Global ETD Search

511	The role of the Type IV pili system in the virulence of <i>Francisella tularensis</i> Salomonsson, Emelie January 2008 (has links) <p><i>Francisella tularensis</i> is a Gram-negative intracellular pathogen causing the zoonotic disease tularemia. <i>F. tularensis</i> can be found almost all over the world and has been recovered from several animal species, even though the natural reservoir of the bacterium and parts of its life cycle are still unknown. Humans usually get infected after handling infected animals or from bites of blood-feeding arthropod vectors. There are four subspecies of <i>F. tularensis</i>: the highly virulent <i>tularensis</i> (Type A) that causes a very aggressive form of the disease, with mortality as high as 60% if untreated, the moderately virulent <i>holarctica</i> (Type B) and <i>mediasiatica</i>, and the essentially avirulent subspecies <i>F. novicida</i>. So far, our knowledge of the molecular mechanisms that would explain these differences in virulence among the subspecies is poor. However, recent developments of genetic tools and access to genomic sequences have laid the ground for progress in this research field. Analysis of genome sequences have identified several regions that differ between <i>F. tularensis</i> subspecies. One of these regions, RD19, encodes proteins postulated to be involved in assembly of type IV pili (Tfp), organelles that have been implicated in processes like twitching motility, biofilm formation and cell-to-cell communication in pathogenic bacteria. While there have been reports of pili-like structures on the surface of <i>F. tularensis</i>, these have not been linked to the Tfp encoding gene clusters until now. Herein, I present evidence that the <i>Francisella</i> pilin, PilA, can complement pilin-like characteristics and promote assembly of fibers in a heterologous system in <i>Neisseria gonorrhoeae. pilA</i> was demonstrated to be required for full virulence of both type A and type B strains in mice when infected via peripheral routes. A second region, RD18, encoding a protein unique to <i>F. tularensis</i> and without any known function, was verified to be essential for virulence in a type A strain. Interestingly, the non-licensed live vaccine strain, LVS (Type B), lacks both RD18 and RD19 (<i>pilA</i>) due to deletion events mediated by flanking direct repeats. The loss of RD18 and RD19 is responsible for the attenuation of LVS, since re-introducing them <i>in cis</i> could restore the virulence to a level similar to a virulent type B strain. Significantly, these deletion events are irreversible, preventing LVS to revert to a more virulent form. Therefore, this important finding could facilitate the licensing of LVS as a vaccine against tularemia.</p> Francisella tularensis tularemia bacterial pathogenesis Type IV pili Type II secretion Neisseria gonorrhoeae PilA RD18 RD19 Molecular biology Molekylärbiologi
512	Nitric Oxide in Primary Ciliary Dyskinesia : Missing in action? Inganni, Johan January 2008 (has links) No description available. Nitric oxide Primary ciliary dyskinesia cilia dynein axoneme Kartagener's situs inversus cilium iNOS inducible nitric oxide synthase Molecular biology Molekylärbiologi
513	Structural Studies of a Xyloglucan Endotransglycosylase from <i>Populus tremula x tremuloides</i> and Three Conserved Hypothetical Proteins from <i>Mycobacterium tuberculosis</i> Johansson, Patrik January 2006 (has links) <p>This thesis describes the structural studies of four different proteins from two organisms. Xyloglucan endotransglycosylases, XETs, are involved in plant cell wall expansion and remodeling by splitting and reconnecting xyloglucan-cellulose crosslinks. The first crystal structure of a XET enzyme has been determined to 1.8 Å. The structure provides insights into how XETs are able to bind a heavily branched xyloglucan sugar, as well as hints about the XET-transglycosylation mechanism.