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21	EFFECTS OF PROTAMINE ON PSEUDOMONAS AERUGINOSA CELL ENVELOPE COMPONENTS: SURFACE REMODELLING Mohan, Mukund 09 July 2010 (has links) The main objective of the study was to understand the mode of interaction of protamine (Ptm), a cationic antibacterial peptide from fish milt on the Gram negative bacterial envelope. The present study was designed to resolve the question of Ptm translocation across the seemingly impermeable Gram negative cell envelope. The Gram negative pathogen Pseudomonas aeruginosa was studied as an example of a microorganism that is Ptm-sensitive but doesn’t lyse even at bactericidal concentrations. Acquired resistance to Ptm was induced in P. aeruginosa by continuous sub-culturing in nutrient rich media containing increasing concentrations of Ptm. Alterations in bacterial surface charge, LPS composition, cell morphology and Ptm localisation on acquiring resistance were also examined. Expression of outer membrane proteins significantly decreased as P. aeruginosa acquired resistance to Ptm. OprF, the major porin in P. aeruginosa was found to be stably expressed in control, revertant (Ptm-Rev) and resistant (Ptm-Res) groups. No change in expression of efflux proteins was observed as a result of induced Ptm resistance, indicating that efflux is not among the Ptm resistance mechanisms at least in P. aeruginosa. OprM, which is part of the major efflux system (MexAB-OprM) in P. aeruginosa, was found to be down-regulated in Ptm-resistant P. aeruginosa. Another outer membrane protein down-regulated in Ptm-resistant P. aeruginosa was found to be petidyl-prolyl cis trans isomerase (PPIase) which plays a major role in proper folding and maturation of channel proteins in the outer membrane. Among the sarcosinate soluble proteins, DNA dependent RNA polymerase ? and ?’ subunits were found to be down-regulated in Ptm-resistant group indicating lower transcription levels in them. Lipopolysaccharide (LPS) from the three groups of P. aeruginosa under study was isolated and separated by SDS-PAGE. LPS composition of Ptm-Res P. aeruginosa was found to be significantly different from that of the control and Ptm-Rev but was found to be similar with that of LPS from O-antigenic mutant (A+B-, which possessed only A band structures). Comparison of the zetapotential of control, Ptm-Rev and Ptm-Res P. aeruginosa, proved that electrostatic shielding was coincidental in acquired resistance to Ptm in P. aeruginosa. The MIC of the parent strain of P. aeruginosa (A+B+) and the O-antigenic mutants (A+B-, A-B+ and A-B-) were found to be the same which may be indicating that alterations in O-antigenic components alone cannot contribute to Ptm resistance. Effects of Ptm treatment on morphologies of E. coli, S. typhimurium and P. aeruginosa whole cells and spheroplasts were also studied using transmission immuno-electron microscopy. Condensation of cytoplasmic contents was observed when whole cells and spheroplasts were treated with Ptm. Also, Ptm-treated cells and spheroplasts were stained with colloidal gold-labelled antibodies against Ptm to determine distribution within the target cells. It was quite evident that Ptm internalised in whole cells and spheroplasts without lysis and was found to be concentrated in the cytoplasm. Morphological changes observed in Ptm-Rev P. aeruginosa when exposed to Ptm were comparable with that of the control. Condensation of cytoplasmic contents was not observed in Ptm-Res P. aeruginosa when challenged with Ptm. Most of the Ptm was localized at or near the outer membrane of Ptm-treated Ptm-Res P. aeruginosa, indicating decreased outer membrane permeability. Results obtained from these experiments confirm that the resistance to Ptm observed in P. aeruginosa is at the very least, coincidental with the pleiotropic mutations involving change in outer surface including change in LPS composition, loss of porins and or alterations of porin size in OprF. porin protamine P. aeruginosa resistance LPS SDS-PAGE
22	Structure and Function of the Borrelia burgdorferi Porins, P13 and P66 Bonde, Mari January 2015 (has links) Borrelia burgdorferi is an elongated and helically shaped bacterium that is the causal agent of the tick-borne illness Lyme disease. The disease manifests with initial flu-like symptoms and, in many cases, the appearance of a skin rash called erythema migrans at the site of the tick bite. If left untreated the disease might cause impairment of various organs such as the skin, heart, joints and the nervous system. The bacteria have a parasitic lifestyle and are always present within a host. Hosts are usually ticks or different animals and birds that serve as reservoirs for infection. B. burgdorferi are unable