Global ETD Search

71	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
72	The role of the Type IV pili system in the virulence of Francisella tularensis Salomonsson, Emelie January 2008 (has links) Francisella tularensis is a Gram-negative intracellular pathogen causing the zoonotic disease tularemia. F. tularensis 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 F. tularensis: the highly virulent tularensis (Type A) that causes a very aggressive form of the disease, with mortality as high as 60% if untreated, the moderately virulent holarctica (Type B) and mediasiatica, and the essentially avirulent subspecies F. novicida. 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 F. tularensis 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 F. tularensis, these have not been linked to the Tfp encoding gene clusters until now. Herein, I present evidence that the Francisella pilin, PilA, can complement pilin-like characteristics and promote assembly of fibers in a heterologous system in Neisseria gonorrhoeae. pilA 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 F. tularensis 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 (pilA) 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 in cis 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. Francisella tularensis tularemia bacterial pathogenesis Type IV pili Type II secretion Neisseria gonorrhoeae PilA RD18 RD19 Molecular biology Molekylärbiologi
73	Construction of force measuring optical tweezers instrumentation and investigations of biophysical properties of bacterial adhesion organelles Andersson, Magnus January 2007 (has links) Optical tweezers are a technique in which microscopic-sized particles, including living cells and bacteria, can be non-intrusively trapped with high accuracy solely using focused light. The technique has therefore become a powerful tool in the field of biophysics. Optical tweezers thereby provide outstanding manipulation possibilities of cells as well as semi-transparent materials, both non-invasively and non-destructively, in biological systems. In addition, optical tweezers can measure minute forces (< 10-12 N), probe molecular interactions and their energy landscapes, and apply both static and dynamic forces in biological systems in a controlled manner. The assessment of intermolecular forces with force measuring optical tweezers, and thereby the biomechanical structure of biological objects, has therefore considerably facilitated our understanding of interactions and structures of biological systems. Adhesive bacterial organelles, so called pili, mediate adhesion to host cells and are therefore crucial for the initial bacterial-cell contact. Thus, they serve as an important virulence factor. The investigation of pili, both their biogenesis and their expected in vivo properties, brings information that can be of importance for the design of new drugs to prevent bacterial infections, which is crucial in the era of increased bacterial resistance towards antibiotics. In this thesis, an experimental setup of a force measuring optical tweezers system and the results of a number of biomechanical investigations of adhesive bacterial organelles are presented. Force measuring optical tweezers have been used to characterize three different types of adhesive organelles under various conditions, P, type 1, and S pili, which all are expressed by uropathogenic Escherichia coli. A quantitative biophysical force-extension model, built upon the structure and force response, has been developed. It is found, that this model describes the biomechanical properties for all three pili in an excellent way. Various parameters in their energy landscape, e.g., bond lengths and transition barrier heights, are assessed and the difference in behavior is compared. The work has resulted in a method that in a swift way allows us to probe different types of pili with high force and high spatial resolution, which has provided an enhanced understanding of the biomechanical function