Global ETD Search

81	Development of chromogenic cross-linkers and selective gas-phase dissociation methods to assess protein macromolecular structures by mass spectrometry Gardner, Myles Winston 05 August 2010 (has links) Selective gas-phase dissociation strategies have been developed for the characterization of cross-linked peptides and proteins in quadrupole ion trap mass spectrometers. An infrared chromogenic cross-linker (IRCX) containing a phosphotriester afforded rapid differentiation of cross-linked peptides from unmodified ones in proteolytic digests of cross-linked proteins by selective infrared multiphoton dissociation (IRMPD). Only the cross-linked peptides containing the chromogenic phosphate underwent IRMPD and unmodified peptides were not affected by IR irradiation. IRMPD of IRCX-cross-linked peptides yielded uncross-linked y-ion sequence tags of the constituent peptides due to secondary dissociation of all primary product ions which contained the chromophore, thus allowing successful de novo sequencing of the cross-linked peptides. Peptides cross-linked via a two-step conjugation strategy through the formation of a bis-arylhydrazone (BAH) bond were selectively dissociated by ultraviolet radiation at 355 nm. The BAH-cross-linked peptides could be distinguished from not only unmodified peptides but also dead-end modified peptides based on the selectivity of ultraviolet photodissociation. In a complementary approach, electron transfer dissociation of BAH-cross-linked peptides resulted in preferential cleavage of the hydrazone bond which produced two modified peptides. These modified peptides were subsequently interrogated by CID which allowed for the original site of cross-linking to be pinpointed. IRMPD was implemented in a dual pressure linear ion trap to demonstrate successful photodissociation of peptides having modest absorptivities. Peptides were observed to efficiently dissociation by IR irradiation exclusively in the low pressure cell whereas no dissociation was observed in the high pressure cell due to extensive collisional cooling. IRMPD provided greater sequence coverage of the peptides than CID and yielded product ion mass spectra which were predominantly composed of singly charged product ions which simplified spectral interpretation. IRMPD was further applied for the sequencing of small-interfering RNA. Complete sequence coverage was obtained and the results were compared to CID. / text Mass spectrometry Infrared multiphoton dissociation Cross-linking Quadrupole ion trap Photodissociation Protein cross-linking Electron transfer dissociation Ultraviolet photodissociation Small-interfering RNA
82	Nanocarreadores proteicos e fotoativos no tratamento de doenças neurológicas / Protein nanocarriers and photoactives in the treatment of neurological diseases Lopes, Tácila Gabriele 09 March 2018 (has links) O desenvolvimento de nanocarreadores a base de albumina são considerados biocompatíveis e biodegradáveis, e tem sido extensivamente estudada com objetivo de novas alternativas de tratamento para inúmeras doenças. A característica mais relevante reside no fato de que estes sistemas proteicos serem capazes de atravessar a barreira Hematoencefálica (BHE) e atingir as células-alvo, a partir de sinalizações por canais específicos na barreira cerebral. Por serem proteínas com ligações covalentes, pode-se afirmar que o processo de clivagem proteolítica tende a ser realizado pelas enzimas pertencente à família das proteases. Dada à importância desses sistemas de entrega de fármacos (DDS) e sua eficaz permeação através da BHE, propôs-se um desenvolvimento científico multidisciplinar combinando-se protocolos, técnicas e ensaios experimentais das áreas de tecnologia farmacêutica, nanotecnologia e química para realização da incorporação do fotoativo ou outros compostos, como a ftalocianina de cloro alumínio (AlClPc ou Pc) livre e/ou pré encapsuladas e as nanopartículas magnéticas, nestes sistemas de DDS conhecidos como nanopartícula de albumina (NpA). Dentre as técnicas usadas nestes estudos destaca-se tanto o método de cross-linking térmico (via Térmica) quanto o químico (via Química), sendo que no segundo, foram utilizados 2 reagentes distintos, o glutaraldeído e o gliceraldeído, os quais foram analisados e comparados neste projeto de pesquisa. Análises de Microscopia Eletrônica de Varredura (MEV), Microscopia de Força Atômica (MFA), medidas de estabilidade por ZetaSizer demonstraram claramente que as nanopartículas preparadas pelos diferentes reagentes possuíam formato esféricos, diâmetro médio em torno de 200 nm e eram homogêneas, entretanto, apenas os nanocarreadores preparados com GU apresentaram elevada repulsão eletrostática (prevenindo a agregação das mesmas). Após caracterização, os estudos foram baseados na utilização da AlClPc como fotoativo aplicado a terapia fotodinâmica (TFD) para o