</p><p><i>Mycobacterium tuberculosis</i> (Mtb) is the cause of enormous human mortality each year. Despite the sequencing of the complete Mtb-genome, the biological function of a large fraction of the <i>M. tuberculosis </i>proteins is still unknown. We here report the crystal structures of three such proteins, Rv2740, Rv0216 and Rv0130. Rv2740 forms a Cystatin α+b fold with a deep active site pocket similar to a limonene-1,2-epoxide hydrolase from <i>Rhodococcus erythropolis</i>. However, in contrast to the small limonene-based substrate of the <i>Rhodococcus</i> enzyme, Rv2740 is able to degrade large fatty acid and sterol epoxides, giving suggestions for the physiological substrates of this enzyme.</p><p>The structure of <i>M. tuberculosis</i> Rv0216 exhibits a so-called double hotdog fold. Rv0216 shows similarity to a number of enzymes using thiol esters as substrates, including several <i>R</i>-enoyl hydratases and β-hydroxyacyl dehydratases. However, only parts of the hydratase / dehydratase catalytic site are conserved in Rv0216. Rv0130 in contrast, contains a highly conserved <i>R</i>-hydratase motif, housed in a dimer of two single hotdog folded molecules. This active site is situated in a long tunnel, formed by a sharp kink in the Rv0130 central helix. A number of previously predicted single / double hotdog folded proteins from <i>M. tuberculosis</i> seem to feature a similar substrate-binding tunnel, indicating that Rv0130 as well as some of these proteins, might act on long fatty enoyl chains. </p> Cell and molecular biology xyloglucan endotransglycosylase Mycobacterium tuberculosis epoxide hydrolase fatty acid metabolism fatty acid oxidation crystallography Cell- och molekylärbiologi
514	Structural and Functional Aspects of β1 Integrin Signalling Nilsson, Stina January 2006 (has links) <p>Integrins are transmembrane glycoproteins primarily mediating interactions of cells with the extracellular matrix. Each receptor is a complex of one α- and one β-subunit with affinity for a diverse set of ligands. A prerequisite for ligand binding, and subsequent events, is the activation of integrins by cytoplasmic signals that confer a large conformational change to the extracellular domain.</p><p>In this thesis, the role of a cytoplasmic threonine-cluster, conserved in several β subunits, in β1-integrin activation was investigated. Phosphorylation of these residues is postulated to regulate β2 and β3 integrin affinity for ligands, but it has not been shown so far to occur for β1. Residue T788, but not T789, was established as a site of critical importance for inside-out activation of β1 integrins by mutagenesis to alanine. In contrast to β1-T788A, a phospho-mimicking mutation, β1-T788D, expressed the conformation sensitive 9EG7-epitope and mediated normal cell adhesion. In addition, the T788D mutation did not interfere with binding of the talin head domain, an interaction important for integrin activation. Thus, phosphorylation of T788 in integrin β1 was concluded to be compatible with inside-out receptor activation, in line with β2 and β3 integrin regulation. </p><p>Focal adhesion kinase (FAK) is activated after integrin ligation and is, together with Src, one of the central players in integrin-mediated events. Phosphatidylinositol 3-kinase (PI3K) is thought to be activated by binding to FAK. However, a novel, major β1-integrin signalling pathway to activate PI3K was identified, which is FAK- and Src-independent.</p><p>Growth factor induced stimulation of extracellular signal-regulated kinase (Erk) is largely dependent on signals from integrin mediated adhesion to pass checkpoints downstream of Ras. The mechanisms by which β1-integrins mediate Erk-activation were characterized by pin-pointing what phosphorylation sites on the mitogen-activated protein (MAP) kinases and their effector proteins were FAK-dependent. The results indicated that β1 integrins can promote Erk activation by FAK-dependent mechanisms at the levels of both cRaf and Mek, and in addition, a FAK-independent checkpoint at the level of Mek activation.</p> Cell and molecular biology Integrin Integrin subunit β1 Integrin activation Threonine Phosphorylation Integrin signalling FAK PI3K MAPK Cell- och molekylärbiologi