to synthesize building blocks for many vital cellular processes and are therefore highly dependent on their surroundings to obtain nutrients. Because of this, porins situated in the outer membrane, involved in nutrient uptake, are believed to be very important for B. burgdorferi. Except for a role in nutrient acquisition, porins can also have a function in binding extracellular matrix proteins, such as integrins, and have also been implicated in bacterial adaptation to new environments with variations in osmotic pressure. P13 and P66 are two integral outer membrane proteins in B. burgdorferi previously shown to have porin activities. In addition to its porin function, P66 also has integrin binding activity. In this thesis, oligomeric structures formed by the P13 and P66 protein complexes were studied using the Black lipid bilayer technique in combination with nonelectrolytes. Initial attempts were also made to study the structure of P13 in Nanodiscs, whereby membrane proteins can insert into artificial lipid bilayers in their native state and the structure can be analyzed by electron microscopy. In addition, the role of P13 and P66 in B. burgdorferi osmotic stress adaptation was examined and also the importance and role of the integrin-binding activity of P66 in B. burgdorferi infections in mice. Using Black lipid bilayer studies, the pore forming activity of P13 was shown to be much smaller than previously thought, exhibiting activity at 0.6 nS. The complex formed by P13 was approximately 300 kDa and solely composed of P13 monomers. The channel size was calculated to be roughly 1.4 nm. Initial Nanodisc experiments showed a pore size of 1.3 nm, confirming the pore size determined by Black lipid bilayer experiments. P66 form pores with a single channel conductance of 11 nS and a channel size of 1.9 nm. The porin assembles in the outer membrane into a large protein complex of 420 kDa, containing exclusively P66 monomers. The integrin-binding function of P66 was found to be important for efficient bacterial dissemination in the murine host but was not essential for B. burgdorferi infectivity. Neither P13 nor P66 had an active role in osmotic stress adaptation. Instead, two p13 paralogs were up-regulated at the transcript level in B. burgdorferi cultured under glycerol-induced osmotic stress. / Borrelia burgdorferi är en bakterie med många unika egenskaper som orsakar sjukdomen Lyme borrelios. Borrelia kan idag lätt behandlas med antibiotika om sjukdomen upptäcks i ett tidigt stadium. Det är först om sjukdomen tillåts fortgå som symptom som nervsmärta och ansiktsförlamning kan uppstå och dessutom vara svåra att koppla till en Borrelia-infektion. Multiresistenta bakterier har blivit en stor del av vår vardag och även om Borrelia-bakterierna idag inte är resistenta mot flertalet antibiotika är det kanske speciellt viktigt, innan det är för sent, med forskning som kan leda till upptäckter av unika angreppsställen för nya läkemedel. Målet med denna avhandling var att studera hur två Borrelia proteiner, P13 och P66, ser ut, är uppbyggda och även vilken funktion de har. Dessa proteiner är tänkbara vaccinkandidater eftersom de sitter i yttre membranet hos bakterierna och sticker ut på ytan mot våra värdceller, vilket gör att vi reagerar mot dem vid en infektion. P13 och P66 är också viktiga kanaler för bakterierna vid upptag av näringsämnen och byggstenar från omgivningen. Ämnen som bakterierna inte kan producera själva. Pga. denna funktion är P13 och P66 tänkbara proteiner för blockering med ett läkemedel som skulle förhindra bakterien från att föröka sig i och med att de förlorar möjligheten att tillgodogöra sig näring. Detta i sin tur skulle leda till att vårt eget immunförsvar hinner rensa undan bakterierna innan infektionen blivit för stor och vi blivit sjuka. P66 har förutom porin funktionen även en adhesions funktion när proteinet kan binda integriner som sitter på olika typer av celler i vår kropp, bl. a. immunceller och epitelceller i våra blodkärl och vävnader. Den integrin bindande funktionen är viktig för bakterierna vid en infektion eftersom det gör det möjligt för bakterierna att binda till våra celler. Ett steg som är viktigt för att de senare ska kunna ta sig ut från blodkärlen till våra vävnader. P13 och P66 visade sig kunna bilda stora proteinkomplex i ytter membranet hos bakterierna med en storlek på 300 kDa respektive 420 kDa. De är inga specifika poriner som bara kan transportera en viss typ av molekyl med t.ex. en viss laddning, utan kan ombesörja upptaget av många olika typer av ämnen. Eliminering av p66 orsakade att ett annat adhesionsprotein, uppreglerades. En omplacering av ett normalt cytoplasmatiskt lokaliserat chaperon-protein till ytter-membranet hos bakterierna