Global ETD Search

231	Avaliação da resposta humoral à vacina pneumocócica conjugada 7-valente em grupo de crianças com infecção pelo HIV / Evaluation of the humoral response to the heptavalent pneumococcal conjugate vaccine in a group of HIV-infected children Isabel de Camargo Costa 20 September 2007 (has links) A doença pneumocócica invasiva é importante causa de morbi-mortalidade em crianças infectadas pelo HIV. A vacina pneumocócica conjugada 7-valente já teve sua segurança, eficácia e imunogenicidade comprovadas em crianças saudáveis, porém pouco se sabe sobre sua resposta humoral em crianças HIV-positivas. O trabalho avaliou quantitativamente a resposta com anticorpos aos 7 sorotipos pneumocócicos da vacina em um grupo de 40 crianças com infecção pelo HIV. A dosagem de anticorpos IgG contra os polissacárides da cápsula pneumocócica foi realizada através de ensaio imunoenzimático (ELISA). Os anticorpos foram dosados imediatamente antes e um mês após a aplicação da segunda dose da vacina. Utilizaram-se dois diferentes critérios para avaliar a resposta à vacina: títulos de anticorpos > 1.3 µg/mL na sorologia pós-imunização e aumento > 4 vezes nos títulos da sorologia pós em relação à pré-imunização. Observou-se aumento estatisticamente significante dos títulos geométricos médios (TGM) pós-vacinais em relação aos pré-vacinais para todos os sorotipos estudados. Não se observou diferença estatisticamente significante quando se comparou as crianças que haviam recebido a vacina polissacarídea 23-valente e as que não haviam recebido a vacina polissacarídea anteriormente. As crianças menores de 5 anos não apresentaram TGMs pós-imunização significativamente maiores para os sorotipos 6B e 19F. Não foi possível avaliar a interferência do CD4 na resposta sorológica à vacina conjugada pois 95% das crianças apresentavam CD4> 25% no momento da inclusão. Vinte e sete crianças (67.5%) tiveram resposta considerada satisfatória à vacina para 4 ou mais sorotipos vacinais quando se utilizou o valor 1.3 µg/mL como critério de resposta, enquanto, para o critério ascensão de títulos pós-imunização em relação aos pré-imunização de 4 vezes ou mais para pelo menos 4 sorotipos, a resposta foi inadequada (37.5%). / Pneumococcal invasive disease is a important cause of death in HIV-infected children. Heptavalent pneumococcal conjugate vaccine has been shown to be safe, effective and immunogenic in healthy children but little is known about it when it comes to HIV-infected children. We evaluated the quantitative antibody response to the 7 pneumococcal serotypes of the vaccine in a group of 40 HIV-infected children. An enzyme immunoassay (ELISA) was used to measure the IgG antibody response. Antibodies were measured immediately before and 1 month after the second dose of the vaccine. Two criteria of response were used: IgG titers > 1.3µg/mL in the post-immunization serology and an increase of at least 4-fold comparing the post-immunization with the pre-immunization serology. Statistically significant rises in the post-immunization geometric mean titers were observed for the seven serotypes studied. We did not find a statistically significant diference when we compared 2 groups: one that had been previously immunized with the polissacaride vacine and one that had never been immunized with that vaccine before. Children under 5 years of age did not show statiscally diferent median geometric titers for serotypes 6B and 19F when compared to the children > 5 years of age. We could not show CD4 count interference once 95% of the children had CD4 counts > 25%. Twenty-seven (67.5%) of the children were considered to respond satisfactorily to at least 4 of the serotypes included in the conjugate vaccine when the criteria was post-immunization titers > 1.3 µg/mL. When a increase of at least 4-fold between post-immunization and pre-immunization for at least 4 serotypes was used as criteria, our patients did not respond satisfactorily. Criança Formação de anticorpos Infecções pelo HIV Streptococcus pneumoniae Vacinas conjugadas Antibody formation Child HIV infections Streptococcus pneumoniae Vaccines conjugate
