic subgroups. Despite the introduction of new agents for treatment, remissions are usually not sustained in CLL and resistance towards treatment can partly be explained by aberrant apoptosis. The aim of this thesis was to find new drugs for CLL patients resistant to conventional therapy and to analyze genes involved in apoptosis within different prognostic subgroups. In paper I-II, the in vitro activity of substances was investigated using the fluorometric microculture cytotoxicity assay (FMCA). When evaluating rapamycin (paper I), an inhibitor of mTOR, in 97 tumor samples from different entities, CLL was found to be one of the most sensitive tumor types. Combination experiments on patient CLL cells indicated that rapamycin acted synergistically with the CLL drugs vincristine and chlorambucil. An investigation of 20 anti-cancer agents in cells from 40 CLL patients (paper II) revealed that prednisolone and rolipram displayed high activity in poor-prognostic patients, in particular IGHV unmutated CLL. Furthermore, when used in combination these agents were found to produce a synergistic effect. In paper III, the anti-apoptotic BCL2 family member BFL1 was evaluated in 37 CLL cases. Levels of BFL1 were higher in fludarabine-resistant patients compared to fludarabine-sensitive patients. In addition, the high expression of BFL1 inversely correlated to fludarabine-induced apoptosis in CLL cells. A single nucleotide polymorphism in the anti-apoptotic BCL2 gene (-938C>A) has been suggested as a novel poor-prognostic marker in CLL. In paper IV, we investigated this BCL2 polymorphism in 268 CLL patients and correlated genotypes to clinical data. However, no association could be confirmed between this polymorphism and clinical outcome or established prognostic markers. In conclusion, this thesis has shown that rapamycin is a potential drug for treatment in CLL. Furthermore, prednisolone and rolipram were identified as interesting candidates for treatment of poor-prognostic patients. Finally, the anti-apoptotic protein BFL1 may contribute to chemoresistance and hence represents a potential therapeutic target in CLL, whereas from our data, the BCL2 -938C>A polymorphism does not appear to have any prognostic significance. chronic lymphocytic leukemia in vitro drug sensitivity apoptosis prognostic markers Clinical genetics Klinisk genetik Haematology Hematologi MEDICINE MEDICIN Medical genetics Medicinsk genetik
64	Extracting Genomic Variations using Selector Technology Isaksson, Magnus January 2010 (has links) This thesis describes the development and use of a new class of molecular tools called Selector probes, and its potential for investigations of genetic variation. The Selector technology provides multiplex amplification of targeted DNA sequences with a high specificity, and an enrichment factor in the same order of magnitude as PCR. A common feature in this thesis work is to focus the analysis on DNA regions of interest. For example, this technique can be implemented in analysing candidate regions found by whole genome studies that need validation (global to local analysis), and applications requiring detection of rare alleles (common to rare allele), important in for example cancer samples. An assay is presented that allows for fast and simple quantification of relative copy-number variations. The method was proven to be able to detect aneuploidy in chromosome 13, 18, 21 and X, with a resolution enough to distinguish between 4 and 5 copies. The method was successfully applied to solve a biological question regarding a copy-number variation, that explains the Ridge phenotype typical for the dog bread Rhodesian Ridgebacks. The Selector strategy was able to detect and map a tandem duplication with a size of 133 kb, which was characterized with base-pair resolution. A readout platform that facilitates simultaneous digital quantitative analysis of a large numbers of biomolecules is further introduced. The work involves arraying amplified product from successful selection and decoding each molecule by hybridization of fluorophore labeled oligonucleotides. Finally, a genome partitioning method which is applied upstream of next generation sequencing platforms is presented. It is shown that the method provides successful enrichment with 98 % coverage and 94 % specificity and high enrichment uniformity. The technique was applied for mutation analysis of 26 cancer-related genes in tumor cell-lines and tissue. Selector Selector probe Genetic variation Resequencing Targeted sequencing copy-number variations MLGA Bioinformatics Next generation sequencing NGS Amplified single molecule ASM