kunde också ses i frånvaro av P66. Chaperonet GroEL har i andra bakterier, bl. a. Helicobacter pylori, bakterien som orsakar magsår, beskrivits som ett protein som kan förflytta sig till ytan av bakterierna och där ha en liknande funktion som P66, dvs. att binda extracellulära matrisprotein. Förändringen i uttryck av adhesionsproteinet och förflyttningen av chaperonet till membranet var en följd av p66-eliminering och mest troligt ett sätt för bakterierna att komplettera den förlorade integrinbindande funktionen av P66. Det har tidigare visats att poriner är involverade i skyddet mot osmotisk stress i andra bakterier. Denna funktion hos P13 och P66 i Borrelia kunde inte ses när bakterier utsattes för osmotisk stress med glycerol, som orsakar en form av membranstress. Däremot kunde vi med hjälp av transkriptomanalys se att Borrelia-bakterier uppreglerade transkriptionen av två paraloger till P13 vid hyper-osmotisk stress. Borrelia bakteriens användning av dessa paraloga proteiner har tidigare trotts ske enbart i frånvaro av ett funktionellt P13 protein. Nu visade det sig att P13-paraloger har en egen funktion även i närvaro av P13, nämligen att vara involverade i regleringen av hyperosmotisk stress och därmed skydda bakterierna i denna stressituation. Andra gener som påverkades av osmotisk stress med glycerol var gener för stressfaktorer och pumpar i inre membranet hos bakterien. Borrelia P13 P66 porin protein complex dissemination osmotic stress
23	Structure-function analysis of membrane proteins by infrared spectroscopy porin OmpF, porin OmpG and betaine transporter BetP Korkmaz, Filiz Unknown Date (has links) (PDF) Frankfurt (Main), Univ., Diss., 2009
24	Study of the properties of channel-forming proteins of the cell walls of different Corynebacteriae / Untersuchung der Eigenschaften kanalbildender Proteine aus den Zellwänden verschiedener Corynebacteriae Barth, Enrico January 2008 (has links) (PDF) Die Gattung Corynebacterium gehört, neben Mycobacterium, Nocardia, Rhodococcus und weiteren nahverwandten Gattungen, dem unverwechselbaren, gattungsübergreifenden Taxon Mycolata an. Viele Spezies aus dieser heterogenen Gruppe Mycolsäure-haltiger Actinomyceten sind entweder aufgrund ihrer medizinischen oder ihrer biotechnologischen Bedeutung bekannt. Beispielsweise zählen Mycobacterium tuberculosis, Mycobacterium leprae, Corynebacterium diphtheriae und Nocardia farcinica, welche weltweit Verursacher besonders gefährlicher bakterieller Infektionskrankheiten sind, zu dieser ungewöhnlichen Gruppe Gram-positiver Bakterien. Ebenso bedeutsam sind einige apathogene Mycolata-Arten, die industrielle Anwendung finden. Corynebacterium glutamicum und Corynebacterium efficiens sind leistungsfähige Bakterien, die zum Beispiel in der Produktion des Geschmacksverstärkers Glutamat und des Tierfuttermittelzusatzes Lysin eingesetzt werden, während verschiedene Rhodococcus Spezies Anwendung bei der Herstellung von Acrylsäuren finden. Die Zellwand der Mycolata zeigt, verglichen mit der klassischer Gram-positiver Bakterien, eine außergewöhnliche Zusammensetzung und Struktur auf. Abgesehen von einem Arabinogalactan-Peptidoglycan-Komplex enthält die Zellwand der meisten Actinomyceten einen hohen Anteil an Mycolsäuren. Diese langkettigen, verzweigten Fettsäuren formen eine, mit der äußeren Membran Gram-negativer Bakterien vergleichbare, stark undurchlässige, hydrophobe äußere Hülle, welche die Grundlage der außergewöhnlichen Medikamentenresistenz bei den Mycolata bildet. Wie die äußere Membran Gram-negativer Bakterien enthält die Zellwand der Mycolata porenformende Proteine, die den Durchlass hydrophiler Substanzen gestatten. Indem sie eine Verbindung zwischen dem Zellinneren und der Umwelt, in der das Bakterium lebt, schaffen und einen kontrollierten Austausch zwischen beiden ermöglichen, tragen die Kanalproteine entscheidend zur Funktion der bakteriellen Zellhülle bei. Das Ziel dieser Arbeit war das Wissen über Zellwandkanäle in Corynebakterien zu erweitern. Deshalb untersuchten wir PorA und PorH Proteine, die basierend auf früheren Studien Zellwandkanälen in C. glutamicum, C. efficiens und Corynebacterium callunae zugeordnet werden, um ungeklärten Fragen nachzugehen und um Wissen über deren Struktur zu erlangen. Ferner inspizierten wir Zellwände pathogener Corynebakterien, genauer gesagt von Corynebacterium diphtheriae und Corynebacterium jeikeium, um herauszufinden, ob diese Spezies wie ihre harmlosen Verwandten Kanalproteine besitzen. In dieser Arbeit wiesen wir mit C. diphtheriae und C. jeikeium in zwei weiteren Corynebacterium-Arten offene, mit Wasser gefüllte Zellwandkanäle nach. Des Weiteren stellten wir fest, dass sich die Zellwandkanäle von C. glutamicum, C. efficiens und C. diphtheriae aus zwei