Global ETD Search

71	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
72	TOXICIDADE DE AGROTÓXICO ORGANOFOSFORADO NO SISTEMA AUDITIVO PERIFÉRICO DE COBAIAS: ESTUDO ANATÔMICO E FUNCIONAL / TOXICITY OF AN ORGANOPHOSPHATE PESTICIDE IN THE PERIPHERAL AUDITORY SYSTEM: ANATOMIC AND FUNCTIONAL STUDY Körbes, Daiane 14 July 2009 (has links) Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / The organophosphate pesticides are widely used in agriculture, and the widespread application of these agents, without the appropriate use of bio-security measures, has contributed to environmental degradation and the increased incidence of occupational poisoning, becoming one of the main public health problems in rural areas. Studies show that the ototoxic agents, in addition to the peripheral vestibular and auditory systems compromise, also impair central auditory pathways. Among the major toxic agents that can lead to hearing loss are the solvents, metals, suffocating and organophosphate pesticides. This study examined the acute ototoxic action of a pesticide on the peripheral auditory system. This is a prospective experimental study. We used male albino guinea pigs, divided into three groups, which was administered distilled water (group 1 - control), pesticide - 0.3 mg/Kg/day (group 2), pesticide - 3 mg/Kg/day (group 3), for seven consecutive days. The pesticide used was Tamaron® (methamidophos). The auditory functional evaluation was performed using the Distortion Product Otoacoustic Emissions (DPOAE) and Auditory Brainstem Response (ABR), both performed before and immediately after the application of the pesticide. The anatomical assessment was performed with scanning electron microscopy. The guinea pigs subjected to pesticide had cochlear morphological changes, with lesions in three turns examined in electron microscopy, which was increased according to the dosage received from the agent. In all animals the DPOAE was present, but it was verified that the signal/noise ratio of the frequencies of 1.500 and 6.000 Hz in DPOAE of groups 2 and 3 showed statistically significant difference when compared to control group, indicating possible cell impairment. There were no statistically significant changes in functional assessment of VIII nerve when evaluated by wave I of ABR. It is concluded that the organophosphorous can be considered as a harmful acute agent of outer hair cells, seen the correlation between the dose applied and the amount of changes observed by electron microscopy, however, the acute exposure to Tamaron® did not cause functional alteration of the peripheral auditory system. / Os agrotóxicos organofosforados são amplamente utilizados na agricultura, e a elevada aplicação desses agentes, sem o emprego das devidas medidas de biossegurança, vem contribuindo para a degradação ambiental e para o aumento da incidência de intoxicação ocupacional, tornando-se um dos principais problemas de saúde pública no meio rural. Pesquisas demonstram que os agentes ototóxicos, além de comprometer os sistemas auditivo e vestibular periféricos, provocam ainda alterações nas vias auditivas centrais. Dentre os principais agentes químicos que podem levar à perda auditiva incluem-se os solventes, os metais, os asfixiantes e os agrotóxicos organofosforados. O objetivo deste estudo foi analisar a ação ototóxica aguda de um agrotóxico do grupo dos organofosforados no sistema auditivo periférico. Trata-se de um estudo experimental prospectivo, realizado em cobaias albinas machos, divididas em três grupos, nos quais se administrou água destilada (grupo 1 - controle), agrotóxico - 0,3mg/Kg/dia (grupo 2), agrotóxico 3 mg/Kg/dia (grupo 3), durante sete dias consecutivos. O agrotóxico utilizado foi Tamaron® (metamidofós). A avaliação auditiva funcional foi realizada utilizando-se Emissões Otoacústicas Produto de Distorção (EOAPD) e Potencial Evocado Auditivo de Tronco Encefálico (PEATE), ambos realizados antes e imediatamente após o período de aplicação do agrotóxico. A avaliação anatômica foi realizada com Microscopia Eletrônica de Varredura. As cobaias submetidas ao agrotóxico apresentaram alterações morfológicas cocleares, com lesões nas três espiras analisadas na microscopia eletrônica, intensificadas de acordo com a dosagem recebida do agente. Na avaliação auditiva funcional, todas as cobaias apresentaram EOAPD presentes, no entanto verificou-se significância estatística nos valores da relação sinal/ruído das frequências de 1.500 e 