232	Polissacarídeo capsular do Streptococcus agalactiae como antígeno vacinal: desenvolvimento de um modelo vacinal para mucosas com Nanopartícula de quitosana / Capsular polysaccharide of Streptococcus agalactiae as vaccine antigen: development of a mucosal vaccine model with chitosan nanoparticle Sibylle Sophie Hacker 19 December 2018 (has links) A bactéria gram-positiva Streptococcus agalactiae do grupo B (GBS) faz parte da microbiota normal do trato geniturinário humano, sendo um organismo comensal do corpo da mulher. No entanto, em mulheres grávidas, quando há alterações na composição microbiana do canal vaginal, pode ocorrer a proliferação e a infecção pelo GBS. Este microrganismo, em sua forma patogênica oportunista, pode infectar o neonato durante o parto natural, assim como contribuir para infecções urinárias e uterinas durante a gestação. O GBS já foi identificado como um dos responsáveis pela alta taxa de mortalidade neonatal, sendo um dos principais agentes de infecção em recém-nascidos no mundo. Ele também pode ser a causa de infecções nas gestantes, levando a várias complicações, como corioamnionite, endometrite e infecções do trato urinário e do sítio cirúrgico. Pode haver comprometimento da gestação e do feto, com abortamento, morte fetal intrauterina e ruptura da membrana coriônica, levando a parto prematuro - que pode resultar em outras consequências graves. Este trabalho foi desenvolver um modelo vacinal para mucosa sublingual, utilizando o polissacarídeo capsular do Streptococcus agalactiae como antígeno, encapsulado em Nanopartículas de quitosana. Para o estudo de otimização dos parâmetros de fermentação, para aumentar a produtividade de cápsula polissacarídica (PS) presente na superfície celular, utilizou-se o Banco de Dados Kegg (Kyoto Encyclopedia of Genes and Genomes). A adição do suplemento L-Prolina foi o que propiciou a principio, maior relação entre crescimento bacteriano e formação de cápsula polissacarídica. A purificação e extração da cápsula polissacarídica foi realizada com etapas sucessivas de ultra filtração tangencial e precipitação alcóolica dos contaminantes. As caracterizações físico-químicas: difração de raios-X (DRX), cromatografia gasosa (CGMS), ressonância magnética (NMR) e determinação de açúcares pelo método fenol-sulfúrico, foram realizadas para identificação da composição e estrutura monossacarídica de açucares. O PS isolado apresenta ramificações de fucose, manose, glicose, galactose e N-acetil-glucosamina, apresentando estrutura amorfa. A liofilização do polissacarídeo foi realizada para fins de concentração e conservação. A encapsulação do polissacarídeo acoplada quimicamente com OVA, em uma Nanopartícula de quitosana, teve como finalidade aumentar a mucoadesividade e possibilitar maior absorção do antígeno entre as células da junção epitelial das mucosas sublinguais. A partir da análise de DLS (Espalhamento dinâmico de luz), as Nanopartículas apresentaram dimensões entre 200 a 400 nm e o Potencial Zeta acima de 20. O índice de polidispersão (PDI) está dentro do esperado (abaixo de 0.3). A capacidade de encapsulamento em relação à OVA foi de 92,8% dos grupos que continham PS. O teste IgG sérica total mostrou que o grupo G2 (Nanopartícula com Polissacarídeo e Proteína acoplados) foi o que teve maior reatividade no teste de ELISA, pela Análise de Variância (ANOVA) com ferramenta de Bonferrone. O teste sIgA mostrou que o grupo G2 (Nanopartícula com Polissacarídeo e Proteína acoplados) foi o que teve maior concentração de anticorpo sIgA total. Como resultado e conclusão, o polissacarídeo capsular do Streptococcus agalactiae é um bom candidato a antígeno vacinal. / Gram-positive bacteria Streptococcus agalactiae group B (GBS) is part of the normal microbiota of the human genitourinary tract, being a commensal organism of the female body. However, in pregnant women, when there are changes in the microbial composition of the vaginal canal, GBS proliferation and infection may occur. This microorganism, in its opportunistic pathogenic form, can infect the neonate during natural childbirth, as well as contribute to urinary and uterine infections during pregnancy. The GBS has already been identified as one of the responsible for the high neonatal mortality rate, being one of the main agents of infection in newborns in the world. It can also be the cause of infections in pregnant women, leading to various complications such as chorioamnionitis, endometritis, and urinary tract and surgical site infections. There may be pregnancy and fetal impairment, with abortion, fetal intrauterine death, and rupture of the chorionic membrane, leading to premature labor - which can result in other serious consequences. This work was to develop a vaccine model for sublingual mucosa using the capsular polysaccharide of Streptococcus agalactiae as antigen, encapsulated in chitosan nano particles. For the study of optimization of the fermentation parameters, the Kegg (Kyoto Encyclopedia of Genes and Genomes) database was used to increase the productivity of polysaccharide capsule (PS) present on the cell surface. The addition of the L-Proline supplement gave rise to a higher ratio between bacterial growth and polysaccharide capsule formation. The purification and extraction of the polysaccharide capsule was performed with successive stages of tangential ultrafiltration and alcoholic