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Development and Investigations of Novel Sample Preparation Techniques : Electrochemical Extraction and Evaluation of Miniaturized Analytical Devices Coupled to Mass SpectrometryLiljegren, Gustav January 2005 (has links)
<p>Different sample preparation steps prior to a detection method are often essential in analytical chemistry. In this thesis, both static extractions and on-line coupled solid-phase extractions have been studied in combination with different detection techniques. Aspects of performing sample preparations in miniaturized analytical devices and the development of poly(dimethylsiloxane) (PDMS) microchips are discussed. Polypyrrole was also evaluated as an electrochemically controllable stationary phase for solid-phase microextraction (SPME) and solid-phase extraction (SPE).</p><p>The first part of this thesis describes the extraction of an organic compound from a very complex solid matrix utilizing the pressurized-fluid extraction (PFE) technique. The presented results show that PFE is easily optimized and enables rapid extractions and extracts relatively free from interferences.</p><p>An integrated three-electrode device, which enabled electrochemical (EC) SPME under potential control, was developed. With this device, both anions and cations could be extracted employing two types of polypyrrole films. Planar micro band electrodes positioned at the end of a capillary were also used to electrochemically extract and detect anions in a miniaturized flow system. Different analyte concentrations and preconcentration times were examined, and good linear correlations were found between the extraction time and the detection response. The on-line coupling of a thin layer EC cell, with a polypyrrole coated working electrode, to different mass spectrometric (MS) techniques is also described and evaluated. The results show that EC-SPE, employing polypyrrole as stationary phase, can be used as a preconcentration step prior to detection.</p><p>In addition, this thesis describes the development and on-line coupling of a microelectrode array equipped PDMS microchip with an integrated graphite electrospray emitter to electrospray ionization (ESI) MS. The system enabled short transfer times and an EC conversion efficiency of 30% at a flow rate of 0.5 μL/min. The on-line EC/ESI-MS experiments were significantly simplified using a wireless Bluetooth battery-powered EC instrument.</p>
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Development of Field-adapted Analytical Methods for the Determination of New Antimalarial Drugs in Biological FluidsLindegårdh, Niklas January 2003 (has links)
This thesis deals with the development of analytical methods for the determination of new antimalarial drugs in biological fluids. The goal was to develop methods that facilitate clinical studies performed in the field, such as capillary blood sampling onto sampling paper. Methods for the determination of atovaquone (ATQ) in plasma, whole blood and capillary blood applied onto sampling paper were developed and validated. Automated solid-phase extraction (SPE) and liquid chromatography (LC) with UV absorbance detection was used to quantify ATQ. Venous blood contained higher levels of ATQ than capillary blood after a single dose of Malarone (ATQ + proguanil). Ion-pairing LC was used to separate amodiaquine (AQ), chloroquine (CQ) and their metabolites on a CN-column. A method for quantification of AQ, CQ and their metabolites in capillary blood applied onto sampling paper was developed and validated. Perchloric acid and acetonitrile were used to facilitate the extraction of the analytes from the sampling paper. The liquid extract was further cleaned by SPE. Methods for the determination of piperaquine (PQ) in plasma and whole blood using SPE and LC were developed and validated. Addition of trichloroacetic acid (TCA) to the samples prior to injection into the LC-system significantly enhanced the efficiency for the PQ peak. Serum and whole blood contained higher levels (about 300 nM) of PQ than plasma (about 200 nM) after a single oral dose of 340 mg PQ. This indicates that PQ may be taken up in the leucocytes and thrombocytes.