6.000 Hz das EOAPD das cobaias dos grupos 2 e 3 quando confrontados com os achados dos animais do grupo controle, indicando um possível sofrimento celular. Não foram encontradas alterações estatisticamente significantes na avaliação do VIII par craniano por meio da análise da onda I do PEATE. Concluiu-se que o organofosforado pode ser considerado um agente lesivo agudo das células ciliadas externas visto a correlação entre a dosagem aplicada e a quantidade de alterações observadas à microscopia eletrônica, entretanto a exposição aguda ao Tamaron® não causou alteração funcional do sistema auditivo periférico. Organofosforado Agrotóxico Ototoxicidade Emissões otoacústicas Células ciliadas externas Organophosphate Pesticide Ototoxicity Otoacoustic emissions Auditory brainstem response Outer hair cells CNPQ::CIENCIAS DA SAUDE::FONOAUDIOLOGIA
73	Aspectos da capacidade vetorial e perfil de suscetibilidade ao temephós de populações de Aedes aegypti (Diptera: Culicidae) de diferentes regiões do estado de Sergipe, Brasil / CAPACITY ASPECTS OF VECTOR PROFILE AND SUSCEPTIBILITY TO A TEMEPHOS POPULATIONS OF AEDES AEGYPTI (DIPTERA: CULICIDAE) OF DIFFERENT REGIONS OF THE STATE OF SERGIPE, BRAZIL. Marteis, Letícia Silva 02 February 2012 (has links) Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / Ecology studies of Aedes aegypti are crucial to understand the behavior and adaptations made by the species according to their environment and that became evident during the evolutionary process due to different selective pressures facing the species in their origin environment. Therefore this study aimed to evaluate aspects of vectorial capacity and resistance to organophosphate temephos for Ae. aegypti from different regions of Sergipe. In addition to the resistance ratio of the populations to larvicides, developmental parameters and reproductive outcomes were duration of theimmature, number of pupae formed and adults emerged, sex ratio, survival of adults in different feeding conditions, fecundity of females, fertility eggs under stress climate, amount of blood ingested, the size of specimens and the occurrence of asymmetric wing. All evaluated populations of Ae. aegypti were resistance to temephos . The population from Neopolis, a city with favorable climatic characteristics for the development of species, showed a smaller ratio of the larvicide resistênicia and performance of developmental and reproductive variables evaluated. The population from Pinhão, which comes from the semi-arid, and has the highest resistance ratio to temephos, including outlier compared to those presented by other people, which was also exhibited greater loss in the parameters of vectorial capacity, with the exception of variable viability of eggs in a condition of environmental stress, for which the best performance. Thus, changes were observed in parameters of vectorial capacity which now seemed to be related to the climatic conditions of the original environment of the populations, probably due to adaptations developed by individuals, sometimes were related to the differents status of resistance to temephos observed. / Estudos da ecologia de populações de Aedes aegypti são fundamentais para se conhecer o comportamento e as adaptações apresentadas pela espécie de acordo com o ambiente em que vivem e que se evidenciaram durante o processo evolutivo em função das diferentes pressões seletivas que as espécies enfrentam em seu ambiente de origem. Assim, este estudo teve como objetivo avaliar aspectos da capacidade vetorial e a resistência ao organofosforado temephós de populações de Ae. aegypti provenientes de diferentes regiões do estado de Sergipe. Além da razão de resistência das populações ao larvicida, os parâmetros de desenvolvimento e reprodutivos observados foram duração do período imaturo, quantidade de pupas formadas e de adultos que emergiram, razão sexual, sobrevivência dos adultos em diferentes condições de alimentação, fecundidade das fêmeas, fertilidade dos ovos sob estressse climático, quantidade de sangue ingerido, tamanho dos espécimes e ocorrência de assimetria alar. Todas as populações de Ae. aegypti avaliadas apresentaram resistência ao temephós. A população proveniente de Neópolis, município com características climáticas favoráveis ao desenvolvimento da espécie, apresentou uma das menores razão de resistênicia ao larvicida e melhor desempenho das variáveis de desenvolvimento e reprodução avaliadas. Já a população de