515	Functional Characterization of the Cellular Protein p32 : A Protein Regulating Adenovirus Transcription and Splicing Through Targeting of Phosphorylation Öhrmalm, Christina January 2006 (has links) <p>Cellular processes involved in the conversion of the genetic information from DNA into a protein are often regulated by reversible phosphorylation reactions. By modulating the phosphorylated status of key proteins their activity can either be enhanced or repressed. In this thesis I have studied the significance of phosphorylation in the regulation of transcription and splicing using human adenovirus as a model system.</p><p>The results show that the activity of the cellular SR family of splicing enhancer or repressor proteins are reduced in adenovirus infected nuclear extracts by a virus-induced hypophosphorylation. The viral E4-ORF4 was shown to induce SR protein dephosphorylation by recruiting the cellular protein phosphatase PP2A. The E4-ORF4/PP2A complex was shown to relieve the SR protein-mediated repression of late virus-specific splicing and further activate alternative splicing in transiently transfected cells. Collectively, these results showed that alternative splicing, like many other biological processes, is regulated by reversible protein phosphorylation.</p><p>Similarly, the cellular p32 protein was shown to cause hypophosphorylation of the SR protein ASF/SF2 resulting in a reduced RNA binding capacity of ASF/SF2. This change in ASF/SF2 RNA binding also had a drastic effect on the function of ASF/SF2 as a regulatory protein affecting splice site choice. The cellular p32 protein and the viral E4-ORF4 protein both target the same cellular splicing factor, ASF/SF2. However, they regulate splicing by different mechanisms. E4-ORF4 recruits a phosphatase to dephosphorylate ASF/SF2, while p32 sequester ASF/SF2 in an inactive complex.</p><p>Further, we demonstrated that overexpression of p32 during a lytic infection suppressed transcription from the adenovirus major late transcription unit. p32 induced a selective repression of CAAT-box containing promoters indicating the involvement of the transcription factor CBF/NF-Y in this regulation. A further analysis showed that p32 caused a hyperphosphorylation of the CTD of RNA Pol II, which resulted in a significant reduction in the processivity of Pol II during the elongation phase of transcription.</p><p>In summary, we have shown that E4-ORF4 regulates the activity of splicing regulatory SR proteins, and that p32 regulates the activity of the SR protein ASF/SF2 in splicing and Pol II processivity during transcription elongation. Mechanistically, both E4-ORF4 and p32 appears to function by regulating the phosphorylated status of key cellular proteins involved in these processes.</p> Cell and molecular biology Adenovirus p32 ASF/SF2 E4-ORF4 Splicing Transcription CTD RNA Pol II Cell- och molekylärbiologi
516	Role of Non-Homologous End-Joining in Repair of Radiation-Induced DNA Double-Strand Breaks Karlsson, Karin January 2006 (has links) <p>Efficient and correct repair of DNA damage, especially DNA double-strand breaks (DSBs), is vital for the survival of individual cells and organisms. Defects in the DNA repair may lead to cell death or genomic instability and development of cancer. </p><p>The repair of DSBs in cell lines with different DSB rejoining capabilities was studied after exposure to ionising radiation. A new cell lysis protocol performed at 0ºC, which prevents the inclusion of non-true DSBs in the quantification of DSBs by pulsed-field gel electrophoresis (PFGE), was developed. Results showed that when the standard protocol at 50ºC was used, 30-40% of the initial yield of DSBs corresponds to artifactual DSBs. The lesions transformed to DSBs during incubation at 50ºC were repaired within 60-90 minutes <i>in vivo</i> and the repair was independent of DNA-PK, XRCC1 and PARP-1.</p><p>Non-homologous end-joining (NHEJ) is the major DSB repair pathway in mammalian cells. We show that DSBs are processed into long single-stranded DNA (ssDNA) ends after ≥1 h of repair in NHEJ deficient cells. The ssDNA was formed outside of the G<sub>1</sub> phase of the cell cycle and only in the absence of the NHEJ proteins DNA-PK and DNA Ligase IV/XRCC4. The generation of ssDNA had great influence on the quantification of DSBs by PFGE. The standard protocol caused hybridisation of the ssDNA ends, resulting in overestimation of the DSB repair capability in NHEJ deficient cells.</p><p>DSBs were also quantified by detection of phosphorylated H2AX (γ-H2AX) foci. A large number of γ-H2AX foci still remaining after 21 h of repair in an NHEJ deficient cell line confirmed the low repair capability determined by PFGE. Furthermore, in normal cells difficulty in repairing clustered breaks was observed as a large fraction of γ-H2AX foci remaining 24 h after irradiation with high-LET ions.</p> Molecular biology DNA damage DNA repair DSB NHEJ DNA-PK ionising radiation high-LET heat-labile sites PFGE Molekylärbiologi