65	Application of Genomic and Expression Arrays for Identification of new Cancer Genes Nord, Helena January 2010 (has links) Copy number variation (CNV) comprises a recently discovered kind of variation involving deletion and duplication of DNA segments of variable size, ranging from a few hundred basepairs to several million. By altering gene dosage levels or disrupting proximal or distant regulatory elements CNVs create human diversity. They represent also an important factor in human evolution and play a role in many disorders including cancer. Array-based comparative genomic hybridization as well as expression arrays are powerful and suitable methods for determination of copy number variations or gene expression changes in the human genome. In paper I we established a 32K clone-based genomic array, covering 99% of the current assembly of the human genome with high resolution and applied it in the profiling of 71 healthy individuals from three ethnic groups. Novel and previously reported CNVs, involving ~3.5% of the genome, were identified. Interestingly, 87% of the detected CNV regions overlapped with known genes indicating that they probably have phenotypic consequences. In papers II through IV we applied this platform to different tumor types, namely two collections of brain tumors, glioblastoma (paper II) and medulloblastoma (paper III), and a set of bladder carcinoma (paper IV) to identify chromosomal alterations at the level of DNA copy number that could be related to tumor initiation/progression. Tumors of the central nervous system represent a heterogeneous group of both benign and malignant neoplasms that affect both children and adults. Glioblastoma and medulloblastoma are two malignant forms. Glioblastoma often affects adults while the embryonal tumor medulloblastoma is the most common malignant brain tumor among children. The detailed profiling of 78 glioblastomas, allowed us to identify a complex pattern of aberrations including frequent and high copy number amplicons (detected in 79% of samples) as well as a number of homozygously deleted loci. These regions encompassed not only previously reported oncogenes and tumor suppressor genes but also numerous novel genes. In paper III, a subset of 26 medulloblastomas was analyzed using the same genomic array. We observed that alterations involving chromosome 17, especially isochromosome 17q, were the most common genomic aberrations in this tumor type, but copy number alterations involving other chromosomes: 1, 7 and 8 were also frequent. Focal amplifications, on chromosome 1 and 3, not previously described, were also detected. These loci may encompass novel genes involved in medulloblastoma development. In paper IV we examined for the presence of DNA copy number alterations and their effect on gene expression in a subset of 21 well-characterized Ta bladder carcinomas, selected for the presence or absence of recurrences. We identified a number of novel genes as well as a significant association between amplifications and high-grade and recurrent tumors which might be clinically useful. The results derived from these studies increase our understanding of the genetic alterations leading to the development of these tumor forms and point out candidate genes that may be used in future as targets for new diagnostic and therapeutic strategies. Array-CGH Expression array Copy number variation Glioblastoma Medulloblastoma Bladder carcinoma Oncogenes Tumor suppressor genes Medical genetics Medicinsk genetik Tumour biology Tumörbiologi Genetics Genetik
66	Visualization of Protein Activity Status in situ Using Proximity Ligation Assays Jarvius, Malin January 2010 (has links) In 2001 the human proteome organization (HUPO) was created with the ambition to identify and characterize all proteins encoded in the human genome according to several criteria; their expression levels in different tissues and under different conditions; the sub-cellular localization; post-translational modifications; interactions, and if possible also the relationship between their structure and function.When the knowledge of different proteins and their potential interactions increases, so does the need for methods able to unravel the nature of molecular processes in cells and organized tissues, and ultimately for clinical use in samples obtained from patients. The in situ proximity ligation assay (in situ PLA) was developed to provide localized detection of proteins, post-translational modifications and protein-protein interactions in fixed cells and tissues. Dual recognition of the target or interacting targets is a prerequisite for the creation of a circular reporter DNA molecule, which subsequently is locally amplified for visualization of individual protein molecules in single cells. These features offer the high sensitivity and selectivity required for detection of even rare target molecules. Herein in situ PLA was first established and then employed as a tool for detection of both interactions and post-translational modifications in cultured cells and tissue samples. In situ PLA was also adapted to high content screening (HCS) for therapeutic effects, where it was applied for cell-based drug screening of inhibitors influencing post-translational modifications. This was performed using primary cells, paving the way for evaluation of drug effects on cells from patient as a diagnostic tool in personalized medicine. In conclusion, this thesis describes the development and applications of in situ PLA as a tool to study proteins, post-translational modifications and protein-protein interactions in genetically unmodified cells and tissues, and for clinical interactomics. proximity ligation in situ high content screening platelet-derived growth factor receptor rolling circle amplification protein interactions in situ PLA post-translational modifications drug screening Molecular biology Molekylärbiologi