Pinhão, originária da região do semi-árido, além de apresentar a maior razão de resistência ao temephós, inclusive com valor discrepante em relação aos apresentados pelas demais populações, também foi a que exibiu maior perda nos parâmetros da capacidade vetorial, com exceção da variável viabilidade dos ovos em condição de estresse climático, para a qual apresentou o melhor desempenho. Assim, foram observadas variações em parâmetros da capacidade vetorial que ora pareciam estar relacionadas às condições climáticas do ambiente de origem das populações, provavelmente em virtude das adaptações desenvolvidas pelos indivíduos, ora relacionavam-se com os diferentes status de resistência ao temephós observados. Saúde pública Aedes aegypti Controle vetorial Organofosforado temephós Sergipe Public Health Aedes aegypti Vector control Organophosphate temephos Sergipe
74	A procura de bactérias degradadoras de metamidofós. / Searching for methamidofos degrading bacteria. Diana Maria Chica Cardona 27 September 2011 (has links) O metamidofós é um inseticida organofosforado altamente tóxico por ser um forte inibidor da acetilcolinesterase, sendo utilizado em diversas culturas para o controle de pragas. Há poucas informações sobre a biodegradação deste composto disponíveis na literatura. Foram isoladas e caracterizadas 12 bactérias a partir de amostras de solo e água de uma área contaminada com metamidofós, as quais mostraram inicialmente capacidade de degradar o pesticida, utilizando-o como fonte de enxofre/nitrogênio e fósforo/enxofre. Estes isolados foram identificados por métodos de biologia molecular e pela caracterização do perfil lipídico da célula como pertencentes aos gêneros, Serratia, Pseudomonas, Stenotrophomonas e Curtobacterium. Ensaios preliminares da cinética de degradação do metamidofós por GC/MS evidenciaram o consumo do pesticida pelas bactérias isoladas. A retomada destes ensaios após alguns meses de armazenamento em glicerol a -80ºC resultou na perda da capacidade de biodegradação do composto-alvo por causas não-identificadas. Fatores que podem ter contribuído para este resultado negativo incluem eventual perda de plasmídeos com partes das vias de biodegradação ou interferentes utilizados na estabilização do metamidofós. / Methamidophos is a strong acetylcholinesterase inhibitor and, therefore, a very toxic organophosphorus insecticide. This product has been widely employed for pest control in a variety of cultures, but little information is available about its biodegradation. 12 bacteria were isolated and characterized, from water and soil samples obtained from a site contaminated with methamidophos, which in preliminary tests showed the ability to degrade methamidophos, using it as a combined source of sulfur/nitrogen and/or phosphorus/sulfur. These isolates were identified by molecular biology methods and by characterization of its fatty acids profile as members of the genus Serratia, Pseudomonas, Stenotrophomonas and Curtobacterium. The ability to biodegrade the compound was lost after prolonged storage at -80ºC for unknown reasons. It was hypothesized that this negative result may have occurred due to loss of plasmids or by interference of products used in the stabilization of commercial methamidophos formulations. Biodegradação ambiental Cinética do progresso anaeróbio Compostos de fósforo Metamidofos Microbiologia ambiental Organofosforados Environmental degradation Environmental microbiology Kinetics of progress anaerobic Methamidophos Organophosphate Phosphorus compounds
75	Neuropsychological toxicology : a theoretical overview of neuropsychological assessment Eiselen, Sue Catherine 16 October 2007 (has links) Neuropsychological toxicology investigates the impact of chemical exposure on the structure and functioning of the nervous system and by implication the neuropsychological performance of affected individuals. As in mainstream neuropsychology, brain damage is assessed by measuring changes in the cognitive, psychomotor and emotional domains using diagnostic neuropsychological tests. The field of neuropsychological toxicology has undergone significant growth in the last 20 years, amongst growing concerns over people’s potential everyday exposure to approximately 70 000 chemicals. Growing awareness of the possible dangers associated with neurotoxic exposure has lead to the increased regulation of exposure levels especially in industrial settings. This in turn has lead to a gradual shift in