517	Thioredoxins and gene regulation in the Drosophila germline Svensson, Malin J. January 2007 (has links) Spermatogenesen är i många organismer en av de mest dramatiska förvandlingar som en cell kan genomgå – en vanlig, rund, diploid cell omvandlas till en nålformad, haploid cell med ett tätt packat cellmaskineri. I bananfluga, Drosophila melanogaster, innebär denna process flera karaktäristiska stadier. Ett av dessa är det primära spermatocyt-stadiet, som infaller innan cellen påbörjar meios-delning. Stadiet karaktäriseras av en uppluckrad kromatinstruktur i cellens kärna och ovanligt höga transkriptions- och translationshastigheter, för att producera allt det mRNA och de proteiner som behövs senare under spermatidomvandlingen. Två av de proteiner som uttrycks i höga nivåer i primära spermatocyter är ThioredoxinT (TrxT) och Painting of fourth (POF). Thioredoxiner är små proteiner som har som funktion att reducera disulfidbryggor i andra proteiner, en mekanism som används i många olika fysiologiska sammanhang. I denna avhandling visar jag att TrxT-genen kodar för ett testikelspecifikt thioredoxin som binder specifikt till Y-kromosom-loopar i primära spermatocyter. TrxT-genen ligger precis bredvid deadhead (dhd), en gen som kodar för ett hon-specifikt thioredoxin som är lokaliserat till cellkärnorna i flugans äggstockar. Ett tredje thioredoxin i Drosophila är det allmänt uttryckta Thioredoxin-2 (Trx-2). Jag har upptäckt att flugor som saknar Trx-2 är livsdugliga, men att de lever kortare än vildtypsflugor, medan flugor med extra mycket Trx-2 har en ökad tålighet mot oxidativ stress. Slående nog är en total avsaknad av alla tre thioredoxiner inte förenat med letalitet, tvärtemot vad man skulle kunnat vänta sig. Alla tre thioredoxiner finns i de olika Drosophilider som undersökts och den ovanliga genorganisation som delas av TrxT och dhd är generellt konserverad. Gen-namnet Painting of fourth härstammar från upptäckten att POF binder till (”målar”) Drosophilas kromosom 4. Jag visar i min avhandling att POFs bindning till den fjärde kromosomen är bevarad i olika Drosophila-arter och att POF kolokaliserar med både ett protein och en histon-modifiering, som är förknippade med doskompensation, i arter där POF också binder till hanens X-kromosom. POF uttrycks överallt i både honor och hanar, men i väldigt höga nivåer i hanens testiklar. Jag visar här att POF finns i cellkärnan hos primära spermatocyter, men också i kärnan på mognande spermatider, och att avsaknad av POF in hanens könsceller orsakar en global nedreglering av gener som ligger på kromosom 4. Kombinationen av mina POF- resultat tyder på att POF har en viktig funktion i det första kända fallet av genreglering av en hel autosomal kromosom. / The process of spermatogenesis is in many organisms one of the most dramatic cellular transformations - a normal round diploid cell is ultimately transformed into a needle shaped haploid cell with tightly packaged cell machinery. In Drosophila melanogaster this process involves several characteristic stages, one of these being the primary spermato-cyte stage, which is the stage prior to meiosis. This stage is characterized by a loose chromatin structure in the nucleus and exceptionally high rates of transcription and translation to produce essentially all the mRNAs and proteins that are needed later during spermatid formation. Two proteins that are expressed in high levels in primary spermatocytes are ThioredoxinT (TrxT) and Painting of fourth (POF). Thioredoxins are small thiol proteins that reduce disulfides in other proteins, a mechanism that is utilized in many different contexts. In this thesis I show that the TrxT gene encodes a testis-specific thioredoxin that specifically associates to Y-chromosome loops in