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Development and Investigations of Novel Sample Preparation Techniques : Electrochemical Extraction and Evaluation of Miniaturized Analytical Devices Coupled to Mass SpectrometryLiljegren, Gustav January 2005 (has links)
Different sample preparation steps prior to a detection method are often essential in analytical chemistry. In this thesis, both static extractions and on-line coupled solid-phase extractions have been studied in combination with different detection techniques. Aspects of performing sample preparations in miniaturized analytical devices and the development of poly(dimethylsiloxane) (PDMS) microchips are discussed. Polypyrrole was also evaluated as an electrochemically controllable stationary phase for solid-phase microextraction (SPME) and solid-phase extraction (SPE). The first part of this thesis describes the extraction of an organic compound from a very complex solid matrix utilizing the pressurized-fluid extraction (PFE) technique. The presented results show that PFE is easily optimized and enables rapid extractions and extracts relatively free from interferences. An integrated three-electrode device, which enabled electrochemical (EC) SPME under potential control, was developed. With this device, both anions and cations could be extracted employing two types of polypyrrole films. Planar micro band electrodes positioned at the end of a capillary were also used to electrochemically extract and detect anions in a miniaturized flow system. Different analyte concentrations and preconcentration times were examined, and good linear correlations were found between the extraction time and the detection response. The on-line coupling of a thin layer EC cell, with a polypyrrole coated working electrode, to different mass spectrometric (MS) techniques is also described and evaluated. The results show that EC-SPE, employing polypyrrole as stationary phase, can be used as a preconcentration step prior to detection. In addition, this thesis describes the development and on-line coupling of a microelectrode array equipped PDMS microchip with an integrated graphite electrospray emitter to electrospray ionization (ESI) MS. The system enabled short transfer times and an EC conversion efficiency of 30% at a flow rate of 0.5 μL/min. The on-line EC/ESI-MS experiments were significantly simplified using a wireless Bluetooth battery-powered EC instrument.
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Ungesättigte Dithioetherliganden : selektive Extraktionsmittel für die Gewinnung von Palladium(II) aus Sekundärrohstoffen / Unsaturated dithioether ligands : selective extractants for the recovery of Palladium(II) from secondary sourcesTraeger, Juliane January 2012 (has links)
Die Entwicklung neuer Verfahren für die Rückführung von Palladium aus Altmaterialien, wie gebrauchten Autoabgaskatalysatoren, in den Stoffstromkreislauf ist sowohl aus ökologischer als auch ökonomischer Sicht erstrebenswert. In dieser Arbeit wurden neue Flüssig-Flüssig- und Fest-Flüssig-Extraktionsmittel entwickelt, mit denen Palladium(II) aus einer oxidierenden, salzsauren Laugungslösung, die neben Palladium auch Platin und Rhodium sowie zahlreiche unedle Metalle enthält, zurückgewonnen werden kann. Die neuen Extraktionsmittel ungesättigte monomere 1,2-Dithioether und oligomere Ligandenmischungen mit vicinalen Dithioether-Einheiten – sind im Gegensatz zu vielen in der Literatur aufgeführten Extraktionsmitteln hochselektiv. Aufgrund ihrer geometrischen und elektronischen Präorganisation bilden sie mit Palladium(II) stabile quadratisch-planare Chelatkomplexe. Für die Entwicklung des Flüssig-Flüssig-Extraktionsmittels wurde eine Reihe von ungesättigten 1,2-Dithioetherliganden dargestellt, welche auf einer starren 1,2-Dithioethen-Einheit, die in ein variierendes elektronenziehendes Grundgerüst eingebettet ist, basieren und polare Seitenketten besitzen. Neben der Bestimmung der Kristallstrukturen der Liganden und ihrer Palladiumdichlorid-Komplexe wurden die elektro- und photochemischen Eigenschaften, die Komplexstabilität und das Verhalten in Lösung untersucht. In Flüssig-Flüssig-Extraktionsuntersuchungen konnte gezeigt werden, dass einige der neuen Liganden industriell genutzten Extraktionsmitteln durch eine schnellere Einstellung des Extraktionsgleichgewichts überlegen sind. Anhand von Kriterien, die für eine industrielle Nutzbarkeit entscheidend sind, wie: guter Oxidationsbeständigkeit, einer hohen Extraktionsausbeute (auch bei hohen Salzsäurekonzentrationen der Speiselösung), schneller Extraktionskinetik und einer hohen Selektivität für Palladium(II) wurde aus der Reihe der sechs Liganden ein geeignetes Flüssig-Flüssig-Extraktionsmittel ausgewählt: 1,2-Bis(2-methoxyethylthio)benzen. Mit