Global ETD Search

1	The kinetics and mechanism of solvolysis of some phosphate esters of tertiary alcohols Newton, Melvin Gary 08 1900 (has links) No description available. Solvolysis Alcohols Phosphate esters
2	Mechanism of the hydrolysis of phosphate monoesters Tatum, Monso Pitman 08 1900 (has links) No description available. Hydrolysis Phosphate esters Chemical kinetics
3	A study of some esters of phosphoric acid : a ribonucleic acid model system Cleveland, James Perry 05 1900 (has links) No description available. Hydrolysis Nucleic acids Phosphate esters
4	Synthesis, characterization and applications of fats and oil derived phase change materials Lopes, Shailesh M. January 2007 (has links) Thesis (Ph. D.)--University of Missouri-Columbia, 2007. / The entire dissertation/thesis text is included in the research.pdf file; the official abstract appears in the short.pdf file (which also appears in the research.pdf); a non-technical general description, or public abstract, appears in the public.pdf file. Title from title screen of research.pdf file (viewed on March 20, 2009) Vita. Includes bibliographical references.
5	Synthesis and evaluation of novel inhibitors of 1-Deoxy-D-xylolose-5-phosphate reductoisomerase as potential antimalarials Conibear, Anne Claire 19 July 2013 (has links) Malaria continues to be an enormous health-threat in the developing world and the emergence of drug resistance has further compounded the problem. The parasite-specific enzyme, 1-deoxY-D-xylulose-S-phosphate reductoisomerase (DXR), has recently been validated as a promising antimalarial drug target. The present study comprises a combination of synthetic, physical organic, computer modelling and bioassay techniques directed towards the development of novel DXR inhibitors. A range of 2-heteroarylamino-2-oxoethyl- and 2- heteroarylamino-2-oxopropyl phosphonate esters and their corresponding phosphonic acid salts have been synthesised as analogues of the highly active DXR inhibitor, fosmidomycin. Treatment of the heteroarylamino precursors with chloroacetyl chloride or chloropropionyl chloride afforded chloroamide intermediates, Arbuzov reactions of which led to the corresponding diethyl phosphonate esters. Hydrolysis of the esters has been effected using bromotrimethylsilane. Twenty-four new compounds have been prepared and fully characterised using elemental (HRMS or combustion) and spectroscopic (1- and 2-D NMR and IR) analysis. A 31p NMR kinetic study has been carried out on the two-step silylation reaction involved in the hydrolysis of the phosphonate esters and has provided activation parameters for the reaction. The kinetic analysis was refined using a computational method to give an improved fit with the experimental data. Saturation transfer difference (STD) NMR analysis, computer-simulated docking and enzyme inhibition assays have been used to evaluate the enzyme-binding and -inhibition potential of the synthesised ligands. Minimal to moderate inhibitory activity has been observed and several structure-activity relationships have been identified. In silica exploration of the DXR active site has revealed an additional binding pocket and information on the topology of the active site has led to the de novo design of a new series of potential ligands. / KMBT_363 / Adobe Acrobat 9.54 Paper Capture Plug-in Antimalarials -- Development Malaria -- Chemotherapy Drug development Enzyme kinetics Phosphate esters
6	Environmental Chemistry of Commercial Fluorinated Surfactants: Transport, Fate, and Source of Perfluoroalkyl Acid Contamination in the Environment Lee, Holly 19 June 2014 (has links) Perfluoroalkyl carboxylates (PFCAs) and perfluoroalkane sulfonates (PFSAs)are anthropogenic fluorinated surfactants that have been detected in almost every environmental compartment studied, yet their production and applications are far outweighed by those of other higher molecular weight fluorinated surfactants used in commerce. These fluorinated surfactants are widely incorporated in commercial products, yet their post-application fate has not been extensively studied. This thesis examines various biological and environmental processes involved in the fate of these surfactants upon consumer disposal. Specific focus was directed towards the environmental chemistry of