precipitation of the contaminants. The physicochemical characterization of X-ray diffraction (XRD), gas chromatography (CGMS), magnetic resonance (NMR) and determination of sugars by the phenol-sulfuric method were performed to identify the composition and monosaccharide structure of sugars. The isolated PS presents branches of fucose, mannose, glucose, galactose and N-acetyl-glucosamine, presenting amorphous structure. Lyophilization of the polysaccharide was performed for concentration and conservation purposes. The encapsulation of the polysaccharide coupled chemically with OVA in a chitosan nano particle was aimed at increasing mucoadhesiveness and allowing greater absorption of the antigen between the cells of the sublingual mucosal epithelial junction. From the analysis of DLS (dynamic light scattering), the nanoparticles presented dimensions between 200 to 400 nm and the Zeta potential above 20. The polydispersity index (PDI) is within the expected range (below 0.3). The encapsulation capacity for OVA was 92.8% of the groups containing PS. The total serum IgG test showed that the G2 group (Nano particle with Polysaccharide and Protein coupled) was the one that had the highest reactivity in the ELISA test, by Analysis of Variance (ANOVA) with Bonferrone tool. The sIgA test showed that the G2 group (Nanoparticle with Polysaccharide and Protein coupled) had the highest concentration of total sIgA antibody. As a result and conclusion, the capsular polysaccharide of Streptococcus agalactiae is a good candidate for vaccine antigen. Imunização via mucosa sublingual Nanopartícula Polissacarídeo Streptococcus agalactiae Vacina Conjugate vaccine Nanoparticle Polysaccharide Streptococcus agalactiae Sublingual mucosal immunization
233	Polissacarídeo capsular do Streptococcus agalactiae como antígeno vacinal: desenvolvimento de um modelo vacinal para mucosas com Nanopartícula de quitosana / Capsular polysaccharide of Streptococcus agalactiae as vaccine antigen: development of a mucosal vaccine model with chitosan nanoparticle Hacker, Sibylle Sophie 19 December 2018 (has links) A bactéria gram-positiva Streptococcus agalactiae do grupo B (GBS) faz parte da microbiota normal do trato geniturinário humano, sendo um organismo comensal do corpo da mulher. No entanto, em mulheres grávidas, quando há alterações na composição microbiana do canal vaginal, pode ocorrer a proliferação e a infecção pelo GBS. Este microrganismo, em sua forma patogênica oportunista, pode infectar o neonato durante o parto natural, assim como contribuir para infecções urinárias e uterinas durante a gestação. O GBS já foi identificado como um dos responsáveis pela alta taxa de mortalidade neonatal, sendo um dos principais agentes de infecção em recém-nascidos no mundo. Ele também pode ser a causa de infecções nas gestantes, levando a várias complicações, como corioamnionite, endometrite e infecções do trato urinário e do sítio cirúrgico. Pode haver comprometimento da gestação e do feto, com abortamento, morte fetal intrauterina e ruptura da membrana coriônica, levando a parto prematuro - que pode resultar em outras consequências graves. Este trabalho foi desenvolver um modelo vacinal para mucosa sublingual, utilizando o polissacarídeo capsular do Streptococcus agalactiae como antígeno, encapsulado em Nanopartículas de quitosana. Para o estudo de otimização dos parâmetros de fermentação, para aumentar a produtividade de cápsula polissacarídica (PS) presente na superfície celular, utilizou-se o Banco de Dados Kegg (Kyoto Encyclopedia of Genes and Genomes). A adição do suplemento L-Prolina foi o que propiciou a principio, maior relação entre crescimento bacteriano e formação de cápsula polissacarídica. A purificação e extração da cápsula polissacarídica foi realizada com etapas sucessivas de ultra filtração tangencial e precipitação alcóolica dos contaminantes. As caracterizações físico-químicas: difração de raios-X (DRX), cromatografia gasosa (CGMS), ressonância magnética (NMR) e determinação de açúcares pelo método fenol-sulfúrico, foram realizadas para identificação da composição e estrutura monossacarídica de açucares. O PS isolado apresenta ramificações de fucose, manose, glicose, galactose e N-acetil-glucosamina, apresentando estrutura amorfa. A liofilização do polissacarídeo foi realizada para fins de concentração e conservação. A encapsulação do polissacarídeo acoplada quimicamente com OVA, em uma Nanopartícula de quitosana, teve como finalidade aumentar a mucoadesividade e possibilitar maior absorção do antígeno entre as células da junção epitelial das mucosas sublinguais. A partir da análise de DLS (Espalhamento dinâmico de luz), as Nanopartículas apresentaram dimensões entre 200 a 400 nm e o Potencial Zeta acima de 