neuropsychological toxicology from the assessment of severe neurotoxic damage to the evaluation of subclinical signs, which may develop into disabling damage over many years of exposure. The assessment of these subclinical signs has proven to be tricky as they cannot always be measured through diagnostic tests and may be mimicked or hidden by numerous confounding variables. The need for the effective assessment of these subclinical signs has created a need for more sensitive tests and improved research methodology. This paper uses evidence from cellular pathology and anatomical pathology (dynamic brain localisation theory) as a guide for the selection of neuropsychological tests. The purpose of the paper is to review the neuropsychological outcomes of toxic exposure, with an emphasis on test sensitivity (screening) and specificity (diagnostic) to carbon disulphide (solvent), manganese (metal) and organophosphate (pesticide) exposure. Findings from this review point to the possible advantages of the continued use of standardised neuropsychological batteries that enable the assessment of global functions in addition to tests that measure deficits associated with the toxicodynamics of the neurotoxin under investigation. Methodological recommendations include the use of simultaneous cross-sectional and longitudinal designs to control for numerous confounding variables and correlation designs to determine dose-response relationships. Future studies need to address the sensitivity and specificity criteria of various neuropsychological measures utilising the principle of neurotoxicodynamics. / Dissertation (MA (Research Psychology))--University of Pretoria, 2007. / Psychology / MA / unrestricted Dynamic brain localisation theory Methodology Behavioural toxicology Carbon disulphide Subclinical assessment Theoretical review Organophosphate Psychological toxicology Neurotoxicodynamics Neurotoxicology Neuropsychological toxicology Neurobehavioural toxicology Manganese UCTD
76	Pathophysiology of Respiratory Failure Following Acute Organophosphate Poisoning : A Dissertation Gaspari, Romolo Joseph 01 December 2009 (has links) Organophosphate (OP) poisoning is a health issue worldwide with over 200,000 deaths per year. Although not a problem in most developed countries, in some third world countries, one third of a hospital’s population could be patients with OP exposure. Even with the most aggressive therapy, 10-40% of patients admitted to an intensive care unit will die. Research into the best practice for treating OP poisoning is lacking, due somewhat to a lack of detailed understanding of the physiology of OP poisoning. Our research uses animal models of acute OP poisoning to explore the mechanism of OP-induced respiratory failure. Our research shows that animals poisoned with dichlorvos demonstrated a uniformly fatal central apnea that, if prevented, was followed immediately by a variable pulmonary dysfunction. Potential mechanisms for dichlorvos-induced central apnea can be divided into direct effects on the central respiratory oscillator (CRO) and feedback inhibition of the CRO. Two afferent pathways that can induce apnea include vagal feedback pathways and feed-forward pathways from the cerebral hemispheres. In our studies we found that vagal feedback and feed forward inhibition from the cerebral hemispheres were not required for OP-induced central apnea. The pre-Botzinger complex in the brainstem is thought to be the kernel of the CRO, but exposure of the pre-Botzinger complex to dichlorvos was not sufficient for apnea. Although OP induced central apnea was uniformly fatal, partial recovery of the CRO occurred post apnea with mechanical ventilation. Central apnea was ubiquitous in our rat poisoning model, but pulmonary dysfunction was extremely variable, with a range of pulmonary effects from fulminate pulmonary failure with prominent pulmonary secretions to no pulmonary dysfunction at all. Vagal efferent activity is involved in neural control of pulmonary tissue but the vagus was not involved in OP-induced pulmonary dysfunction. Anti-muscarinic medications are the mainstay of clinical therapy and are commonly dosed by their effects on pulmonary secretions. Our studies found that atropine (the most common therapeutic agent for OP poisoning) resulted in a ventilation-perfusion mismatch secondary to effects on the pulmonary vasculature. Organophosphate Poisoning Phosphoric Acid Esters Dichlorvos Cholinesterase Inhibitors Respiratory Insufficiency Pesticides Chemical Actions and Uses Medical Toxicology Organic Chemicals