diesem wurde ein praxisnahes Flüssig-Flüssig-Extraktionssystem entwickelt. Nach der schrittweisen Adaption der wässrigen Phase von einer Modelllösung hin zu der oxidierenden, salzsauren Laugungslösung erfolgte die Auswahl eines geeigneten großtechnisch, einsetzbaren Lösemittels (1,2-Dichlorbenzen) und eines effizienten Reextraktionsmittels (0,5 M Thioharnstoff in 0,1 M HCl). Die hohe Palladium(II)-Selektivität dieses Flüssig-Flüssig-Extraktionssystems konnte verifiziert und seine Wiederverwendbarkeit und Praxistauglichkeit unter Beweis gestellt werden. Weiterhin wurde gezeigt, dass sich beim Kontakt mit oxidierenden Medien aus dem Dithioether 1,2-Bis(2-methoxyethylthio)benzen geringe Mengen des Thioethersulfoxids 1-(2-Methoxyethylsulfinyl)-2-(2-methoxyethylthio)benzen bilden. Dieses wird im sauren Milieu protoniert und beschleunigt die Extraktion wie ein Phasentransferkatalysator, ohne jedoch die Palladium(II)-Selektivität herabzusetzen. Die Kristallstruktur des Palladiumdichlorid-Komplexes des Tioethersulfoxids zeigt, dass der unprotonierte Ligand Palladium(II), analog zum Dithioether, über die chelatisierenden Schwefelatome koordiniert. Verschiedene Mischungen von Oligo(dithioether)-Liganden und der monomere Ligand 1,2-Bis(2-methoxyethylthio)benzen dienten als Extraktionsmittel für Fest-Flüssig-Extraktionsversuche mit SIRs (solvent impregnated resins) und wurden zu diesem Zweck auf hydrophilem Kieselgel und organophilem Amberlite® XAD 2 adsorbiert. Die Oligo(dithioether)-Liganden basieren auf 1,2-Dithiobenzen oder 1,2-Dithiomaleonitril-Einheiten, welche über Tris(oxyethylen)ethylen- oder Trimethylen-Brücken miteinander verknüpft sind. Mit Hilfe von Batch-Versuchen konnte gezeigt werden, dass sich strukturelle Unterschiede - wie die Art der chelatisierenden Einheit, die Art der verbrückenden Ketten und das Trägermaterial - auf die Extraktionsausbeuten, die Extraktionskinetik und die Beladungskapazität auswirken. Die kieselgelhaltigen SIRs stellen das Extraktionsgleichgewicht viel schneller ein als die Amberlite® XAD 2-haltigen. Jedoch bleiben die Extraktionsmittel auf Amberlite® XAD 2, im Gegensatz zu Kieselgel, dauerhaft haften. Im salzsauren Milieu sind die 1,2-Dithiobenzen-derivate besser als Extraktionsmittel geeignet als die 1,2-Dithiomaleonitrilderivate. In Säulenversuchen mit der oxidierenden, salzsauren Laugungslösung und wiederverwendbaren, mit 1,2-Dithiobenzenderivaten imprägnierten, Amberlite® XAD 2-haltigen SIRs zeigte sich, dass für die Realisierung hoher Beladungskapazitäten sehr geringe Pumpraten benötigt werden. Trotzdem konnte die gute Palladium(II)-Selektivität dieser Festphasenmaterialien demonstriert werden. Allerdings wurden in den Eluaten im Gegensatz zu den Eluaten, die aus Flüssig-Flüssig-Extraktion resultierten neben dem Palladium auch geringe Mengen an Platin, Aluminium, Eisen und Blei gefunden. / The development of new processes for the recovery of palladium from recycling materials like spent automotive catalysts is of economic and ecologic interest. In this thesis new solvent and solid phase extractants have been designed, which are suitable for the recovery of palladium(II) from an oxidising hydrochloric leach liquor that does not only additionally contain platinum and rhodium but also a number of base metals. In contrast to many extractants described in the literature these new extractants – unsaturated monomeric dithioethers as well as oligomeric mixtures of ligands with vicinal dithioether units – are highly selective for palladium(II). Due to their geometric and electronic preorganisation they form stable square-planar chelate complexes with palladium(II). For the development of the solvent extractant a series of unsaturated dithioethers, which are based on a rigid 1,2-dithioethene unit that is imbedded in an electron-withdrawing backbone, with polar end-groups has been synthesised. In addition to the determination of the crystal structures of the ligands and their dichloridopalladium complexes, the electro- and photochemical properties, the complex stabilities and the behaviour in solution have been investigated. Solvent extraction experiments showed the superiority of some of our ligands over conventionally used extractants in terms of their very fast reaction rates. Considering criteria that are essential for industrial utilisation like: robustness towards oxidation, achieving of high extraction yields (even at a high hydrochloric acid content of the leach liquor), fast extraction kinetics and a high selectivity for palladium(II), 1,2-bis(2-methoxyethylthio)benzene was selected as the extractant of choice. Building on this a solvent extraction system close to industrial practice was devised. After stepwise adaption of the aqueous phase from a model