Proteinen zusammensetzen, einem zugehörig zu der Gruppe der PorH Proteine und einem weiteren aus der Gruppe der PorA Proteine. Diese heteromere Struktur von Zellwandkanälen bei Corynebakterien stellt ein Novum für Zellwandkanäle bei den Mycolata dar. Indessen besteht der Zellwandkanal von C. jeikeium aus nur einem Protein, CjPorA, angeordnet zu einem Oligomer. Obgleich das Molekulargewicht dieses Proteins (4 kDa) mit dem von PorH und PorA Proteinen vergleichbar ist (5-7 kDa), weißt seine Primärsequenz keine eindeutige Homologie zu diesen auf. Dennoch deutet vieles auf eine Verwandtschaft zwischen CjPorA und PorH/PorA Proteinen hin, da das Gen jk0268, welches für CjPorA kodiert, sich in einer Region des C. jeikeium Chromosoms befindet, die der Genomregion entspricht in welcher die porH/porA Gene der anderen Corynebakterien lokalisiert sind. Dies lässt vermuten, dass jk0268 (welches für den homomeren Zellwandkanal in C. jeikeium kodiert) und die porH/porA Gene von C. glutamicum, C. efficiens und C. diphtheriae (die einen heteromeren Zellwandkanal kodieren) wahrscheinlich Nachkommen eines gemeinsamen Vorläufergens sind. Phylogenetische Analysen der Gattung Corynebacterium unterstützen diese Annahme. Desweitern legen sie nahe, dass die hier untersuchten Zellwandkanäle innerhalb dieser Gattung wahrscheinlich weit verbreitet sind. Ein umfassendes Wissen über Zellwandkanäle, denen beim Transport gelöster Stoffe über die äußere Membran in Corynebakterien und anderen Mitgliedern der Mycolata eine entscheidende Rolle zukommt, könnte von großem wirtschaftlichem und medizinischem Nutzen sein. / The genus Corynebacterium belongs, together with Mycobacterium, Nocardia, Rhodococcus and further closely related genera, to the distinctive suprageneric taxon mycolata. Many species within this diverse group of mycolic acid containing actinomycetes are known either because of their medical or biotechnological relevance. For instance, Mycobacterium tuberculosis, Mycobacterium leprae, Corynebacterium diphtheriae and Nocardia farcinica, causer of most dangerous bacterial infectious diseases world-wide, are among this exceptional group of Gram-positive bacteria. Likewise of importance are some harmless mycolata species which find use in industrial settings. Corynebacterium glutamicum and Corynebacterium efficiens are, e.g., potent producers of the flavour enhancer glutamate and the animal feed additive lysine, while several Rhodococcus species are applied in the production of acrylic acids. The cell wall of mycolata species, compared with that of Gram-positive bacteria, exhibits an unusual composition and organization. Besides an arabinogalactan-peptidoglycan complex, the cell walls of most actinomycetes contain large amounts of mycolic acids. Comparable to the outer membrane of Gram-negative bacteria, these long-chained branched fatty acids form a highly impermeable hydrophobic outer layer which provides the basis of the exceptional drug resistance of mycolata species. Like the outer membrane of Gram-negative bacteria, the cell wall of mycolata contains channel-forming proteins that allow the passage of hydrophilic solutes. By permitting and controlling the exchange and communication between the interior of the cell and the environment in which the bacterium lives, the channels play an important role for the function of the bacterial cell envelope. This thesis aimed to extend our knowledge about cell wall channels in corynebacteria. For this purpose, we examined PorA and PorH proteins that have been associated by previous studies with cell wall pores in C. glutamicum, C. efficiens and Corynebacterium callunae in order to resolve unanswered questions and to gain structural knowledge. We also investigated cell walls of pathogenic corynebacteria, in particular of Corynebacterium diphtheriae and Corynebacterium jeikeium, to investigate if these species possessed channels as is the case with their harmless relatives. In this work we provided evidence for the existence of large and water-filled cell wall channels in C. diphtheriae and C. jeikeium. Moreover, we demonstrated that the major cell wall channels of C. glutamicum, C. efficiens and C. diphtheriae consist of two distinctive polypeptides; one of whom belongs to the class of PorH proteins and the other to the class of PorA proteins. This heteromeric structure of channels of corynebacteria represents a novelty for channels of the mycolata. In contrast, the C. jeikeium channel is solely constituted by a single protein, CjPorA, arranged as an oligomer. Although the molecular mass of this protein (4kDa) is comparable to those of PorH and PorA proteins (5-7 kDa), it shares no distinctive homology in its primary sequence with them. However, there is evidence