67	Evolution of Vertebrate Endocrine and Neuronal Gene Families : Focus on Pituitary and Retina Ocampo Daza, Daniel January 2013 (has links) The duplication of genes followed by selection is perhaps the most prominent way in which molecular biological systems gain multiplicity, diversity and functional complexity in evolution. Whole genome duplications (WGDs) therefore have the potential of generating an extraordinary amount of evolutionary innovation. It is now accepted that the vertebrate lineage has gone through two rounds of WGD in its early stages, after the divergence of invertebrate chordates and before the emergence of jawed vertebrates. These basal vertebrate WGDs are called 2R for two rounds of whole genome duplication. An additional WGD called 3R occurred early in the evolution of teleost fishes, before the radiation of this species-rich group. This thesis describes the evolution of several endocrine and neuronal gene families in relation to the vertebrate WGDs, through a comparative genomic approach including both phylogenetic analyses and chromosomal location data across a wide range of vertebrate taxa. These results show that numerous endocrine gene families have expanded in 2R and in several cases also in 3R. These include the gene families of oxytocin and vasopressin receptors (OT/VP-R), somatostatin receptors (SSTR) and insulin-like growth factor binding proteins (IGFBP). For the OT/VP-R and SSTR families, previously undescribed subtypes were identified. The protein hormone family that includes growth hormone (GH), prolactin (PRL) and somatolactin (SL) acquired a new PRL gene in 2R, however the origins of GH, PRL and SL likely predate 2R. The corresponding family of receptors diversified during different time periods through a combination of local duplications and 3R. Neuronal gene families of the visual system have also expanded in 2R and 3R. The results presented here demonstrate that the vertebrate repertoire of visual opsin genes arose in 2R as part of chromosomal blocks that also include the OT/VP-R genes. The gene families including the transducin alpha, beta and gamma subunits also arose in 2R, hinting at the importance of these events in the diversification and specialization of phototransduction cascades for rods and cones. Thus, the whole genome duplications have been important contributors to the evolution of both vision and endocrine regulation in the vertebrates. phylogenetics evolution molecular evolution gene family evolution genome duplication gene duplication oxytocin receptor vasopressin receptor visual opsin transducin growth hormone prolactin somatolactin growth hormone receptor prolactin receptor somatostatin receptor SSTR IGFBP evolution molekylär evolution fylogeni
68	Characterization of solutecarrier SLC38A6 Al-walai, Somar January 2012 (has links) Transport across the membrane of a cell is of crucial importance for cellular functions. The solute carrier family,SLC38 is a family of membrane proteins that transports various substances through the membrane and thusperforms many physiologically important functions, for example, transport of glutamine from astrocyte toneurons in the central nervous system. In this paper, we demonstrate that one of the transporters in this familynamed SLC38A6 forms several protein complexes with a variety of proteins in the membrane and in synapticvesicles, suggesting that SLC38A6 is involved in the synaptic release of neurotransmitters in synapses. Weperformed sensitive protein interaction analysis between the protein of interest and a variety of proteinsexpressed at different sites in the neuronal cell. We showed that SLC38A6 interacts with proteins in the cellmembrane as well as in the membrane of synaptic vesicles. The current theory is that SLC38A6 interact withthese proteins when the synaptic vesicles are in close proximity with the cell membrane during the release of theneurotransmitters. Solute carriers SLC38A6 PLA proximity ligation assay Department of Neuroscience Functional Pharmacology Uppsala University Research training forskningspraktik civilingenjör molekylär bioteknik membrane transport membrane proteins synaptic vesicles protein-protein interactions ImageTool Somar Al-walai