tratamento in vitro das doenças que acometem o sistema nervoso central (SNC). / The development of albumin-based nanocarriers, which are nontoxic and biocompatible and biodegradable, have been extensively studied for seeking new alternatives of the treatment for numerous diseases. The most relevant characteristic is that these protein-based systems could across the blood-brain barrier (BBB) and selectively achieve the target cells within of the brain. These nanocarriers are proteins-based and have covalent bonds, and consequently it can be digested by a class of enzymes belonging to the protease family, which rapidly degrade the protein-based nanoparticles through of the proteolytic cleavage process. Given the importance of these drug delivery systems (DDS) and their effective permeation through BBB, it was proposed a multidisciplinary scientific development combining protocols, techniques and experimental tests of the areas of pharmaceutical technology, nanotechnology and chemistry to carry out the incorporation of the photoactive or another compound, as aluminum chlorine phthalocyanine (AlClPc or Pc), free and/or pre-encapsulated or magnetic nanoparticles in these albumin-based DDS systems known as albumin nanoparticles (NpA). Among the techniques used in these studies we highlight by thermal cross-linking method (via Thermal) and chemistry (via Chemistry), in this second, it was used 2 reagents, glutaraldehyde and glyceraldehyde, that were analyzed and compared in this research project. From Scanning Electron Microscopy, Atomic Force Microcopy, Zeta potential measurements, we have clearly shown that the elaborated nanoparticles (NPs) have a smaller size with a spherical shape and are more homogeneous, however only the nanoparticles prepared with glutaraldehyde showed greater electronic repulsion (preventing their aggregation). After the characterization, the studies were based on the use of AlClPc as a photoactive applied in the photodynamic therapy (PDT) for the treatment of central nervous system (CNS) diseases.
83	The Point-Split Method and the Linking Number of Space Curves Forsberg, Timmy January 2014 (has links) This is a report on research done in the field of mathematical physics. It is an investigation of the concept of the linking number between two simple and closed spatial curves. The linking number is a topological invariant with scientific applications ranging from DNA biology to Topological Quantum Field Theory. Our aim is to study C ̆alug ̆areanu’s theorem, also called White’s formula, which relates the linking number to the concepts of twist and writhe. We are interested in the limit of the two curves as they approach each other. To regulate this, we introduce a regularization method that utilizes a point-split. Further we explore if the result is dependent on how the regularization is introduced. Therefor we inflict an asymmetry in the regularization, with a parameter a in the point-split intervals, to check whether the result becomes dependent on a or not. We find that the result is independent of the parameter a. Links The Linking Number Gauss Linking number Point-split method point-splitting White's formula C ̆alug ̆areanu Calugareanu's relation Twist Writhe twisting Writhing
84	Sistemas de Equações de Poisson Acopladas com Crescimento Crítico em domínios não - limitados: uma aplicação do Teorema de Kryszewki e Szulkin / Systems of Poisson Equations Coupled with critical growth in non - limited domains: an application of Kryszewki 's and Szulkin' s Theorem. NÓBREGA, Alânnio Barbosa. 19 July 2018 (has links) Submitted by Johnny Rodrigues (johnnyrodrigues@ufcg.edu.br) on 2018-07-19T13:42:19Z No. of bitstreams: 1 ALÂNNIO BARBOSA NÓBREGA - DISSERTAÇÃO PPGMAT 2008..pdf: 544710 bytes, checksum: 3a29bbca0618e68075cdfc926fdc6a64 (MD5) / Made available in DSpace on 2018-07-19T13:42:19Z (GMT). No. of bitstreams: 1 ALÂNNIO BARBOSA NÓBREGA - DISSERTAÇÃO PPGMAT 2008..pdf: 544710 bytes, checksum: 3a29bbca0618e68075cdfc926fdc6a64 (MD5) Previous issue date: 2008-01 / Neste trabalho, estudamos um devido a Kryszewi e Szulkin, o qual completa o bem conhecido resultado devido a Rabinowitz, no sentido que, é possivel considerar uma decomposição do tipoX=Y⊕Z comY eZ tendo dimensão inﬁnita. Usando o Teorema do Linking Generalizado acima, iremos provar a existência de solução nãotrivial para dois sistemas de equações de Poisson acopladas com crescimento crítico em domínios não-limitados. / In this work, we study a Generalized LinkingT heorem due Kryszewi and Szulkin, which complets a well know result due Rabinowitz, in the sense that, it is possible to consider a decomposition of the typeX=Y⊕Z, withY andZ have inﬁnite dimensional. Using the above Generalized Linking Theorem, we prove the existence of nontrivial solutions to two systems of coupled Poisson equations with critical growth in unbounded domains. Matemática. Equações de Poisson acopladas Sistemas de equações de Poisson Domínios não limitados - matemática Teorema de Kryszewki e Szulkin Teorema do Linking generalizado Generalized Linking Theorem Coupled Poisson Equations