primary spermatocytes. TrxT is located right next to deadhead (dhd), a gene that encodes a female-specific thioredoxin that specifically locates to nuclei in the ovaries. A third thioredoxin in Drosophila is the ubiquitously expressed Thioredoxin-2 (Trx-2). I have found that flies lacking Trx-2 are viable but have shorter life spans than wild type flies, while over-expression of Trx-2 mediates an increased resistance to oxidative stress. Interestingly, a lack of all three thioredoxins does not result in lethality, contrary to what could be expected. All three thioredoxins are conserved among Drosophilids and the striking genomic organization of TrxT and dhd is generally conserved. The gene name Painting of fourth originates from the finding that POF stains the 4th chromosome of Drosophila in a banded pattern on salivary gland chromosomes. I show in this thesis that POF binding to the equivalent of the 4th chromosome is conserved in genus Drosophila and that POF co-localizes with both a protein and a histone modification associated with dosage compensation in species where POF also binds the male X. POF is expressed ubiquitously in both males and females, but at very high levels in male testes. I show that POF is present in nuclei of primary spermatocytes, but also in nuclei of maturing spermatids and that a lack of POF in the male germline causes a global down-regulation of chromosome 4 genes. These results combined suggest a function of POF in the first known case of chromosome-wide gene regulation of an autosome. Drosophila thioredoxin sex-specific Pof chromosome 4 gene regulation kromosom 4 genreglering Drosophila thioredoxin könsspecifik Pof Molecular biology Molekylärbiologi
518	Structural studies of Caseinolytic protease 1 from Mycobacterium tuberculosis and Methionyl-tRNA synthetase from Mycobacterium smegmatis / Ingvarsson, Henrik January 2010 (has links) Tuberculosis is a severe disease that causes about 2 million deaths every year. It is a worldwide threat and it is estimated that one-third of the world’s population carries the infection. The severe side effects of the present drugs, and the more than 6 months long treatment, in addition to the development of resistant bacterial strains, are the incentives for the intensified search for new drugs. In this work two potential mycobacterial drug targets have been studied: Caseinolytic protease 1 (ClpP1) from Mycobacterium tuberculosis (Mt) and Methionyl-tRNA synthetase (MetRS) from Mycobacterium smegmatis (Ms). The X-ray stucture of ClpP1 was determined to 3.0 Å resolution. The study gives details on the tetradecameric arrangement of the enzyme. Two hepameric discs assemble to form a chamber containing the catalytic activity mediated by each of the monomers. The chamber can be reached by two pores. Comparison with the human homologue reveals important structural differences. The X-ray studies on Ms MetRS were done to 2.3 Å and 2.8 Å resolution. The study gives details on the flexibility of the enzyme and how this is related to activity. Important findings are identification of an intermediate structure in which the methionine to be adenylated is bound in the catalytic site in a tight complex. The catalytic site and the anticodon recognizing domains are separated and the structural results indicate communication between the domains. The possibility to allosterically inhibit the enzyme is discussed. Mycobacterium tuberculosis caseinolytic protease 1 ClpP1 Mycobacterium smegmatis methionyl-tRNA synthetase MetRS X-ray crystallography Cell and molecular biology Cell- och molekylärbiologi
519	Structural Studies of a Xyloglucan Endotransglycosylase from Populus tremula x tremuloides and Three Conserved Hypothetical Proteins from Mycobacterium tuberculosis Johansson, Patrik January 2006 (has links) This thesis describes the structural studies of four different proteins from two organisms. Xyloglucan endotransglycosylases, XETs, are involved in plant cell wall expansion and remodeling by splitting and reconnecting xyloglucan-cellulose crosslinks. The first crystal structure of a XET enzyme has been determined to 1.8 Å. The structure provides insights into how XETs are able to bind a heavily branched xyloglucan sugar, as well as hints