of these pili. / Optisk pincett är en teknik i vilken mikrometerstora objekt, inkluderande levande celler och bakterier, beröringsfritt kan fångas och förflyttas med hög noggrannhet enbart med hjälp av ljus. Den optiska pincetten har därmed blivit ett kraftfullt verktyg inom biofysiken, som möjliggör enastående precisions-manipulering av celler och semi-transparenta objekt. Dessutom kan denna manipulation göras intracellulärt, dvs. utan att fysiskt öppna eller penetrera cellernas membran. Den optiska pincetten kan även mäta mycket små krafter och interaktioner (< 10-12 N) samt applicera både statiska och dynamiska krafter i biologiska system med utmärkt precision. Optisk pincett är därför en utmärkt teknik för mätning av intermolekylära krafter och för bestämning av biomekaniska strukturer och dess funktioner. Vissa typer av bakterier har specifika vidhäftningsorganeller som kallas för pili. Dessa förmedlar vidhäftningen till värdceller och är därför viktiga vid bakteriens första kontakt. En djupare förståelse av pilis uppbyggnad och biomekanik kan därmed ge information, som kan vara vital i framtagandet av nya mediciner som förhindrar bakteriella infektioner. Detta är av stor vikt i skenet av den ökande antibiotikaresistensen i vårt samhälle. I denna avhandling presenteras konstruktionen av en experimentell uppställning av kraftmätande optiskt pincett tillsammans med resultat från biomekaniska undersökningar av vidhäftande bakteriella organeller. Kraftmätande optisk pincett har använts för att karakterisera tre olika typer av pili, P, typ 1, och S pili, vilka kan uttryckas av uropatogena Escherichia coli. En kvantitativ biofysikalisk modell som beskriver deras förlängningsegenskaper under pålagd kraft har konstruerats. Modellen bygger på pilis strukturella uppbyggnad samt på dess respons som uppmäts med den kraftmätande optiska pincetten. Modellen beskriver de biomekaniska egenskaperna väl för alla tre pili. Dessutom kan ett antal specifika bindnings- och subenhetsparametrar bestämmas, t.ex. interaktionsenergier och bindningslängder. Skillnaden mellan dessa parametrar hos de tre pilis samt deras olika kraftrespons har jämförts. Detta arbete har dels resulterat i en förbättrad förståelse av pilis biomekaniska funktion och dels i en metod som, med hög noggrannhet, tillåter oss att bestämma ett antal biomekaniska egenskaper hos olika organeller på ett effektivt sätt. optical tweezers biological physics unfolding Escherichia coli force measurements energy landscape dynamic force spectroscopy manipulation polymers pili Physics Fysik
74	Diversity of Pseudomonas aeruginosa Type IV Pilins and Identification of a Novel D-arabinofuranose Post-translational Modification Kus, Julianne 31 July 2008 (has links) The opportunistic bacterial pathogen Pseudomonas aeruginosa uses type IV pili (T4P) for adherence to, and rapid colonization of, surfaces via twitching motility. T4P are formed from thousands of pilin (PilA) subunits. Two groups of P. aeruginosa pilins were described previously (I and II), distinguished by protein length and sequence. PilA_I was glycosylated with an O-antigen subunit through the action of PilO/TfpO, encoded downstream of pilA_I. To determine if additional pilin variants existed, analysis of the pilin locus of >300 P. aeruginosa strains from a variety of environments was conducted. Three additional pilin alleles were discovered, each of which was invariantly associated with a unique, previously unidentified, downstream gene(s): pilA_III+tfpY, pilAIV+tfpW+tfpX, pilA_V+tfpZ. This survey also revealed that strains with group I T4P were more commonly associated with respiratory infections than strains with other pilins, suggesting that glycosylated T4P may confer a colonization advantage in this environment. The newly identified group IV pilin, represented by strain Pa5196, migrated aberrantly through SDS-PA gels, suggesting it was also glycosylated, a hypothesis confirmed by periodic acid-Schiff staining and mass spectrometry (MS) analyses. Disruption of Pa5196 O-antigen biosynthesis did not prevent the production of glycosylated pilins, demonstrating that these pilins were modified in a novel manner, unlike group I pilins. Using MS, nuclear magnetic resonance spectroscopy and site-directed mutagenesis, the Pa5196 pilins were shown to be uniquely modified with homo-oligosaccharides of mycobacterial-like α-1,5-D-arabinofuranose at multiple locations. Residues Thr64 and Thr66, located on the αβ-loop region of the protein, appear to be the preferred, but not exclusive sites of modification, each being modified with up to four D-Araf sugars. This region of the pilin is partially surface-exposed in the pilus, therefore modification of these sites may influence the surface chemistry of the fibre. Residues Ser81, Ser82, Ser85 and Ser89, located in the β-strand region, were also modified, mainly with mono- and disaccharides. Bioinformatic analyses and mutagenesis of TfpW suggest that this novel protein is an arabinosyltransferase necessary for PilA_IV modification. This research has increased our understanding of the complexity of this virulence factor, and may aid in development of new therapeutics for P. aeruginosa and mycobacterial infections. Pseudomonas aeruginosa type IV pili adhesion bacterial protein glycosylation arabinose Mycobacteria cystic fibrosis diversity mass spectrometry TfpW 0410
75	Diversity of Pseudomonas aeruginosa Type IV Pilins and Identification of a Novel D-arabinofuranose Post-translational Modification Kus, Julianne 31 July 2008 (has links) The opportunistic bacterial pathogen Pseudomonas aeruginosa uses type IV pili (T4P) for adherence to, and rapid colonization of, surfaces via twitching motility. T4P are formed from thousands of pilin (PilA) subunits. Two groups of P. aeruginosa pilins were described previously (I and II), distinguished by protein length and sequence. PilA_I was glycosylated with an O-antigen subunit through the action of PilO/TfpO, encoded downstream of pilA_I. To determine if additional pilin variants existed, analysis of the pilin locus of >300 P. aeruginosa strains from a variety of environments was conducted. Three additional pilin alleles were discovered, each of which was invariantly associated with a unique, previously unidentified, downstream gene(s): pilA_III+tfpY, pilAIV+tfpW+tfpX, pilA_V+tfpZ. This survey also revealed that strains with group I T4P were more commonly associated with respiratory infections than strains with other pilins, suggesting that glycosylated T4P may confer a colonization advantage in this environment. The newly identified group IV pilin, represented by strain Pa5196, migrated aberrantly through SDS-PA gels, suggesting it was also glycosylated, a hypothesis confirmed by periodic acid-Schiff staining and mass spectrometry (MS) analyses. Disruption of Pa5196 O-antigen biosynthesis did not prevent the production of glycosylated pilins, demonstrating that these pilins were modified in a novel manner, unlike group I pilins. Using MS, nuclear magnetic resonance spectroscopy and site-directed mutagenesis, the Pa5196 pilins were shown to be uniquely modified with homo-oligosaccharides of mycobacterial-like α-1,5-D-arabinofuranose at multiple locations. Residues Thr64 and Thr66, located on the αβ-loop region of the protein, appear to be the preferred, but not exclusive sites of modification, each being modified with up to four D-Araf sugars. This region of the pilin is partially surface-exposed in the pilus, therefore modification of these sites may influence the surface chemistry of the fibre. Residues Ser81, Ser82, Ser85 and Ser89, located in the β-strand region, were also modified, mainly with mono- and disaccharides. Bioinformatic analyses and mutagenesis of TfpW suggest that this novel protein is an arabinosyltransferase necessary for PilA_IV modification. This research has increased our understanding of the complexity of this virulence factor, and may aid in development of new therapeutics for P. aeruginosa and mycobacterial infections. Pseudomonas aeruginosa type IV pili adhesion bacterial protein glycosylation arabinose Mycobacteria cystic fibrosis diversity mass spectrometry TfpW 0410