77	Pesticide Toxicants and Atherosclerosis; Role of Oxidative Stress and Dysregulated Lipid Metabolism in Human Monocytes and Macrophages Mangum, Lee Christopher 09 May 2015 (has links) Evidence suggests that pesticide exposure is a risk factor for atherosclerosis, a pathology involving oxidative stress and dysregulated cholesterol metabolism in monocytes and macrophages as vital causative factors. This research focused on understanding two different mechanisms by which organochlorine and organophosphate pesticides may contribute to atherogenesis. First, the ability of organochlorine insecticides to contribute to elevated oxidative stress was investigated. Urinary concentrations of F2-isoprostanes (a systemic oxidative stress biomarker) and serum levels of the persistent organochlorine compounds p,p’-DDE, trans-nonachlor and oxychlordane were quantified in human samples and the association of these factors with diagnosis of atherosclerosis was described in a cross-sectional study. Subsequently, the ability of three bioaccumulative organochlorine insecticides, trans-nonachlor, dieldrin and p,p’-DDE, to induce the production of superoxide radical anion via NADPH oxidase activation in cultured human THP-1 monocytes through a phospholipase A2 (PLA2)-derived arachidonic acid (AA) signaling cascade was investigated. Trans-nonachlor induced NOX-dependent generation of superoxide/ROS (as measured using three distinct assay types) and stimulated the phosphorylation and membrane translocation of the p47phox regulatory subunit (two biomarkers of Nox activation). Measurement of arachidonic acid and eicosanoid release from OC-exposed monocytes by LC-MS/MS analysis subsequently confirmed the role of PLA2 as a central signaling node in the induction of reactive oxygen production in this process. To investigate a separate mechanism by which organophosphate toxicity may contribute to atherosclerosis, the ability of the esterase/lipase carboxylesterase 1 (CES1), a major enzyme target of OP toxicants, to regulate endocannabinoid and cholesterol homeostasis in human macrophages was assessed. Experimental ablation of CES1 activity altered cholesterol uptake, but not efflux in macrophage foam cells in vitro. Numerous genes involved in the cholesterol homeostatic process, including scavenger receptors (SR-A, CD36), cholesterol transporters (ABCA1, ABCG1), nuclear receptors (LXR, PPAR) and oxysterol forming enzymes (CYP27A1), were profoundly downregulated in CES1 knockdown cells. CES1 appears to play a broad central role in both normal macrophage physiology and the homeostatic response to modified LDL, potentially by liberating esterified molecules from lipoprotein particles that serve as ligands for transcription factors such as PPAR and LXR that control the expression of genes critical to the cholesterol metabolic process. Monocytes Macrophages Reactive Oxygen Oxidative Stress Cholesterol Lipid Metabolism LDL Carboxylesterase 1 CES1 Atherosclerosis Organochlorine Organophosphate Insecticide Environmental Contaminant Human Exposure Toxicant
78	Development of Ready-to-Use Biosensors for Diagnostics and Biosensing Jahanshahi-Anbuhi, Sana 06 1900 (has links) Ideally, every person in the world should have access to a safe and clean water supply; if not all sources of water are clean and safe, at the very least, an effective method to detect water contamination should be readily available. An effective detection method should not only be sensitive, rapid, robust, and affordable, but, ideally, it should also be equipment-free and easy to transport and deliver to the end-users. The main goal of this project is to develop a variety of bits and pieces of bioassay systems, with a particular focus on paper-based bioactive devices in order to provide portable and ready-to-use biosensors which can be useable by anyone anywhere around the world without requiring formal training. According to the World Health Organization (WHO), 76,000 people each year die in India alone because of pesticide poisoning. Long term exposure to organophosphate pesticides is known to have adverse effects on neurological function and can lead to Alzheimer's Disease, Attention Deficit Hyperactivity Disorder (ADHD), and reduced Intelligence Quotient (IQ). The likelihood of long term exposure to pesticides is heightened in developing countries, so a reliable and inexpensive