20. O índice de polidispersão (PDI) está dentro do esperado (abaixo de 0.3). A capacidade de encapsulamento em relação à OVA foi de 92,8% dos grupos que continham PS. O teste IgG sérica total mostrou que o grupo G2 (Nanopartícula com Polissacarídeo e Proteína acoplados) foi o que teve maior reatividade no teste de ELISA, pela Análise de Variância (ANOVA) com ferramenta de Bonferrone. O teste sIgA mostrou que o grupo G2 (Nanopartícula com Polissacarídeo e Proteína acoplados) foi o que teve maior concentração de anticorpo sIgA total. Como resultado e conclusão, o polissacarídeo capsular do Streptococcus agalactiae é um bom candidato a antígeno vacinal. / Gram-positive bacteria Streptococcus agalactiae group B (GBS) is part of the normal microbiota of the human genitourinary tract, being a commensal organism of the female body. However, in pregnant women, when there are changes in the microbial composition of the vaginal canal, GBS proliferation and infection may occur. This microorganism, in its opportunistic pathogenic form, can infect the neonate during natural childbirth, as well as contribute to urinary and uterine infections during pregnancy. The GBS has already been identified as one of the responsible for the high neonatal mortality rate, being one of the main agents of infection in newborns in the world. It can also be the cause of infections in pregnant women, leading to various complications such as chorioamnionitis, endometritis, and urinary tract and surgical site infections. There may be pregnancy and fetal impairment, with abortion, fetal intrauterine death, and rupture of the chorionic membrane, leading to premature labor - which can result in other serious consequences. This work was to develop a vaccine model for sublingual mucosa using the capsular polysaccharide of Streptococcus agalactiae as antigen, encapsulated in chitosan nano particles. For the study of optimization of the fermentation parameters, the Kegg (Kyoto Encyclopedia of Genes and Genomes) database was used to increase the productivity of polysaccharide capsule (PS) present on the cell surface. The addition of the L-Proline supplement gave rise to a higher ratio between bacterial growth and polysaccharide capsule formation. The purification and extraction of the polysaccharide capsule was performed with successive stages of tangential ultrafiltration and alcoholic precipitation of the contaminants. The physicochemical characterization of X-ray diffraction (XRD), gas chromatography (CGMS), magnetic resonance (NMR) and determination of sugars by the phenol-sulfuric method were performed to identify the composition and monosaccharide structure of sugars. The isolated PS presents branches of fucose, mannose, glucose, galactose and N-acetyl-glucosamine, presenting amorphous structure. Lyophilization of the polysaccharide was performed for concentration and conservation purposes. The encapsulation of the polysaccharide coupled chemically with OVA in a chitosan nano particle was aimed at increasing mucoadhesiveness and allowing greater absorption of the antigen between the cells of the sublingual mucosal epithelial junction. From the analysis of DLS (dynamic light scattering), the nanoparticles presented dimensions between 200 to 400 nm and the Zeta potential above 20. The polydispersity index (PDI) is within the expected range (below 0.3). The encapsulation capacity for OVA was 92.8% of the groups containing PS. The total serum IgG test showed that the G2 group (Nano particle with Polysaccharide and Protein coupled) was the one that had the highest reactivity in the ELISA test, by Analysis of Variance (ANOVA) with Bonferrone tool. The sIgA test showed that the G2 group (Nanoparticle with Polysaccharide and Protein coupled) had the highest concentration of total sIgA antibody. As a result and conclusion, the capsular polysaccharide of Streptococcus agalactiae is a good candidate for vaccine antigen. Conjugate vaccine Imunização via mucosa sublingual Nanoparticle Nanopartícula Polissacarídeo Polysaccharide Streptococcus agalactiae Streptococcus agalactiae Sublingual mucosal immunization Vacina
234	Antigen specific B cells in the immune response to Haemophilus influenzae type b PRP conjugate vaccine / Aruna P. Kodituwakku. Kodituwakku, Aruna Poojitha January 2004 (has links) "March 2004" / Includes bibliographical references (leaves 213-272) / xxiii, 272 leaves ; ill. (some col.), plates ; 30 cm. / Title page, contents and abstract only. The complete thesis in print form is available from the University Library. / Thesis (Ph.D.)--University of Adelaide, Dept. of Paediatrics, 2004 Hemophilus influenzae Vaccination Vaccination of children Hemophilus diseases Haemophilus Vaccines. Vaccines, Conjugate therapeutic use.