solution to the oxidising hydrochloric leach liquor, the selection of a diluent suitable for commercial operations (1,2-dichlorobenzene) and of an efficient stripping agent (0.5 M thiourea in 0.1 M HCl) has been accomplished. The high selectivity of that solvent extraction system for palladium(II) could be verified and its reusability and suitability for practical application have been proven. Further it was shown that small amounts of the thioether sulfoxide 1-[(2-methoxyethyl)sulfanyl]-2-[(2-methoxyethyl)sulfinyl]benzene form when the dithioether ligand 1,2-bis(2-methoxyethylthio)benzene gets in contact with oxidising media. Under acidic conditions this thioether sulfoxide gets protonated and accelerates the extraction like a phase transfer catalyst; without decreasing the selectivity for palladium(II). The molecular structure of the corresponding dichloridopalladium complex reveals that the nonprotonated ligand coordinates palladium(II) in a similar manner to the dithioether via the chelating sulfur atoms. Mixtures of oligo(dithioether) ligands and the monomeric 1,2-bis(2-methoxyethylthio)benzene have been adsorbed on silica gel and amberlite® XAD 2. These SIRs (solvent impregnated resins) have been used for solid phase extraction experiments. The oligo(dithioether) ligands are based on 1,2- dithiobenzene or 1,2-dithiomaleonitrile units, which are connected via tris(oxyethylene)ethylene or trimethylene chains. With the help of batch experiments it could be shown how structural differences, like the chelating unit, the kind of linking chain and the type of supporting material, impact the extraction yield, kinetics and loading capacity. The SIRs containing silica gel establish the extraction equilibrium much faster than those containing amberlite® XAD 2. On the other hand, the extractants permanently remain on amberlite® XAD 2, in contrast to silica gel. In a hydrochloric medium 1,2-dithiobenzene derivatives are better extractants than 1,2-dithiomaleonitrile derivatives. In column experiments with the oxidising hydrochloric leach liquor and reusable SIRs based on 1,2-dithiobenzene derivatives impregnated into amberlite® XAD 2, it appeared that for the implementation of high loading capacities very low flow rates are required. The selectivity for palladium(II) of these solid phase extractants could be demonstrated, although the eluates, in contrast to the eluates gained from the solvent extraction experiments, contained not only palladium but also small amounts of platinum, aluminium, iron and lead.
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Quantification of resin acids, fatty acids and sterols in process and waste water from forest industry / Kvantifiering av hartssyror, fettsyror och steroler i process och avloppsvatten från skogsindustrinIsmailov, Taner January 2013 (has links)
This work focuses on wood extractives in effluents from the CTMP plant at Skoghall Mill. Pulp and paper industry effluents contain mostly natural compounds which are part of the trees. They are toxic to aquatic life but harmless in nature, as they are present in low concentrations. Processing tons of wood, such as in a pulp mill, strongly increases the concentrations of the toxic compounds (Ali, M. and Sreekrishnan, T., 2001) which have to be treated before transferring to the aquatic environment.Extractives can be found in different forms, as micelles soluble in water, unprocessed in fibers or absorbed on the surface of fibers. It is important to know in which forms extractives are mostly present in the effluent, so that they can be treated more efficiently. It is desired to have extractives absorbed on the fibers and fibrils present in the waste water, so they can be separated from the water and treated separately, e.g. burned for energy recovery. Dissolved extractives complicate the oxygen transfer in an aerated biological treatment step with their surface active properties (Sandberg, 2012).The aim of this study is quantification of extractives on the fibers suspended in the waste water and extractives dissolved in the water. The distribution between the two forms is an important input when designing future effluent treatment. Wood extractives itself are a wide group with different compounds. This work focuses on the main groups present in waste water: resin acids, free and esterified fatty acids and, free and esterified sterols. These groups are analyzed in different process waters and waste water before the waste water treatment plant. The measured concentrations of extractives were as expected, higher in process and effluent waters, lower in white water. Most of the extract was dissolved in the water and unfortunately fiber samples contained very low concentration from the total extract in the samples.