76	Caractérisation et délétion de tous les systèmes d'adhésion connus de Salmonella enterica sérovar Typhi David, Élise 08 1900 (has links) Les fimbriae sont des structures protéiques extracellulaires retrouvées chez une vaste diversité de bactéries. Ces structures ont fait l’objet de nombreuses études et sont maintenant reconnus pour leur implication dans l’adhésion et l’invasion aux cellules eucaryotes, mais aussi dans la production de biofilms. Ils sont groupés selon leur voie de sécrétion. Certains utilisent une machinerie spécifique et individuelle, c’est le cas des pili de type IV, tandis que d’autres utilisent la voie de sécrétion générale suivit d’une voie spécifique telle que la voie du chaperon-placier (« Chaperon Usher Pathway ») (fimbriae CUP) ou la voie de nucléation précipitation (« nucleation precipitation pathway ») (Curli). Malgré toutes les connaissances actuelles concernant les fimbriae, très peu d’informations sont disponibles quant aux fimbriae de Salmonella enterica sérovar Typhi (S. Typhi). Ce pathogène unique à l’homme est l’agent étiologique de la fièvre typhoïde. Puisque les fimbriae sont reconnus pour être impliqués dans l’adaptation à l’hôte, nous avons décidé d’étudier davantage l’arsenal fimbriaire de S. Typhi, dans l’espoir d’identifier des facteurs de virulence uniques à S. Typhi et impliqués dans la ségrégation de l’hôte. La souche S. Typhi ISP1820 possède 14 opérons codant pour des systèmes d’adhésion, mais plusieurs contiennent des pseudogènes et leur expression n’a jamais été observée in vitro. Afin d’étudier les systèmes d’adhésion de S. Typhi, nous avons supprimé chaque opéron du génome individuellement et cumulativement à l’aide une technique de mutagénèse par échange allélique. Ainsi, nous avons testé chaque mutant individuel et la souche mutante pour tous les systèmes d’adhésion dans plusieurs essais tels que des infections de cellules épithéliales et de macrophages, de mobilité et de formation de biofilm. Nous avons aussi évalué l’expression des fimbriae lors de différentes conditions de croissance en laboratoire par RT-PCR. Tous les tests réalisés nous ont permis de découvrir que plusieurs opérons fimbriaires de S. Typhi sont opérationnels et utilisés pour différentes fonctions par la bactérie. / Fimbriae are extracellular proteinaceous appendages found in many bacteria. They are widely studied and believe to be implicated in several cellular functions such as adhesion, invasion of eukaryotic cells, and biofilm production. They are classified depending on their pathway of secretion: some, like type IV pili, use self-specific machinery, while others use the general secretory pathway followed by their own assembly pathway such as the Chaperon Usher Pathway (CUP fimbriae) and the nucleation precipitation pathway (curli). Despite everything that is known about these structures, little has been discovered regarding fimbrial systems of Salmonella enterica serovar Typhi (S. Typhi). This pathogen is a human restricted serovar and the etiological agent of typhoid fever. Since fimbriae have been implicated in host adaptation, we have decided to further study S. Typhi fimbrial arsenal in the hope of uncovering virulence factors unique to S. Typhi and implicated in host specificity. The S. Typhi ISP1820 strain carries 14 operons encoding for fimbrial structures, but many are believed pseudogenes or are not expressed in vitro. In order to study these different adhesion systems in S. Typhi, we have deleted each one individually and cumulatively by allelic exchange mutagenesis. Hence, we have tested every individual mutation and the mutant strain deprived of all 14 operons in many different assays including epithelial cell and macrophage infection, mobility, and biofilm formation. We also evaluate expression during growth under laboratory conditions by RT-PCR. These experiments have allowed us to discover that many of S. Typhi fimbriae are functional, expressed, and used by the bacteria in many different processes. Salmonella enterica sérovar Typhi fimbriae systèmes d'adhésion pili Salmonella enterica serovar Typhi adhesion system