pesticide sensor is a much-needed device in the developing world. To address this need, this project reports on the development of a fully-automated bioactive paper-based sensor for the detection of organophosphate pesticides. In the proposed biosensor, two innovations were implemented to achieve a full-automated format for the pesticide sensor: (I) First is a PUMP ON A PAPER (Jahanshahi-Anbuhi et al., LOC, 2012) that increases the flow rate of fluids within paper-based microfluidic analytical devices and sequentially brings two separate liquid streams to the enzyme test zone on the paper sensor, and (II) the second innovation is a PIPETTE ON A PAPER (Jahanshahi-Anbuhi et al., LOC, 2014) that involved the creation of a pullulan (a natural non-ionic polysaccharide) temporary bridge-system to transfer a known amount of solution to the sensing zone that, gives the enzyme zone a chance to dry and accept the substrate solution from the slow channel after a fixed period of time. This proposed format results in a simplified assay that detects the presence of pesticides automatically without any further manipulation from the user. However, the shelf life of this assay kit is challenging due to instability of both enzyme (AChE) and substrate (IDA) at room temperature. AChE loses its enzymatic activity when stored at room temperature and IDA becomes oxidized quickly. This problem is not unique to these two bio reagents, however; almost all bioassays which use bio-reagents (such as enzymes and small-molecular substrates) are unstable to varying degrees and require special shipping and storage. The instability of these molecules can arise from either thermal denaturation or chemical modification, such as oxidation or hydrolysis. Because of these issues, they often have to be shipped on dry ice with special packaging, which is costly. The cost of maintaining a cold chain for distributing bio-reagents accounts for up to 80% of the cost. Aside from the cost, these reagents also have to be stored in bulk in refrigerators or freezers to minimize the loss of activity, but they must be thawed and aliquoted for their intended tests. Repeated freezing and thawing can result in a significant loss of activity, which often leads to less reliable test results. These issues make running such assays in resource-limited settings a significant challenge. There is, therefore, an urgent need for an assay system with stable reagents that is easy to use, simple to read, inexpensive, and that includes a method for the long-term stabilization of enzymes and other unstable reagents in pre-measured quantities. To overcome to all these issues, pullulan is utilized for the development of pill-based-biosensors. Pullulan dissolves quickly in aqueous solutions and shows very high oxygen barrier properties in its film form. Considering the unique properties of pullulan, it is hypothesized that pullulan may be suitable for producing assay pills with encapsulated enzymes or other unstable molecules and may provide a simplified platform for carrying out bioassays in resource-limited settings. The application of these pill-based-biosensors is shown via the entrapment of AChE and IDA for the creation of an assay kit that can detect organophosphate pesticides (Jahanshahi-Anbuhi et al., Angew. Chem., 2014). Moreover, this thesis reports on the stabilization of highly unstable firefly luciferase for the detection of microorganisms and, more particularly, ATP. Through the use of pullulan, this thesis demonstrates that both the enzyme and the substrate can be protected, immobilized, and stabilized at room temperature, instead of the existing storage methods, which require temperatures <-20˚C. This innovation allows for a more convenient method of shipping the bioassay kits around the world without any extra care. Furthermore, pullulan-based films are utilized for the development of a method for controlled multidirectional flow within paper-based biosensors. This method provides the possibility of trapping labile and volatile reagents and stabilizing them by forming thin films with pullulan. The trapped reagents within pullulan films can be strategically stacked and assembled on a paper strip in different directions. Furthermore, should the need arise, these reagents can be released and delivered sequentially or simultaneously in both vertical and lateral directions through the paper. The application of this method is shown for: (I) creation of "ready-to-use" assay