about the XET-transglycosylation mechanism. Mycobacterium tuberculosis (Mtb) is the cause of enormous human mortality each year. Despite the sequencing of the complete Mtb-genome, the biological function of a large fraction of the M. tuberculosis proteins is still unknown. We here report the crystal structures of three such proteins, Rv2740, Rv0216 and Rv0130. Rv2740 forms a Cystatin α+b fold with a deep active site pocket similar to a limonene-1,2-epoxide hydrolase from Rhodococcus erythropolis. However, in contrast to the small limonene-based substrate of the Rhodococcus enzyme, Rv2740 is able to degrade large fatty acid and sterol epoxides, giving suggestions for the physiological substrates of this enzyme. The structure of M. tuberculosis Rv0216 exhibits a so-called double hotdog fold. Rv0216 shows similarity to a number of enzymes using thiol esters as substrates, including several R-enoyl hydratases and β-hydroxyacyl dehydratases. However, only parts of the hydratase / dehydratase catalytic site are conserved in Rv0216. Rv0130 in contrast, contains a highly conserved R-hydratase motif, housed in a dimer of two single hotdog folded molecules. This active site is situated in a long tunnel, formed by a sharp kink in the Rv0130 central helix. A number of previously predicted single / double hotdog folded proteins from M. tuberculosis seem to feature a similar substrate-binding tunnel, indicating that Rv0130 as well as some of these proteins, might act on long fatty enoyl chains. Cell and molecular biology xyloglucan endotransglycosylase Mycobacterium tuberculosis epoxide hydrolase fatty acid metabolism fatty acid oxidation crystallography Cell- och molekylärbiologi
520	Structural and Functional Aspects of β1 Integrin Signalling Nilsson, Stina January 2006 (has links) Integrins are transmembrane glycoproteins primarily mediating interactions of cells with the extracellular matrix. Each receptor is a complex of one α- and one β-subunit with affinity for a diverse set of ligands. A prerequisite for ligand binding, and subsequent events, is the activation of integrins by cytoplasmic signals that confer a large conformational change to the extracellular domain. In this thesis, the role of a cytoplasmic threonine-cluster, conserved in several β subunits, in β1-integrin activation was investigated. Phosphorylation of these residues is postulated to regulate β2 and β3 integrin affinity for ligands, but it has not been shown so far to occur for β1. Residue T788, but not T789, was established as a site of critical importance for inside-out activation of β1 integrins by mutagenesis to alanine. In contrast to β1-T788A, a phospho-mimicking mutation, β1-T788D, expressed the conformation sensitive 9EG7-epitope and mediated normal cell adhesion. In addition, the T788D mutation did not interfere with binding of the talin head domain, an interaction important for integrin activation. Thus, phosphorylation of T788 in integrin β1 was concluded to be compatible with inside-out receptor activation, in line with β2 and β3 integrin regulation. Focal adhesion kinase (FAK) is activated after integrin ligation and is, together with Src, one of the central players in integrin-mediated events. Phosphatidylinositol 3-kinase (PI3K) is thought to be activated by binding to FAK. However, a novel, major β1-integrin signalling pathway to activate PI3K was identified, which is FAK- and Src-independent. Growth factor induced stimulation of extracellular signal-regulated kinase (Erk) is largely dependent on signals from integrin mediated adhesion to pass checkpoints downstream of Ras. The mechanisms by which β1-integrins mediate Erk-activation were characterized by pin-pointing what phosphorylation sites on the mitogen-activated protein (MAP) kinases and their effector proteins were FAK-dependent. The results indicated that β1 integrins can promote Erk activation by FAK-dependent mechanisms at the levels of both cRaf and Mek, and in addition, a FAK-independent checkpoint at the level of Mek activation. Cell and molecular biology Integrin Integrin subunit β1 Integrin activation Threonine Phosphorylation Integrin signalling FAK PI3K MAPK Cell- och molekylärbiologi

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