for relationship between CjPorA and PorH/PorA proteins because the gene jk0268, coding for CjPorA, is localized in a chromosomal region of C. jeikeium that corresponds to the genomic region containing the porH/porA genes in the other corynebacteria. This suggests that jk0268 (coding for the homomeric cell wall channel in C. jeikeium) and the porH/porA genes of C. glutamicum, C. efficiens and C. diphtheriae (coding for heteromeric cell wall channels) are presumably descendants of a common ancestor gene. This assumption gets support from data on phylogenetic analysis of the genus Corynebacterium. Moreover, these data suggest that the here investigated cell wall channels are presumably widespread within this genus. A profound knowledge of cell wall channels, building the main passage of solutes through the outer mycolate membrane in corynebacteria and other members of the mycolata, can be of great economical and medical value. Zellwand Corynebacterium Corynebacterium callunae Corynebacterium diphtheriae Corynebacterium efficiens Corynebacterium glutamicum Porin ddc:570
25	Caracterização de carbapenemases e proteínas de membrana externa de Acinetobacter spp. resistentes aos carbapenêmicos isolados de sangue / Characterization of carbapenemase and outer membrane proteins of carbapenem-resistant Acinetobacter spp. isolates from blood Mostachio, Anna Karina Queiroz 05 November 2010 (has links) Acinetobacter spp é um dos mais freqüentes agentes de infecções nosocomiais nos hospitais brasileiros. Vários surtos hospitalares causados por Acinetobacter resistente aos carbapenêmicos já foram descritos no Brasil. O presente estudo verificou a presença de alteração de proteínas da membrana externa e produção de carbapenemases em cepas de Acinetobacter spp. resistentes aos carbapenêmicos isoladas de corrente sanguínea de pacientes internados no HC-FMUSP. Os isolados foram identificados pelo método miniaturizado API20NE. As concentrações inibitórias mínimas dos carbapenêmicos foram realizadas através da técnica de microdiluição em caldo. As carbapenemases foram estudas através de testes fenotípicos, detecção dos genes foi realizada pela reação de amplificação em cadeia da polimerase (PCR), sequenciamento e hidrólise de imipenem. As proteínas de membrana externa foram caracterizadas através da técnica de SDS-Page e PCR. A tipagem molecular foi realizada usando a técnica de eletroforese em campo pulsado. Noventa e oito por cento dos isolados apresentaram genes codificadores da enzima Oxa-51-like, sendo que a única amostra que não apresentou essa enzima, após seqüenciamento do gene codificador da porção 16S do RNA ribossomal, foi considerada da espécie A. calcoaceticus. A presença do gene blaoxa-51-like não foi encontrada adjacente a seqüência ISAba1. Em dezoito por cento do total das amostras foi detectada pela reação de PCR o gene blaoxa-51-like/oxa-23- like, sendo que sete desses isolados pertenciam ao mesmo clone. Somente em um isolado não foi detectada a presença do grupamento ISAba-1 adjacente ao gene codificador da enzima Oxa-23. Dessas amostras apenas uma hidrolisou o antimicrobiano imipenem. Cinco isolados apresentaram o gene blaimp (IMP-1 pelo seqüenciamento). Apenas dois desses isolados se mostraram capazes de hidrolisar imipenem e através da inibição com o EDTA confirmou-se a presença da produção de enzimas Metalo-- lactamase. Vários testes fenotípicos foram utilizados para a detecção de carbapenemase como DDST, CD e Etest. Quando comparados com a PCR (metodologia padrão-ouro), os melhores resultados foram observados com a aproximação de disco de imipenem (10g) com um disco contendo 3L do ácido -mercaptoetanol não diluído (sensibilidade de 100% e especificidade de 71%). Observou-se que na maioria dos isolados, as proteínas de membrana externa analisadas estavam diminuídas ou ausentes. Três isolados apresentaram ausência dessas proteínas, suas CIM variaram de 32 a 128g/mL e de 64 a 256g/mL para o imipenem e meropenem respectivamente. O presente estudo verificou que a resistência aos carbapenêmicos está relacionada à presença de carbapenemases e alterações de membrana externa. Além disso, a importância das carbapenemases como principal mecanismo de resistência em isolados de Acinetobacter deve ser melhor investigada, já que esses genes podem não estar sendo expressos / Acinetobacter spp is an important etiologic agent causing nasocomial infection in Brazilian hospitals. Carbapenem resistance among this agent has been increasing in the last decade, and several outbreaks due to resistant Acinetobacter had been identified in Brazil. This study verified the presence of altered outer membrane proteins and production of carbapenemase in carbapenem-resistant Acinetobacter spp. strains isolated