235	Towards Rational Design of Asymmetric Catalyst for Organometallic and Organocatalytic Reactions Hartikka, Antti January 2007 (has links) <p>This thesis deals with synthetically modified chiral molecules and their application in asymmetric catalysis. The first part of the thesis describes the use of commercially available chiral diamine ligands in the iridium catalyzed transfer hydrogenation of aromatic ketones. The chiral diamine ligands were mixed with an appropriate transition-metal complex, which after addition of suitable base provided a chiral transition metal complex capable of reducing a range of different aromatic ketones in high yields and enantioselectivities. The developed methodology constitutes a cost effective and readily available procedure for transfer hydrogenation reactions. The following chapters in the thesis are completely devoted to rational design of small organic molecules acting as catalyst in various organocatalytic transformations. Organocatalytic methodology, represent a new and complementary approach to asymmetric organic synthesis, as compared to e.g. transition metal based methodology. Advantages of this methodology typically include mild and less stringent reaction conditions. This, in combination with the lack of toxic transition metal by-products, makes the process more environmentally benign; the organocatalytic methodology, therefore represent a promising approach towards implementation of green chemistry in organic synthesis. Despite this promise, typical drawbacks of the current methodology are long reaction times and the need for high catalyst loadings. Thus, a large demand exists for enhancing reactivity and increasing selectivity in organocatalytic reactions. The present thesis describes several efforts where we have tried to rationally design improved catalysts for various enantioselective organocata-lytic reactions. First, a structurally modified L-proline, incorporating a 1H-tetrazolic acid, was synthesized and evaluated in the direct asymmetric organocatalytic aldol reaction. As shown in Paper II, the catalyst displayed very high reactivity and subsequent studies were initiated in order to rationalize the reactivity enhancement (Paper III). Delightfully, the design principle of a 1H-tetrazolic acid as replacement for a carboxylic acid has since been widely used in the community, including our own efforts in organocatalytic asymmetric cyclopropanations (Paper V)and Diels-Alder reactions (Paper VII). Novel catalysts, including other functionalizations, were also designed for organocatalytic asymmetric addition of nitroalkanes to α,β-unsaturated aldehydes (Paper IV) and for cyclopropanations (Paper VI).</p> Organocatalysis Transition Metal Complex Asymmetric Aldol Reaction Cyclopropanation Diels-Alder Reduction Conjugate Addition Organic chemistry Organisk kemi
236	Targeting Biological Systems by Organic Synthesis Methods - Cancer Cells and Proteins Winander, Cecilia January 2008 (has links) <p>This thesis describes the design and synthesis of molecules with potential roles in biomedicine, with an emphasis on molecular recognition in complex biological environments. The first chapter describes the synthesis and evaluation of compounds for use in nuclide therapy. Carboranes are frequently used in the development of drugs for Boron Neutron Capture Therapy. New routes for monohydroxylation at the B and C atoms of <i>p</i>-carborane have been developed. The Suzuki-Miyaura reaction has been applied to the cross-coupling of <i>bis</i>(neopentyl glycolato)diboron or <i>bis</i>(pinacolato)diboron and 2-I-<i>p</i>-carborane. The synthesized derivatives are important intermediates in the synthesis of a number of potentially biologically active carborane-containing molecules.</p><p>The DNA intercalator doxorubicin has been functionalized to enable <sup>125</sup>I labelling. The aim of combining the DNA intercalator with <sup>125</sup>I was to achieve high delivery of cytotoxic radiation to the nucleus. The DNA-binding ability and cellular uptake of the synthesized compounds have been evaluated. One of the compounds bound strongly to DNA and had similar cellular uptake as daunorubicin, which makes the compound very interesting for further biological evaluation.</p><p>The second chapter describes the use of polypeptide conjugates to broaden our knowledge of molecular recognition. The polypeptides consist of 42 amino acids each and are designed to fold into helix-loop-helix motifs that dimerize due to their amphiphilic character. The polypeptides are combined with a variety of small organic molecules. The incorporation of small aromatic molecules to influence the structure and dynamics of a polypeptide has been investigated. By attaching a dansyl group to the side chain of a lysine residue, the dynamics of the protein’s hydrophobic core where affected to such a degree that a native-like fold was formed. The polypeptide conjugates have also been used to study the binding and recognition of native proteins. High-affinity binders for chitinases and acetylcholine esterase have been developed and evaluated.</p> Organic chemistry carborane doxorubicin 125I molecular recognition four-helix bundle polypeptide conjugate affinity chitinase acetylcholine esterase Organisk kemi