77	Caracterisation fonctionnelle des sortases de lactococcus lactis : de l'ancrage de protéines à la biogénèse de pili Oxaran david, Virginie 19 January 2012 (has links) (PDF) Les bactéries lactiques (BL), communément employées en industrie agroalimentaire, font à présent l'objet d'études visant à les utiliser pour de nouvelles applications telles que le développement de vaccins vivants ou la délivrance de molécules d'intérêt biothérapeutique chez l'hôte. Dans cette optique, différents systèmes de présentation de protéines à la surface des bactéries à Gram positif ont été développés. L'un d'entre eux est basé sur l'activité d'enzymes, les sortases, liant de façon covalente les protéines à la paroi bactérienne. Nous avons utilisé la BL modèle, Lactococcus lactis, afin d'étudier les sortases, jusqu'alors étudiées essentiellement chez les bactéries pathogènes. La sortase A (SrtA) est responsable de l'ancrage d'au moins cinq protéines à motif LPxTG à la surface. Une seconde sortase, de classe C (SrtC), a été identifiée et caractérisée. Nous avons mis en évidence la capacité de L. lactis à produire des pili à sa surface qui sont polymérisés par SrtC et ancrés à la paroi par SrtA. Ces pili résultent de la polymérisation de la piline majeure YhgE qui peut être surplombée par la piline mineure de coiffe YhgD. La production de pili chez L. lactis entraîne un changement de comportement des cellules résultant à des phénotypes particuliers. Nous avons pu l'associer à l'auto-agrégation des cellules en culture liquide, à la formation de biofilms hétérogènes et aériens, et à l'adhésion à la mucine gastrique de porc. Plus précisément, YhgE a été impliquée dans l'auto-agrégation et les biofilms atypiques, et une troisième piline, dont l'appartenance au pilus n'a pas été démontrée, semble aussi impliquée dans la production de biofilms atypiques. Lactococcus lactis Sortase Pili Biofilm Agrégation Adhésion Mucine
78	Regulation of Exopolysaccharide Production in Myxococcus Xanthus Black, Wesley P. 06 January 2006 (has links) The surface gliding motility of Myxococcus xanthus is required for a multicellular developmental process initiated by unfavorable growth conditions. One form of the M. xanthus surface motility, social (S) gliding, is mediated by the extension and retraction of polarly localized type IV pili (Tfp). Besides Tfp, exopolysaccharides (EPS), another cell surface associated component, are also required for M. xanthus S motility. Previous studies demonstrated that the Dif chemotaxis-like signal transduction pathway is central to the regulation of EPS production in M. xanthus. Specifically, difA, difC and difE mutants were found to be defective in EPS production and S motility. DifA, DifC and DifE, homologous to methyl-accepting chemotaxis proteins (MCPs), CheW and CheA, respectively, are therefore positive regulators of EPS. This study, undertaken to better understand the regulation of EPS production, led to a few major findings. First, DifD and DifG, homologous to CheY and CheC, respectively, were found to be negative regulators of EPS production. Both DifD and DifG likely function upstream of the DifE kinase in EPS regulation. DifB, which has no homology to known chemotaxis proteins, was found not to be involved in EPS production. Secondly, this study led to the recognition that Tfp likely function upstream of the Dif pathway in the regulation of EPS production. Extracellular complementation experiments suggest that Tfp may act as sensors instead of signals for the Dif chemotaxis-like pathway. We propose a regulatory feedback loop that couples EPS production with Tfp function through the Dif signaling proteins. Lastly, we sought to identify additional genes involved