from bloodstream infections of patients hospitalized in the HC-FMUSP. This study verified the presence of altered outer membrane proteins and production of carbapenemase in Acinetobacter spp. carbapenem-resistant strains isolated from bloodstream of patients hospitalized in the HC-FMUSP. The isolates were identified by miniatured method API20NE and the miminal inhibitory concentration of carbepenem was performed by broth microdilution. Carbapenemases were studied by phenotypic screnning tests, detection of its genes coder by amplification polymerase chain reaction (PCR), sequence and imipenem hydrolise. The proteins of external membrane were studied by SDS-PAGE and PCR. Molecular typing was performed using the technique of pulsed field gel electrophoresis. About 98% of these isolates were positives for genes encoding the enzyme Oxa-51-like, only one strain did not exhibit this enzyme. After sequencing of the gene encoding portion 16S ribosomal RNA this strain was considered the species A. calcoaceticus. The presence of the sequence adjacent ISAba1 was not found in none of these isolates with the gene blaOXA-51-like. Eighteen percent of the total of strains demonstrated by PCR the gene blaoxa-51-like/oxa-23-like. Seven of these strains belonged to the same clone. Only one isolate did not show the presence of ISAba1 adjacent to the gene encoding Oxa-23. Only one of this strain hydrolyzed imipenem. Five isolates had the gene blaimp, (IMP-1 by sequencing). Two of these isolates had proved capable of hydrolyzing the antibiotic imipenem and the inhibition with EDTA confirmed the presence of MBL-producing enzymes. Several phenotypic tests were used to screnning of carbapenemase as DDST, CD and Etest. When compared with PCR, the gold standard, the best results were seen with the next disk of imipenem (10 mg) with another disk containing 3L acid -mercaptoethanol pure (100% sensitivity and specificity 71%). In most isolates the outer membrane proteins were decreased or absent. Three isolate showed total absence of these proteins, their MIC ranged from 32 to 64 to 128g/mL and 256g/mL to imipenem and meropenem respectively. This study has shown that carbapenem resistance was linked to the presence of carbapemenases and alteration of the outer membrane. Moreover, the significance of carbapenemase as the main mechanism of resistance in isolates of Acinetobacter should be better investigated, since these genes might not be cast Acinetobacter Acinetobacter Carbapenêmicos Carbapenens Drug resistance microbial Porin Porinas Resistência microbiana a medicamentos
26	Porins of Borrelia burgdorferi Pinne, Marija January 2006 (has links) Borrelia burgdorferi is a pathogenic spirochete which cycles between its arthropod vector and vertebrate host. If transmitted to humans, B. burgdorferi causes Lyme disease, an infection which can impair different organs, such as the skin, joints, nervous system and heart. Alterations in protein expression due to the different environments Borrelia encounters during its complicated life cycle require advanced adaptation mechanisms. The outer surface-exposed proteins play a critical role in survival and pathogenesis of Borrelia in different hosts and tissues, being involved in avoiding the host immune response, adhesion to different tissues and nutrient acquisition. This thesis aimed to characterize integral outer membrane proteins which play a role in solute and nutrient uptake, and provides support for their role in the environmental adaptation of Borrelia. In this thesis, three B. burgdorferi proteins, P13, BBA01 and P66, were shown to be porins, and characterized structurally and functionally using a combination of biochemical, biophysical and genetic methods. The channel-forming function of the 13 kDa protein, P13, was elucidated by a lipid bilayer assay. Post-translational processing of P13 occurred at the C-terminus by C-terminal processing protease (CtpA)-dependent cleavage. The membrane-spanning architecture of P13 was determined by epitope mapping and computer-based structural predictions which revealed that P13 is an unusual porin, not possessing the structural properties of conventional porins: rather than forming β-barrels, it is predicted to span the membrane with hydrophobic α-helices. p13 belongs to a paralogous gene family. The transcription of p13 and other gene family members during in vitro growth and in a mouse infection model was therefore investigated. The paralog BBA01, which has the highest sequence homology to P13, is expressed during in vitro growth in all three Lyme disease causing species, although at very low levels. Like P13, BBA01 is also processed by CtpA and exhibits very similar channel-forming activity. Furthermore, in the absence of