237	Algorithmic Developments for a Multiphysics Framework Wuilbaut, Thomas 17 December 2008 (has links) In this doctoral work, we adress various problems arising when dealing with multi-physical simulations using a segregated (non-monolithic) approach. We concentrate on a few specific problems and focus on the solution of aeroelastic flutter for linear elastic structures in compressible fl ows, conjugate heat transfer for re-entry vehicles including thermo-chemical reactions and finally, industrial electro-chemical plating processes which often include stiff source terms. These problems are often solved using specifically developed solvers, but these cannot easily be reused for different purposes. We have therefore considered the development of a flexible and reusable software platform for the simulation of multi-physics problems. We have based this development on the COOLFluiD framework developed at the von Karman Institute in collaboration with a group of partner institutions. For the solution of fl uid fl ow problems involving compressible flows, we have used the Finite Volume method and we have focused on the application of the method to moving and deforming computational domains using the Arbitrary Lagrangian Eulerian formulation. Validation on a series of testcases (including turbulent flows) is shown. In parallel, novel time integration methods have been derived from two popular time discretization methods. They allow to reduce the computational effort needed for unsteady fl ow computations. Good numerical properties have been obtained for both methods. For the computations on deforming domains, a series of mesh deformation techniques are described and compared. In particular, the effect of the stiffness definition is analyzed for the Solid material analogy technique. Using the techniques developed, large movements can be obtained while preserving a good mesh quality. In order to account for very large movements for which mesh deformation techniques lead to badly behaved meshes, remeshing is also considered. We also focus on the numerical discretization of a class of physical models that are often associated with fluid fl ows in coupled problems. For the elliptic problems considered here (elasticity, heat conduction and electrochemical potential problems), the implementation of a Finite Element solver is presented. Standard techniques are described and applied for a variety of problems, both steady and unsteady. Finally, we discuss the coupling of the fluid flow solver with the finite element solver for a series of applications. We concentrate only on loosely and strongly coupled algorithms and the issues associated with their use and implementation. The treatment of non-conformal meshes at the interface between two coupled computational domains is discussed and the problem of the conservation of global quantities is analyzed. The software development of a flexible multi-physics framework is also detailed. Then, several coupling algorithms are described and assessed for testcases in aeroelasticity and conjugate heat transfer showing the integration of the fluid and solid solvers within a multi-physics framework. A novel strongly coupled algorithm, based on a Jacobian-Free Newton-Krylov method is also presented and applied to stiff coupled electrochemical potential problems. aérolélasticité couplage multi-physique mécanique des fluides transfert de chaleur conjugate heat transfer aeroelasticity computational fluid dynamics fluid-structure interaction
238	Targeting Biological Systems by Organic Synthesis Methods - Cancer Cells and Proteins Winander, Cecilia January 2008 (has links) This thesis describes the design and synthesis of molecules with potential roles in biomedicine, with an emphasis on molecular recognition in complex biological environments. The first chapter describes the synthesis and evaluation of compounds for use in nuclide therapy. Carboranes are frequently used in the development of drugs for Boron Neutron Capture Therapy. New routes for monohydroxylation at the B and C atoms of p-carborane have been developed. The Suzuki-Miyaura reaction has been applied to the cross-coupling of bis(neopentyl glycolato)diboron or bis(pinacolato)diboron and 2-I-p-carborane. The synthesized derivatives are important intermediates in the synthesis of a number of potentially biologically active carborane-containing molecules. The DNA intercalator doxorubicin has been functionalized to enable 125I labelling. The aim of combining the DNA intercalator with 125I was to achieve high delivery of cytotoxic radiation to the nucleus. The DNA-binding ability and cellular uptake of the synthesized compounds have been evaluated. One of the compounds bound strongly to DNA