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Molecularly Imprinted Polymers: Towards a Rational Understanding of Biomimetic MaterialsMolinelli, Alexandra Lidia 22 November 2004 (has links)
The research described in this thesis contributes to the development of new strategies facilitating advanced understanding of the fundamental principles governing selective recognition of molecularly imprinted polymers (MIPs) at a molecular level for the rational optimization of biomimetic materials. The nature of non-covalent interactions involved in the templating process of molecularly imprinted polymers based on the self-assembly approach were investigated with a variety of analytical techniques addressing molecular level interactions. For this purpose, the concerted application of IR and 1H-NMR spectroscopy enabled studying the complexation of the template molecules 2,4-dichlorophenoxyacetic acid, quercetin, and o-, m-, and p-nitrophenol with a variety of functional monomers in the pre-polymerization solution by systematically varying the ratio of the involved components. In aqueous and non protic porogenic solvents, information on the interaction types, thermodynamics, and complex stoichiometry was applied toward predicting the optimum imprinting building blocks and ratios. Molecular dynamics simulations of 2,4-dichlorophenoxyacetic acid and its interactions with the functional monomer 4-vinylpyridine in aqueous and aprotic explicit solvent allowed demonstrating the fundamental potential of computer MD simulations for predicting optimized pre-polymerization ratios and the involved interaction types. The obtained results clearly demonstrate that the application of rapid IR/NMR pre-screening methods in combination with molecular modeling strategies is a promising strategy towards optimized imprinting protocols in lieu of the conventionally applied labor intensive and time-consuming trial-and-error approach. Furthermore, HPLC characterization of the produced MIPs compared to control polymers enabled a systematic approach to imprinting based on advanced understanding of the factors governing the formation of high-affinity binding sites during the polymerization. In addition, the importance of the combination of size, shape, and molecular functionalities for the selective recognition properties of MIPs was investigated. MIPs for the mycotoxins deoxynivalenol and zearalenone and for the antioxidant quercetin were applied as separation materials for advanced sample preparation in beverage analysis. The obtained results demonstrated the potential of MIPs for rapid one-step sample clean-up and pre-concentration from beverages such as wine and beer.
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Glycopeptide Enrichment Workflows for Downstream Mass Spectrometric AnalysisBodnar, Edward 01 November 2013 (has links)
Mass spectrometry (MS) is a power analytical tool which is capable of analyzing biomolecules in great detail, both structurally and quantitatively. With regards to glycans, special considerations regarding sample preparation are necessary in order to achieve reproducible identification and relative quantification of these analytes. A workflow for isolation at the glycopeptide level and subsequent detection at the glycan level with phenylhydrazine, demonstrated that monoclonal antibodies (mAbs) containing a specific amino acid mutation were able to express approximately an additional 50% of the α2,6 disialylated glycan compared to their non-mutant analogues. In a second experiment using mAbs, an azide modified glycan (Ac4ManAz) was introduced both metabolically and enzymatically during mAb production. This glycan is a precursor in the sialic acid pathway and the azide moiety allows for specific chemistry post-production including the potential for highly specific enrichment. The results of this workflow demonstrated that [100 μM] of Ac4ManAz precursor added to the cell media was necessary for metabolic expression. More complex samples however, may contain multiple sites of glycosylation. To conserve the site of attachment, these molecules are often studied at the glycopeptide level, and require enrichment of glycopeptides to improve the lower signal intensity observed in the presence of co-eluting peptides. Carboxymethyl chitosan (CMCH) as well as amine-functionalized magnetic-nanoparticles (MNP) were developed as novel materials for this purpose. CMCH is naturally occurring, and therefore is cost-effective and readily available. In a 12 protein mixture CMCH demonstrated the bulk enrichment of glycopeptides yielding an approximately 20% higher enrichment of sialylated species as compared to a commercially available glycopeptide kit through the use of tandem mass tags for relative quantification. In the same approach, amine functionalized MNP were produced and used to enrich glycopeptides from tryptic digests. This approach was fast (about 10 mins) and quantitatively demonstrated improved retention for sialylated species. Examples of these techniques and their applications are reported in this work. / October 2015