P13, a proportion of total BBA01 protein is relocated to the bacterial surface with strong indications that BBA01 and P13 are functionally interchangeable. P66, an integrin binding protein, was also determined to be a porin. The oligomeric state of native P66, elucidated by chemical cross-linking, indicated that P66 forms trimers, as do the majority of conventional porins. Electron crystallography and a projection map of P66 crystals at 2.2 nm resolution revealed tetragonal unit cell symmetry with the area intercalated between the assembled protein structures consistent with the approximate expected size of the channel formed by P66. Finally, the biological relevance of two porins, P13 and P66, was demonstrated in a double mutant displaying a stress response as revealed by increased sensitivity to high osmolarity and elevated expression of the B. burgdorferi heat-shock protein HtrA homolog. Lyme disease P13 paralog P66 channel-forming activity porin Medical microbiology Medicinsk mikrobiologi
27	The spectroscopic characterization of mitochondrial porin in membrane mimetic systems Bay, Denice Colleen 08 January 2007 (has links) Voltage-dependent anion-selective channels (VDAC), or mitochondrial porins,regulate the flow of metabolites across the mitochondrial outer membrane. They presumably span the membrane as β-barrels, but the residues forming the individual β-strands are unknown. This information is essential for understanding the structure and function of the protein. Using Neurospora VDAC as a template, published data were reassessed to delineate a unified model for porin structure Bay and Court 2002, which was subsequently refined in collaboration with Greg Runke Runke et al. 2006. The focus of this work was the development and analysis of systems for maintaining high levels of folded porin for the acquisition of high resolution data needed for model testing. The conformation of hexahistidinyl-tagged Neurospora porin in detergent was probed by fluorescence, near-UV circular dichroism and ultraviolet absorption spectroscopy. Derivatives of tryptophan and tyrosine were also examined by fluorescence spectroscopy and UV absorbance spectroscopy to model the interactions between the detergents and the amino acid side chains in the protein. Detergent-specific levels of β-strand and tyrosine exposure were observed. In all cases, the two tryptophan residues reside in weakly asymmetric, hydrophobic environments, suggesting transient tertiary interactions. Porin solubilized in these detergents forms functional channels in liposomes and membrane insertion is accompanied by increased levels of β-strand and loss of protease sensitivity. These data were used to develop mixed detergent folding systems. A mixture of SDS and dodecyl-β-D-maltopyranoside (DDM)supports a β-strand rich conformation at high protein concentrations. The tertiary contacts and protease resistance of the SDS/DDM solubilized porin are very similar to those of the protein following reconstitution into liposomes. Finally, the role of sterols in porin folding was examined, as the addition of sterols to detergent-solubilized VDAC is required for channel formation in artificial membranes. Sterols do not alter the secondary structure of VDAC, and subtle alterations to tertiary interactions were detected, suggesting that sterols do not promote an insertion-competent structure, but rather facilitate insertion into artificial bilayers. In summary, this analysis of the folded states of detergent-solubilized porin has revealed a system that maintains high concentrations of mitochondrial porin in a state that is very promising for structural studies. / February 2007 VDAC Porin circular dicroism fluorescence liposomes detergent UV absorption amino acid derivatives
28	The spectroscopic characterization of mitochondrial porin in membrane mimetic systems Bay, Denice Colleen 08 January 2007 (has links) Voltage-dependent anion-selective channels (VDAC), or mitochondrial porins,regulate the flow of metabolites across the mitochondrial outer membrane. They presumably span the membrane as β-barrels, but the residues forming the individual β-strands are unknown. This information is essential for understanding the structure and function of the protein. Using Neurospora VDAC as a template, published data were reassessed to delineate a unified model for porin structure Bay and Court 2002, which was subsequently refined in collaboration with Greg Runke Runke et al. 2006. The focus of this work was the development and analysis of systems for maintaining high levels of folded porin for the acquisition of high resolution data needed for model testing. The conformation of hexahistidinyl-tagged Neurospora porin in detergent was probed by fluorescence, near-UV