85	Investigation of prokaryotic immune defense system with quantitative and structural mass spectrometry Sharma, Kundan 29 April 2015 (has links) No description available. 570 Prokaryotic Immune Defense CRISPR-Cas Mass Spectrometry Structural proteomics Protein-RNA cross-linking Protein-Protein cross-linking Quantitative proteomics iBAQ Dimethyl labeling Biologie (PPN619462639)
86	Ein neuer therapeutischer Ansatz zur vorbeugenden Behandlung der pathologischen Myopie - Einfluss des skleralen Riboflavin/Blaulicht Cross-Linkings auf das Augenwachstum junger Kaninchen Körber, Nicole 03 March 2017 (has links) Die Arbeit umreißt das Krankheitsbild der Myopie (Kurzsichtigkeit) und deren unterschiedliche Ausprägungen, im Speziellen der progressiven und pathologischen Myopie. Hierbei wird ein Einblick in die Symptomatik, die anatomischen Ursachen und die heutigen medizinischen Interventionen gegeben. Hierdurch wird die Problematik einer zu „weichen“ Sklera (Lederhaut des Auges) und des damit einhergehenden fortschreitenden Augenwachstums deutlich. Im Zentrum der Arbeit steht ein neuer therapeutischer Ansatz zur vorbeugenden Behandlung der pathologischen Myopie; das Riboflavin/Blaulicht Cross-Linking der Sklera des Kaninchenauges. Dessen Wirkungsweise ermöglicht die biomechanische Versteifung von kollagenem Gewebe. Aus diesem Sachverhalt ergibt sich die Fragestellung der Arbeit: Ist das sklerale Riboflavin/Blaulicht Cross Linking geeignet das Augenwachstum im Tiermodell (junge Kaninchen) verträglich zu hemmen? Operationsbeeinflussende Parameter wie die Riboflavin-Durchdringungsdauer der Sklera und die sklerale Lichtdurchlässigkeit werden untersucht und für die Optimierung der Operationsmethode herangezogen und diskutiert. Zur Einschätzung des Versuchsansatzes werden die im Methodikteil dargelegten Anwendungen an adulten und jungen Kaninchen/Kaninchenaugen durchgeführt. In Tierversuchen wird die Schadensschwelle in Abhängigkeit der Blaulichtintensität, des Alters und der Pigmentierung untersucht, wobei histologische, immunhistochemische und elektronenmikroskopische Verfahren angewendet werden. Der inhibitorische Einfluss des Riboflavin/Blaulicht Cross-Linkings auf das Augenwachstum kann im Jungtiermodell durch verschiedene metrische Verfahren und MRT-Untersuchungen belegt werden. info:eu-repo/classification/ddc/570 ddc:570
87	Practicalities of Hellenistic Ruler Cult (PHRC): Towards a Semantic Markup of Ritual Action and its Social Underpinnings Caneva, Stefano 19 March 2018 (has links) No description available. Epigraphy, Religion, Vocabulary, Linking info:eu-repo/classification/ddc/930 ddc:930 info:eu-repo/classification/ddc/000 ddc:000
88	Optimizing the LLVM ELF linker for a distributed compilation environment : Concurrent Linking with LLVM LLD / Optimering av LLVMs ELF-länkare vid användning av distribuerad kompilering Wilkens, Alexander January 2020 (has links) Modern build systems that build large software projects often utilize a distributed compiler, allowing the compilation of object files to be parallelized over multiple machines. These build systems are often not able to fully utilize all the resources available on all machines. As linking is not part of this distributed process, the unused resources could be used to perform linking instead, reducing the total build time. However, linking is often performed at the end of the build process, thus not being able to access the previously unused resources. In this thesis project, a linker that runs concurrently with the compilation process of the build system is designed, implemented, and evaluated . As the compilation process produces an object file, the linker performs a partial link using this file. The link is finalized at the end of the build, not unlike a traditional linker. The results show that the total build time is reduced when using the new linker in a build system utilizing a distributed compiler. In some cases, the time spent linking at the end of the build system is reduced over 50 percent when compared to the reference linker. linking c++ build system compiling distributed compilation concurrent linker concurrent linking llvm lld elf executable and linkable format Computer Sciences Datavetenskap (datalogi)