69	Abdominal Aortic Aneurysm : Molecular Imaging Studies of Pathophysiology Tegler, Gustaf January 2013 (has links) The pathological process behind abdominal aortic aneurysm (AAA) formation is poorly understood and difficult to study. The aim of the thesis was to study the pathophysiology of AAA formation with positron emission tomography (PET) technology, a molecular imaging technique, allowing in vivo studies of pathophysiological changes. In study I 18F-FDG, a glucose analogue, was tested. It had previously been reported as a useful tracer studying inflammation in AAAs. These studies included, however, foremost large, symptomatic, and inflammatory AAAs. In the present study on five small and seven large asymptomatic AAAs, no increase in 18F-FDG uptake could be revealed in vivo. In study II 11C-PK11195, a macrophage tracer, and 11C-D-deprenyl, an unspecific inflammatory tracer, previously never tested on asymptomatic AAAs, were tested in vivo on five and 10 AAA-patients respectively, without signs of increased levels of inflammatory activity in the aorta. In study III several tracers were screened in vitro through autoradiography on AAA tissue. [18F]fluciclatide, targeting the integrin αVβ3 receptor upregulated in angiogenesis, was the only tracer with an increased uptake. In study IV [18F]fluciclatide-autoradiography was performed on AAA tissue from five patients and non-aneurysmal aortic tissue obtained from five age and sex matched organ donors. The study showed a 56% increased specific uptake in AAA, although not significant (P=0.136). Immunohistochemical revealed inflammatory cell foci in close relation to the vessels. In conclusion, PET has potential to elucidate the pathophysiology of AAA formation. For the large group of small asymptomatic AAAs, 18F-FDG is not suitable, as the chronic inflammation in asymptomatic AAA is not sufficiently metabolically active. Furthermore, 11C-PK11195 and 11C-D-deprenyl were unable to show the chronic inflammation seen in asymptomatic AAA. The interesting finding with uptake of [18F]fluciclatide showed that angiogenesis may be imaged in large asymptomatic AAAs in vitro, through the integrin αVβ3 receptor. Thus, it is likely that future studies of the role of angiogenesis in AAA formation in vivo, in small AAAs, could use this target site. The development of an integrin αVβ3 receptor tracer, preferably with higher affinity, is in progress for further in vitro and in vivo studies. Abdominal aortic aneurysm AAA Positron emission tomography PET Molecular Imaging Pathophysiology Autoradiography Angiogenesis integrin alphaVbeta3 FDG 18F-FDG 11C-PK11195 11C-D-deprenyl [18F]fluciclatide Fluciclatide Bukaortaaneurysm Molekylär bilddiagnostik Patofysiologi PET Autoradiografi Angiogenes
70	Co-evolutional anaylsis of the Na+,K+-ATPase’s β-subunit dimerization / Samevolutionär analys av Na+,K+-ATPas β-subenhet dimerisering Bauer, Sebastian January 2023 (has links) Does the active membrane transporter, Na+,K+-ATPase dimerize? If it does, whatis the functional benefit? Does it increase or decrease the turnover rate? Theseare still unanswered questions and current research topics. Previous studies havedemonstrated dimerizations in closely related proteins of the P-type ATPase family.For the Na+, K+-ATPase a first indication of dimerization has been shown viaFluorescence lifetime imaging microscopy (FLIM) or Fluorescence resonance energytransfer - Fluorescence correlation spectroscopy (FRET-FCS) experiments. Theprecise dimer structure, dimerization process, and its ultimate functional effecthowever, remain to be found. This master thesis approaches those questions froma co-evolutionary standpoint. It predicts a possible dimer structure by starting with amultiple sequence alignment, direct coupling analysis, and structural contact filteringalgorithm. This model would strengthen the dimerization model of a decreasedturnover rate due to a competitive behavior of two Na+, K+-ATPases for its energysource ATP. / Dimeriserar den aktiva membrantransporten Na+,K+-ATPas? Om den gör det,vad är den funktionella nyttan? Ökar eller minskar det omsättningshastigheten?Dessa är obesvarade frågor och rådande forskningsämnen. Tidigare studier hardemonstrerat dimeriseringar i nära relaterade proteiner av P-typ ATPas-familjen.För Na+, K+-ATPas har en första indikation av dimerisering visats via ”Flourescencelifetime imaging microscopy (FLIM)” eller ”Flourescence resonance energy transfer- Flourescence correlation spectroscopy (FRET-FCS)”. Den precisa dimerstrukturen,dimeriseringsprocessen och dess slutgiltiga funktionella effekt emellertid, återståratt ses. Detta examensarbete på masternivå närmar sig dessa frågor från ettsamevolutionärt perspektiv. Det förutser en möjlig dimerstruktur genom att utgåfrån en flersekvenslinjering, direkt kopplingsanalys och en strukturell kontaktfiltreringsalgoritm. Denna modell skulle stärka dimeriseringsmodellen av minskadomsättningshastighet till följd av tävlingsbeteende mellan två Na+,K+-ATPaser fördess energikälla ATP. Na+ K+-ATPase (NKA) Co-evolution Dimerization Direct coupling analysis (DCA) Molecular dynamic (MD) simulation Contact filtering Mapping Na+ K+-ATPas (NKA) Samevolution Dimerisering Direkt kopplingsanalys (DKA) Molekylär dynamisk (MD) simulering Kontaktfiltrering Kartläggning Physical Sciences Fysik

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