circular dichroism and ultraviolet absorption spectroscopy. Derivatives of tryptophan and tyrosine were also examined by fluorescence spectroscopy and UV absorbance spectroscopy to model the interactions between the detergents and the amino acid side chains in the protein. Detergent-specific levels of β-strand and tyrosine exposure were observed. In all cases, the two tryptophan residues reside in weakly asymmetric, hydrophobic environments, suggesting transient tertiary interactions. Porin solubilized in these detergents forms functional channels in liposomes and membrane insertion is accompanied by increased levels of β-strand and loss of protease sensitivity. These data were used to develop mixed detergent folding systems. A mixture of SDS and dodecyl-β-D-maltopyranoside (DDM)supports a β-strand rich conformation at high protein concentrations. The tertiary contacts and protease resistance of the SDS/DDM solubilized porin are very similar to those of the protein following reconstitution into liposomes. Finally, the role of sterols in porin folding was examined, as the addition of sterols to detergent-solubilized VDAC is required for channel formation in artificial membranes. Sterols do not alter the secondary structure of VDAC, and subtle alterations to tertiary interactions were detected, suggesting that sterols do not promote an insertion-competent structure, but rather facilitate insertion into artificial bilayers. In summary, this analysis of the folded states of detergent-solubilized porin has revealed a system that maintains high concentrations of mitochondrial porin in a state that is very promising for structural studies. VDAC Porin circular dichroism fluorescence liposomes detergent UV absorption amino acid derivatives
29	The spectroscopic characterization of mitochondrial porin in membrane mimetic systems Bay, Denice Colleen 08 January 2007 (has links) Voltage-dependent anion-selective channels (VDAC), or mitochondrial porins,regulate the flow of metabolites across the mitochondrial outer membrane. They presumably span the membrane as β-barrels, but the residues forming the individual β-strands are unknown. This information is essential for understanding the structure and function of the protein. Using Neurospora VDAC as a template, published data were reassessed to delineate a unified model for porin structure Bay and Court 2002, which was subsequently refined in collaboration with Greg Runke Runke et al. 2006. The focus of this work was the development and analysis of systems for maintaining high levels of folded porin for the acquisition of high resolution data needed for model testing. The conformation of hexahistidinyl-tagged Neurospora porin in detergent was probed by fluorescence, near-UV circular dichroism and ultraviolet absorption spectroscopy. Derivatives of tryptophan and tyrosine were also examined by fluorescence spectroscopy and UV absorbance spectroscopy to model the interactions between the detergents and the amino acid side chains in the protein. Detergent-specific levels of β-strand and tyrosine exposure were observed. In all cases, the two tryptophan residues reside in weakly asymmetric, hydrophobic environments, suggesting transient tertiary interactions. Porin solubilized in these detergents forms functional channels in liposomes and membrane insertion is accompanied by increased levels of β-strand and loss of protease sensitivity. These data were used to develop mixed detergent folding systems. A mixture of SDS and dodecyl-β-D-maltopyranoside (DDM)supports a β-strand rich conformation at high protein concentrations. The tertiary contacts and protease resistance of the SDS/DDM solubilized porin are very similar to those of the protein following reconstitution into liposomes. Finally, the role of sterols in porin folding was examined, as the addition of sterols to detergent-solubilized VDAC is required for channel formation in artificial membranes. Sterols do not alter the secondary structure of VDAC, and subtle alterations to tertiary interactions were detected, suggesting that sterols do not promote an insertion-competent structure, but rather facilitate insertion into artificial bilayers. In summary, this analysis of the folded states of detergent-solubilized porin has revealed a system that maintains high concentrations of mitochondrial porin in a state that is very promising for structural studies. VDAC Porin circular dicroism fluorescence liposomes detergent UV absorption amino acid derivatives
30	Immunologische und molekularbiologische Untersuchungen des outer membrane protein A von Proteus mirabilis Hotz, Mark. Unknown Date (has links) Techn. Universiẗat, Diss., 2005--Darmstadt.

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