89	Characterisation of proton exchange membranes in an H₂SO₄ environment / Retha Peach Peach, Retha January 2014 (has links) In light of the world‟s growing demand for energy that is environmentally friendly and sustainable, energy sources such as hydrogen have been considered potential contenders. Hydrogen, which can be used for energy storage, can be produced efficiently by the membrane based Hybrid Sulfur (HyS) thermo-chemical process consisting of a decomposition and an electrolysis step. During the HyS electrolysis step, SO2 and H2O are converted to H2 and H2SO4, which implies that the proton exchange membranes (PEMs) to be used for this process should have a high proton conductivity, limited SO2 cross-over and good H2SO4 stability. In order to find alternatives to the costly and high-temperature unstable Nafion®, the aim of this study was to evaluate the H2SO4 stability of various novel membranes. To structure the study, the novel PEM materials were grouped according to the PBI-type base component within the blend membranes, resulting in three groups comprising non-PBI based membranes, PBIOO based membranes and F6-PBI based membranes. Nafion®212 was included as reference PEM. By repeating the H2SO4 treatment with three different Nafion®212 samples, the obtained Nafion® data was also used to determine the experimental and analytical error margins for the study. The stability of all membranes was determined by submerging the membrane samples in 80 wt% H2SO4 at 80 °C for 120 hours. To determine the influence of the acid on the membranes, all samples were characterised before and after the H2SO4 treatment and compared in terms of their acid stability. Physical characterisation of the PEMs included the evaluation of weight and thickness changes, while IEC, SEM-EDX, FTIR and TGA were used to elucidate possible chemical changes due to the H2SO4 treatment. According to the Nafion®212 data, which had been obtained in triplicate for each of the analytical techniques, the experimental error of both the analytical and H2SO4 treatment remained below 10 %, except for the SEM-EDX sulfur-content where significantly larger errors were observed. In spite of the high error margins of the SEM-EDX data (S-content), its results, combined with the results from the other analytical techniques, resulted in a better understanding (both physical and chemical) of the effect the H2SO4 had on the membrane. This further facilitated the evaluation and comparison of the various blended PEM materials in terms of their H2SO4 stability, and the subsequent relation obtained between the observed stability and the chemical constitution and cross-linking of the membranes. After the 80 wt% H2SO4 treatment, significant weight losses were reported for the non-PBI based and PBIOO based membrane groups in comparison with the minimal changes noted for the F6-PBI based group and Nafion®212. Furthermore, significant thickness changes were reported for most of the PBIOO based membranes. The small weight and thickness changes observed for the F6-PBI confirmed the improved stability of this group of membranes in an H2SO4 environment, most likely due to the protective role of the partially fluorinated basic polymer and the known strength of the C-F bonds present. The results showed a clear correlation between the H2SO4 stability and the specific polymers present in the PEM blends investigated. Specific effects found included sulfonation, salt formation, hydrolysis and the accompanied dissolution of membrane fragments. Significant physical changes, for example ascribed to sulfonation of the concerned polymers, were supported by increased IEC measurements and peak intensities of the FTIR spectra, corresponding to the additional –SO3H groups present, while a variation in TGA signals served to further support the altered membrane composition and structure due to the H2SO4 treatment. In the case of dissolution, the corresponding chemical changes (analytical techniques) were supported by the decreased peak intensities of FTIR spectra, IEC measurements and TGA signals associated with degradation of the polymer backbone. It was shown that the stability of the blended membranes depended on the composition (blend components) of the membrane and the effective cross-linking (interaction) between the blend components. For all three groups examined, it became apparent that blend components sFS and sPSU were, for example, more stable than sPEEK and that ionical cross-linking seemed more effective than covalent cross-linking of blend components. When considering all membranes tested, the non-PBI based blend membranes consisting of (s)PSU and PFS copolymers in the presence of fluorinated cross-linkers and the PBIOO-sPSU blended membranes including most of the F6-PBI based membranes showed sufficient stability to be recommended for SO2 electrolysis. / MSc (Chemistry), North-West University, Potchefstroom Campus, 2014 Proton exchange membranes H2SO4 stability Physical and chemical characterisation Nafion®212 reference Polymer evaluation (cross-linking)