in EPS production. Our efforts identified a mutation in a separate chemotaxis gene cluster as a suppressor of difA mutations, suggesting potential cross-talks among the multiple chemotaxis-like pathways in M. xanthus. In addition, we identified twenty-five previously uncharacterized genes that are predicted to be involved in M. xanthus EPS production. These genes appear to encode additional EPS regulators and proteins with biosynthetic function. / Ph. D. Dif chemotaxis proteins gliding motility fruiting body development Myxococcus xanthus exopolysaccharide (EPS) signal transduction type IV pili (Tfp)
79	台灣同人誌裡的男男性戀情想像-以台灣霹靂布袋戲耽美迷為例 / Boy's love(BL) in Taiwan slash literature-pili hand puppet show 鄭青青, Cheng ,Ching Ching Unknown Date (has links) 台灣在文化與流行方面一向受鄰近國日本的影響，舉凡服飾流行、音樂、電影、動漫等，其中影響青少年最大的應該可以說是動漫畫，近幾十年來，動漫畫中的「耽美文學」，又可以說是一股在台灣出版界新興的文體類型。「BL」漫畫即指「Boy's Love」，又稱耽美漫畫。原本是指女性漫畫家創作給女性讀者看的「少年愛」漫畫，內容以美貌男子之間的愛情為主。BL漫畫算是少女漫畫中比較另類的內容類型，內容唯美浪漫，而「耽美」的日文原意就是「唯美主義」。日本耽美漫畫在台灣從單純的閱讀，到現在發展出作家、網站、同人團體、甚至還有專門的商業出版社；而出版的物品，也從當初的日文翻譯漫畫、動畫到現在國人自行創作的漫畫、小說、周邊產品等。在台灣的耽美迷中，可以初分為兩種：一種只是純粹的耽美文本閱聽人，另一種除了閱聽文本外，還會主動衍生新的創作與文本，而在這些耽美迷的衍生文本中，居然有大半是台灣本土霹靂布袋戲迷所創作的耽美文本。台灣的本土布袋戲為何會跟耽美牽上關係？日本式的耽美到了台灣又有什麼樣的變化？而這在台灣本土形成的新型耽美中佔最大比率的文本─「霹靂耽美文本」，竟也被日本耽美迷所承認，在日本有了台灣霹靂耽美文本的閱聽人。本研究將從日本的耽美文化在台灣的演化，以及文化逆流的現象，勾勒出一個屬於台灣在地耽美文化的輪廓。關鍵字：漫畫、動漫、同人誌、Boy's Love(BL)、霹靂布袋戲 / The culture and fashion of Taiwan are historically influenced by Japan. Among many, the Slash Literature, or ‘Boy’s Love’ (BL), is one of rising style in recent decades. BL, which originally means ‘aestheticism’ in Japanese, features aesthetic and romantic in its content. While it is an alternative to mainstream style, BL allures remarkable amount of audience. The audience can be distinguished into two types: passive receiver on the one hand and active creator on the other. Surprisingly, most of the active creator of derivative BL context comes from enthusiasts of Pili Hand Puppet Show, a traditional Taiwanese culture. The locally shaped ‘Pili BL context’ not only is the most popular one in derivative BL context in Taiwan, but is recognized by Japanese BL enthusiasts. Thus, ‘Pili BL context’ is the countercurrent of BL culture back to Japan. This phenomenon prompts research questions of this study: how does Taiwanese Hand Puppet Show relate to BL? What are the transformations of Japanese BL adapted in Taiwan? To answer these questions, this study will investigate the evolution of Japanese BL culture in Taiwan and the countercurrent of ‘Pili BL context’ and will seek to contour the local BL culture of Taiwan. Keywords: Slash Literature, BL, Aestheticism, Subculture, Pili Hand Puppet Show. 漫畫動漫同人誌 Boy's Love(BL) 霹靂布袋戲 Slash Literature BL Aestheticism Subculture Pili Hand Puppet Show
80	Synthesis and biological evaluation of Bicyclic β-Lactams and 2-Pyridinones : Pilicides Targeting Pilus Biogenesis in Pathogenic Bacteria Emtenäs, Hans January 2003 (has links) New methods have been developed for the synthesis of bicyclic β-lactams and 2-pyridinones by combining acyl Meldrum’s acids and Δ2-thiazolines. The 2-pyridinones were synthesised both in solution using conventional heating or microwave assisted heating as well as by solid supported chemistry. The compounds (pilicides) were designed to interfere with the assembly of pili in uropathogenic E. coli by inhibiting the periplasmic chaperones. The affinity of the pilicides to the chaperones was investigated with surface plasmon resonance technique (Biacore) and with relaxation-edited 1H NMR spectroscopy experiments. Finally, the pilicides were investigated for their ability to inhibit pili formation in uropathogenic E. coli in a hemagglutination assay, where members of the 2-pyridinone family proved to be able to cause depiliation. Organic chemistry β-lactam 2-pyridinone 2-pyridone Meldrum’s acid Δ2-thiazoline solid-phase synthesis microwave assisted synthesis antibacterial pili pilicide Organisk kemi Organic chemistry Organisk kemi

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