and had similar cellular uptake as daunorubicin, which makes the compound very interesting for further biological evaluation. The second chapter describes the use of polypeptide conjugates to broaden our knowledge of molecular recognition. The polypeptides consist of 42 amino acids each and are designed to fold into helix-loop-helix motifs that dimerize due to their amphiphilic character. The polypeptides are combined with a variety of small organic molecules. The incorporation of small aromatic molecules to influence the structure and dynamics of a polypeptide has been investigated. By attaching a dansyl group to the side chain of a lysine residue, the dynamics of the protein’s hydrophobic core where affected to such a degree that a native-like fold was formed. The polypeptide conjugates have also been used to study the binding and recognition of native proteins. High-affinity binders for chitinases and acetylcholine esterase have been developed and evaluated. Organic chemistry carborane doxorubicin 125I molecular recognition four-helix bundle polypeptide conjugate affinity chitinase acetylcholine esterase Organisk kemi
239	Towards Rational Design of Asymmetric Catalyst for Organometallic and Organocatalytic Reactions Hartikka, Antti January 2007 (has links) This thesis deals with synthetically modified chiral molecules and their application in asymmetric catalysis. The first part of the thesis describes the use of commercially available chiral diamine ligands in the iridium catalyzed transfer hydrogenation of aromatic ketones. The chiral diamine ligands were mixed with an appropriate transition-metal complex, which after addition of suitable base provided a chiral transition metal complex capable of reducing a range of different aromatic ketones in high yields and enantioselectivities. The developed methodology constitutes a cost effective and readily available procedure for transfer hydrogenation reactions. The following chapters in the thesis are completely devoted to rational design of small organic molecules acting as catalyst in various organocatalytic transformations. Organocatalytic methodology, represent a new and complementary approach to asymmetric organic synthesis, as compared to e.g. transition metal based methodology. Advantages of this methodology typically include mild and less stringent reaction conditions. This, in combination with the lack of toxic transition metal by-products, makes the process more environmentally benign; the organocatalytic methodology, therefore represent a promising approach towards implementation of green chemistry in organic synthesis. Despite this promise, typical drawbacks of the current methodology are long reaction times and the need for high catalyst loadings. Thus, a large demand exists for enhancing reactivity and increasing selectivity in organocatalytic reactions. The present thesis describes several efforts where we have tried to rationally design improved catalysts for various enantioselective organocata-lytic reactions. First, a structurally modified L-proline, incorporating a 1H-tetrazolic acid, was synthesized and evaluated in the direct asymmetric organocatalytic aldol reaction. As shown in Paper II, the catalyst displayed very high reactivity and subsequent studies were initiated in order to rationalize the reactivity enhancement (Paper III). Delightfully, the design principle of a 1H-tetrazolic acid as replacement for a carboxylic acid has since been widely used in the community, including our own efforts in organocatalytic asymmetric cyclopropanations (Paper V)and Diels-Alder reactions (Paper VII). Novel catalysts, including other functionalizations, were also designed for organocatalytic asymmetric addition of nitroalkanes to α,β-unsaturated aldehydes (Paper IV) and for cyclopropanations (Paper VI). Organocatalysis Transition Metal Complex Asymmetric Aldol Reaction Cyclopropanation Diels-Alder Reduction Conjugate Addition Organic chemistry Organisk kemi
240	Synthesis of Substituted Pyrimidines and Pyridines as Ligands to the 5-HT7 Receptor Blake, Ava L. 22 April 2010 (has links) Of the seven existing classes of serotonin receptors, the 5-HT7 receptors (5-HT7Rs) are the most recently discovered. Abundance of 5-HT7 in the central nervous system is suggestive of the receptor’s role in several physiological and pathophysiological functions. Existing research has afforded a number of compounds exhibiting specific affinity to the receptor. These selective ligands can provide structural information about the receptor and can serve as the foundation for pharmacological profiling . This thesis describes the synthesis of substituted pyrimidines and pyridines for affinity to the 5-HT7 receptor. Organometallic species are the cornerstone for sev-eral of the synthetic pathways. Synthesis Conjugate addition Vinyl Heterocycle Organometallic Palladium catalysis Serotonin 5-HT 5-HT7 receptor Pharmacophore model Pyrimidines Pyridines

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