polyfluoroalkyl phosphate esters (PAPs), perfluoroalkyl phosphonates (PFPAs), and perfluoroalkyl phosphinates (PFPiAs), and their potential roles as sources of perfluoroalkyl acids (PFAAs) in the environment. PAPs are established biological precursors of PFCAs, while PFPAs and PFPiAs are newly discovered PFAAs in the environment. Incubation with wastewater treatment plant (WWTP) microbes demonstrated the ability of PAPs to yield both fluorotelomer alcohols (FTOHs), which are established precursors of PFCAs, and the corresponding PFCAs themselves. WWTP biosolids-applied soil-plant microcosms revealed that PAPs can significantly accumulate in plants along with their degradation metabolites. This has implications for potential wildlife and human exposure through the consumption of plants grown and/or livestock raised on farmlands that have been amended with contaminated biosolids. A number of compound-and environmental-specific factors were observed to significantly influence the partitioning of PFPAs and PFPiAs between aqueous media and soil, as well as, aquatic biota during sorption and bioaccumulation experiments respectively. In both processes, PFPAs were primarily observed in the aqueous phase, while PFPiAs predominated in soil and biological tissues, consistent with the few environmental observations of these chemicals made to date. Detection of the PAP diesters (diPAPs), PFPiAs, and fluorotelomer sulfonates (FTSAs),all of which are used commercially, in human sera is evidence of human exposure to commercial fluorinated products, but the pathways by which this exposure occurs remain widely debated. Overall, this work presents novel findings on the environmental fate of commercial fluorinated surfactants and each of the process studied shows a clear link between the use of commercial products and the fluorochemical burden currently observed in the environment. fluorinated surfactants perfluoroalkyl acid polyfluoroalkyl phosphate esters perfluoroalkyl phosphonates perfluoroalkyl phosphinates biodegradation plant uptake sorption bioaccumulation biomonitoring 0486 0485
7	Environmental Chemistry of Commercial Fluorinated Surfactants: Transport, Fate, and Source of Perfluoroalkyl Acid Contamination in the Environment Lee, Holly 19 June 2014 (has links) Perfluoroalkyl carboxylates (PFCAs) and perfluoroalkane sulfonates (PFSAs)are anthropogenic fluorinated surfactants that have been detected in almost every environmental compartment studied, yet their production and applications are far outweighed by those of other higher molecular weight fluorinated surfactants used in commerce. These fluorinated surfactants are widely incorporated in commercial products, yet their post-application fate has not been extensively studied. This thesis examines various biological and environmental processes involved in the fate of these surfactants upon consumer disposal. Specific focus was directed towards the environmental chemistry of polyfluoroalkyl phosphate esters (PAPs), perfluoroalkyl phosphonates (PFPAs), and perfluoroalkyl phosphinates (PFPiAs), and their potential roles as sources of perfluoroalkyl acids (PFAAs) in the environment. PAPs are established biological precursors of PFCAs, while PFPAs and PFPiAs are newly discovered PFAAs in the environment. Incubation with wastewater treatment plant (WWTP) microbes demonstrated the ability of PAPs to yield both fluorotelomer alcohols (FTOHs), which are established precursors of PFCAs, and the corresponding PFCAs themselves. WWTP biosolids-applied soil-plant microcosms revealed that PAPs can significantly accumulate in plants along with their degradation metabolites. This has implications for potential wildlife and human exposure through the consumption of plants grown and/or livestock raised on farmlands that have been amended with contaminated biosolids. A number of compound-and environmental-specific factors were observed to significantly influence the partitioning of PFPAs and PFPiAs between aqueous media and soil, as well as, aquatic biota during sorption and bioaccumulation experiments respectively. In both processes, PFPAs were primarily observed in the aqueous phase, while PFPiAs predominated in soil and biological tissues, consistent with the few environmental observations of these chemicals made to date. Detection