90	Characterisation of proton exchange membranes in an H₂SO₄ environment / Retha Peach Peach, Retha January 2014 (has links) In light of the world‟s growing demand for energy that is environmentally friendly and sustainable, energy sources such as hydrogen have been considered potential contenders. Hydrogen, which can be used for energy storage, can be produced efficiently by the membrane based Hybrid Sulfur (HyS) thermo-chemical process consisting of a decomposition and an electrolysis step. During the HyS electrolysis step, SO2 and H2O are converted to H2 and H2SO4, which implies that the proton exchange membranes (PEMs) to be used for this process should have a high proton conductivity, limited SO2 cross-over and good H2SO4 stability. In order to find alternatives to the costly and high-temperature unstable Nafion®, the aim of this study was to evaluate the H2SO4 stability of various novel membranes. To structure the study, the novel PEM materials were grouped according to the PBI-type base component within the blend membranes, resulting in three groups comprising non-PBI based membranes, PBIOO based membranes and F6-PBI based membranes. Nafion®212 was included as reference PEM. By repeating the H2SO4 treatment with three different Nafion®212 samples, the obtained Nafion® data was also used to determine the experimental and analytical error margins for the study. The stability of all membranes was determined by submerging the membrane samples in 80 wt% H2SO4 at 80 °C for 120 hours. To determine the influence of the acid on the membranes, all samples were characterised before and after the H2SO4 treatment and compared in terms of their acid stability. Physical characterisation of the PEMs included the evaluation of weight and thickness changes, while IEC, SEM-EDX, FTIR and TGA were used to elucidate possible chemical changes due to the H2SO4 treatment. According to the Nafion®212 data, which had been obtained in triplicate for each of the analytical techniques, the experimental error of both the analytical and H2SO4 treatment remained below 10 %, except for the SEM-EDX sulfur-content where significantly larger errors were observed. In spite of the high error margins of the SEM-EDX data (S-content), its results, combined with the results from the other analytical techniques, resulted in a better understanding (both physical and chemical) of the effect the H2SO4 had on the membrane. This further facilitated the evaluation and comparison of the various blended PEM materials in terms of their H2SO4 stability, and the subsequent relation obtained between the observed stability and the chemical constitution and cross-linking of the membranes. After the 80 wt% H2SO4 treatment, significant weight losses were reported for the non-PBI based and PBIOO based membrane groups in comparison with the minimal changes noted for the F6-PBI based group and Nafion®212. Furthermore, significant thickness changes were reported for most of the PBIOO based membranes. The small weight and thickness changes observed for the F6-PBI confirmed the improved stability of this group of membranes in an H2SO4 environment, most likely due to the protective role of the partially fluorinated basic polymer and the known strength of the C-F bonds present. The results showed a clear correlation between the H2SO4 stability and the specific polymers present in the PEM blends investigated. Specific effects found included sulfonation, salt formation, hydrolysis and the accompanied dissolution of membrane fragments. Significant physical changes, for example ascribed to sulfonation of the concerned polymers, were supported by increased IEC measurements and peak intensities of the FTIR spectra, corresponding to the additional –SO3H groups present, while a variation in TGA signals served to further support the altered membrane composition and structure due to the H2SO4 treatment. In the case of dissolution, the corresponding chemical changes (analytical techniques) were supported by the decreased peak intensities of FTIR spectra, IEC measurements and TGA signals associated with degradation of the polymer backbone. It was shown that the stability of the blended membranes depended on the composition (blend components) of the membrane and the effective cross-linking (interaction) between the blend components. For all three groups examined, it became apparent that blend components sFS and sPSU were, for example, more stable than sPEEK and that ionical cross-linking seemed more effective than covalent cross-linking of blend components. When considering all membranes tested, the non-PBI based blend membranes consisting of (s)PSU and PFS copolymers in the presence of fluorinated cross-linkers and the PBIOO-sPSU blended membranes including most of the F6-PBI based membranes showed sufficient stability to be recommended for SO2 electrolysis. / MSc (Chemistry), North-West University, Potchefstroom Campus, 2014 Proton exchange membranes H2SO4 stability Physical and chemical characterisation Nafion®212 reference Polymer evaluation (cross-linking)

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