kit for the detection of Escherichia coli (E. Coli). This assay kit has the step of cell lysing and proceeds automatically to the step in which enzymes react. The second application (II) shows the trapping of Simon’s reagents, which is widely used for methamphetamine detection. Overall, these unique fabrication techniques can be widely used for the preparation of highly stable, ready-to-use, and user-friendly biosensors. We are currently working on the detection of other contaminants such as heavy metals, and we are starting on vaccine stabilization and delivery, which would have a tremendous impact for society. / Dissertation / Doctor of Engineering (DEng) Biosensor Microfluidic Bio-active Paper Paper Based Microfluidic Devices Pullulan Pill Based Assay Reagent Release Enzyme Stabilization Organophosphate Pesticide E. coli Luciferase Luminescent Lab on Pills Pullulan Tablet Pullulan Capsule
79	The Guinea Pig Model For Organophosphate Toxicology and Therapeutic Development Ruark, Christopher Daniel 02 June 2015 (has links) No description available. Pharmacology Toxicology Biochemistry Molecular Biology organophosphate acetylcholinesterase guinea pig toxicology therapeutic recombinant PBPK QSPR allostery tissue plasma partition coefficient YASARA
80	Fabrication and use of new solid state phosphate ion selective electrodes for monitoring phosphorylation and dephosphorylation reactions Enemchukwu, Emeka Martin 06 1900 (has links) Highly selective and sensitive phosphate sensors have been fabricated by constructing a solid membrane disk consisting of variable mixtures of aluminium powder (Al), aluminium phosphate (AlPO4) and powdered copper (Cu). Both binary and ternary electrode systems are produced depending on their composition. The ternary membranes exhibit greater selectivity over a wide range of concentrations. The ternary electrode with the composition 25% AlPO4, 25% Cu and 50% Al was selected as our preferred electrode. The newly fabricated ternary membrane phosphate selective electrodes exhibited linear potential response in the concentration range of 1.0 × 10−6 to 1.0 × 10−1 mol L−1. The electrodes also exhibit a fast response time of <60 s. Their detection limit is 1.0 × 10−6 mol L−1. The unique feature of the described electrodes is their ability to maintain a steady and reproducible response in the absence of an ionic strength control. The electrodes have a long lifetime and can be stored in air when not in use. The selectivity of the new phosphate selective electrodes with respect to other common ions is excellent. The results obtained provide further insight into the working principles of the newly fabricated phosphate selective electrodes. Dephosphorylation and phosphorylation reactions were monitored using the preferred phosphate selective electrode. The following reactions were studied and inferences drawn; (a) the reactions between [{CoN4(OH)(OH2)}]2+ and [OH(PO2O)]2- for 1:1, 2:1 and 3:1 [{CoN4(OH)(OH2)}]2+ to [OH(PO2O)]2- ratios.(b) the reactions between [{CoN4(OH)(OH2)}]2+ and [O2NC6H4PO2(O)(OH)]- for 1:1, 2:1 and 3:1 [{CoN4(OH)(OH2)}]2+ to [O2NC6H4PO2(O)(OH)]- ratios. (c) the reactions between [{CoN4(OH)(OH2)}]2+ and [(OH)2(PO2)2O]2- for 1:1, 2:1 and 3:1 [{CoN4(OH)(OH2)}]2+ to [(OH)2(PO2)2O]2- ratios, and (d) the reactions between [{CoN4(OH)(OH2)}]2+ and [(OH)2(PO2)3O2]3- for the 1:1, 2:1 and 3:1 [{CoN4(OH)(OH2)}]2+ to [(OH)2(PO2)3O2]3- ratios. Further insight into dephosphorylation and phosphorylation reactions is unravelled by the novel phosphate selective electrode monitoring. *For clarity of the complexes utilized, see chapter 4, table 4.1. KEY WORDS; Dephosphorylation, phosphorylation, ion selective electrodes, phosphate ion selective electrode, decontamination, electromotive force, potential difference, activity, concentration, selectivity coefficient, calibration, ionic strength, hydrolysis, inorganic phosphates, nitrophenylphosphate, pyrophosphate, tripolyphosphate, organophosphate esters. / Chemistry / D.Phil (Chemistry) Dephosphorylation Phosphorylation Ion selective electrodes Phosphate ion selective electrode Decontamination Electromotive force Potential difference Selectivity coefficient Calibration Ionic strength Hydrolysis Inorganic phosphates Nitrophenylphosphate Pyrophosphate Tripolyphosphate Organophosphate esters 541.39 Phosphate esters Electrodes, Ion selective Calibration Phosphates Solid state chemistry

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