of the PAP diesters (diPAPs), PFPiAs, and fluorotelomer sulfonates (FTSAs),all of which are used commercially, in human sera is evidence of human exposure to commercial fluorinated products, but the pathways by which this exposure occurs remain widely debated. Overall, this work presents novel findings on the environmental fate of commercial fluorinated surfactants and each of the process studied shows a clear link between the use of commercial products and the fluorochemical burden currently observed in the environment. fluorinated surfactants perfluoroalkyl acid polyfluoroalkyl phosphate esters perfluoroalkyl phosphonates perfluoroalkyl phosphinates biodegradation plant uptake sorption bioaccumulation biomonitoring 0486 0485
8	Nitric oxide triggered dephosphorylation reactions Enemchukwu, Emeka Martin 01 1900 (has links) The synergistic effect of nitric oxide toward dephosphorylation reactions involving phosphate esters was the subject of investigation in this research. Sodium nitroprusside under UV irradiations at 254nm, 365nm and white light was utilized as nitric oxide donor in solutions. The effects of cobalt trimethylenediamine and nitroprusside towards dephosphorylation of nitrophenylphosphate and pyrophosphate which were modeled as organophosphate ester substrates were also investigated. The activated substrate models showed more rate enhancement than the unactivated models in all cases. The direct interaction of nitric oxide with the phosphorus centre is presumed to be the reason for enhanced hydrolysis. This study demonstrates the possible role of nitric oxide in decontamination reactions of poorly biodegradable phosphate esters in the biosphere. / Chemistry / M. Sc. (Chemistry) Nitric oxide Nitrophenylphosphate Sodium nitroprusside Dephosphorylation Phototransformation Decontamination Inorganic phosphate Inorganic pyrophosphate Nitrophenolate ion Trimethylenediamine Organophosphate esters Ultra violet radiation 541.39 Nitric oxide Phosphate esters Ultraviolet radiation
9	Sobre as proteínas tirosina-fosfatases. Reatividade intrínseca de ésteres de fosfato e simulação computacional dos mecanismos de reação enzimática / On the protein tyrosine phosphatases. Phosphate esters intrinsic reactivity and computer simulation of the mechanisms of enzymatic reaction Arantes, Guilherme Menegon 13 August 2004 (has links) Proteínas tirosina-fosfatases (PTPs) catalisam a hidrólise de fosfotirosina de outras proteínas e, assim, regulam importantes processos bioquímicos. Dois representantes desta família são as fosfatases de dupla especificidade VHR e CDC25B. A primeira etapa de reação catalisada é um ataque nucleofílico da cadeia lateral de uma cisteína sobre o fósforo do substrato, com uma possível transferência de H+ de um ácido geral para o grupo de saída, formando uma PTP intermediária tiofosforilada e desfosforilando o substrato. Dúvidas ainda persistem sobre esta etapa, envolvendo os estados de protonação do substrato e do nucleófilo enzimático, a inatividade de certos mutantes e a identificação do ácido geral nas CDC25s. Procuramos solucionar estas questões por simulações computacionais das reações catalisadas pela VHR e pela CDC25B. Inicialmente, caminhos das reações de tiólise e alcoólise de ésteres de fosfato na fase gasosa foram determinados por cálculos de estrutura eletrônica ab initio e analisados como referências da reatividade intrínseca de ésteres de fosfato e como modelos da atividade enzimática. Um potencial híbrido de mecânica quântica e mecânica molecular foi amplamente testado e calibrado, empregando estes caminhos de reação e outros dados ab initio. A calibração permitiu que conclusões semiquantitativas pudessem ser obtidas a partir das simulações enzimáticas. Potenciais de força média foram determinados com o potencial híbrido para desfosforilação de diferentes substratos catalisada pelas PTPs selvagens e por suas mutantes. Os resultados mostram que o mecanismo da reação catalisada segue uma adição e eliminação simultânea, com um estado de transição dissociativo com caráter de metafosfato. As barreiras calculadas são bastante próximas às energias de ativação experimentais. O substrato enzimático é um diânion desprotonado e o nucleófilo está ionizado. As reações do substrato ou do nucleófilo protonados apresentam barreiras, no mínimo, 15 kcal/mol mais altas que os valores experimentais. A VHR mutante cisteína para serina no sítio ativo é inativa, porque a serina está protonada. As CDC25s não utilizam um ácido geral para catálise, ao contrário das outras PTPs. Propostas de que o ácido geral poderia ser o próprio substrato ou um dos ácidos glutâmicos presentes no sítio ativo são energeticamente inacessíveis. / Protein tyrosine phosphatases (PTPs) catalyse the hydrolysis of phosphotyrosine from other proteins and, hence, regulate important biochemical processes. Two members from this family are the dual specificity phosphatases VHR and CDC25B. The first step of the catalysed reaction is the nucleophilic attack from the side chain of a cystein towards the substrate, with a possible H+ transfer from a general acid to the leaving group, forming a PTP thiophosphorylated intermediate and dephosphorylating the substrate. There are still some doubts about this step, involving the protonation states of the substrate and the nzymatic nucleophile, the inactivity of certain mutants and the identification of the general acid in CDC25s. We tried to solve this questions by computer simulations of the reactions catalysed by VHR and by CDC25B. Initially, reaction pathways of phosphate esters thiolysis and alcoholysis in the gas-phase were determined by ab initio electronic structure calculations and analysed as benchmarks for the intrinsic reactivity of phosphate esters and as models of the enzymatic activity. A hybrid potential of quantum mechanics and molecular mechanics was fully tested and calibrated, employing these reaction pathways and other ab initio data. The calibration allowed that semiquantitative conclusions could be obtained from the enzymatic simulations. Potentials of mean force were determined with the hybrid potential for the dephosphorylation of different substrates catalysed by the wild-type PTPs and their mutants. The results show that the catalysed reaction mechanism follows a concerted addition and elimination, with a dissociative transition state with metaphosphate-like. The calculated barriers are very close to the experimental activation energies. The enzymatic substrate is a deprotonated dianion and the nucleophile is ionised. The reactions of the protonated substrate or nucleophile have barriers, at least, 15 kcal/mol higher than the experimental results. The active site cystein to serine VHR mutant is inactive because the serine is protonated. The CDC25s do not employ a general acid for catalysis, differently from the other PTPs. Proposals that the general acid is the substrate or one of the glutamic acids present in the active site are not energetically accessible. catálise enzimática computação/ aplicação à bioquimica computation/ biochemistry application enzima/fosforilação enzimatic catalysis enzime/ phosphorylation enzimologia enzimology ésteres de fosfato phosphate esters protein tyrosine phosphatases proteína tirosina-fosfatases
10	Nitric oxide triggered dephosphorylation reactions Enemchukwu, Emeka Martin 01 1900 (has links) The synergistic effect of nitric oxide toward dephosphorylation reactions involving phosphate esters was the subject of investigation in this research. Sodium nitroprusside under UV irradiations at 254nm, 365nm and white light was utilized as nitric oxide donor in solutions. The effects of cobalt trimethylenediamine and nitroprusside towards dephosphorylation of nitrophenylphosphate and pyrophosphate which were modeled as organophosphate ester substrates were also investigated. The activated substrate models showed more rate enhancement than the unactivated models in all cases. The direct interaction of nitric oxide with the phosphorus centre is presumed to be the reason for enhanced hydrolysis. This study demonstrates the possible role of nitric oxide in decontamination reactions of poorly biodegradable phosphate esters in the biosphere. / Chemistry / M. Sc. (Chemistry) Nitric oxide Nitrophenylphosphate Sodium nitroprusside Dephosphorylation Phototransformation Decontamination Inorganic phosphate Inorganic pyrophosphate Nitrophenolate ion Trimethylenediamine Organophosphate esters Ultra violet radiation 541.39 Nitric oxide Phosphate esters Ultraviolet radiation

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