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Development and Validation of Bioanalytical Methods : Application to Melatonin and Selected Anti-Infective DrugsRömsing, Susanne January 2010 (has links)
This thesis describes bioanalytical methods for measuring melatonin and some anti-infective drugs in biological fluids. Solid-phase extraction (SPE) or protein precipitation was used for enrichment and purification of the analytes and Liquid Chromatography (LC) was used to analyze the samples. Developed methods were validated according to international guidelines. Melatonin is a hormone secreted by the pineal gland with a robust circadian rhythm. Bioanalytical methods for determination of melatonin in plasma and saliva have been developed which were used for monitoring melatonin levels in volunteers and patients suffering from sleep related diseases. Eflornithine (DFMO) is a chiral drug used for the treatment of human African trypanosomiasis. A bioanalytical method for determination of the DFMO enantiomers in plasma, after precolumn derivatization with o-phtalaldehyde and N-acetyl-L-cystein has been developed. The method has been used to study the L- and D-DFMO pharmacokinetics, in order to investigate the possible development of an oral treatment of DFMO. A method for simultaneous determination of three antiretroviral drugs i.e. Lamivudine (3TC), Zidovudine (AZT) and Nevirapine (NVP) in dried blood spots (DBS) was developed. The method was used for drug determination in two subjects after receiving standard antiretroviral treatment. The method seemed well suitable for the determination of 3TC and NVP and in some extent for AZT. Lumefantrine (LF) is one of the active components in a new fixed drug combination recommended by the WHO as a replacement to older drugs that has lost their effect. A method for the determination of LF in DBS was developed. The method is suitable for monitoring of drug treatment in rural settings. Tafenoquine is a new promising antimalarial drug under development. A method for the determination of Tafenoquine in plasma and in DBS is described. The method may be useful in future clinical studies in laboratory environment as well as in rural settings. / Felaktigt tryckt som Digital Comprehensive Summaries of Uppsala Dissertations from the Faculty of Science and Technology 703
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Studies on the metabolism of ochratoxin A / Maria Aletta StanderStander, Maria Aletta January 1999 (has links)
The ochratoxins, metabolites of certain Aspergillus and Penicillium species are the first group
of mycotoxins discovered subsequent to the epoch-making discovery of the aflatoxins.
Ochratoxin A (OTA) is a very important mycotoxin owing to its frequent occurrence in
nature, its established role in Danish porcine nephropathy and in poultry mycotoxicoses and
its implicated role in Balkan endemic nephropathy and urinary system tumors among
population groups in North Africa. Chapters 2 and 3 highlight the importance of OTA and
the research currently being done on mycotoxins. These efforts are focused on the molecular
genetics of toxinogenic fungi; the mechanism of their action; species differences in
metabolism and pharmacokinetics; quantification of mycotoxins; risk assessments on the
exposure of man and animals to mycotoxins and regulations for the control of mycotoxin
contamination.
Methods developed to analyse OTA in different matrices by using reversed phase high
performance-liquid chromatography with fluorescence detection and tandem liquid
chromatography-mass spectrometry techniques are described in Chapter 10. Amino propyl
solid phase extraction columns were used for the first time in cleanup steps of ochratoxin
analysis. These techniques and methods were applied to the first survey on the levels of OTA
in coffee on the South African retail market (Chapter 5). The results suggest that the levels
of OT A in the coffee on the South African market are somewhat higher than the levels of
OTA in coffees on the European market.
The possibility to biologically produce different halogen-ochratoxins by supplementing the
growth medium of Aspergillus ochraceus with halogen salts was investigated. Bromoochratoxin
A was produced for the first time in this way. Supplementation of inoculated
wheat with potassium iodide and -fluoride resulted in the poisoning of the yeast and no iodoor
fluoro-ochratoxin B was produced. It was found that Aspergillus ochraceus produced OTA
in higher yields at elevated levels of potassium chloride. This finding has important
commercial applications in the production ofOTA (Chapter 4).
The ochratoxins are hydrolyzed in vivo by carboxypeptidase A. The hydrolysis of the
ochratoxins and analogues by carboxypeptidase A was measured in vitro in a structurefunction
relation study by employing mass spectrometric techniques. The kinetic data of the
ochratoxins were compared to the values of a number of synthesized structural analogues. It
was found that the halogen containing analogues had lower turnovers than their des-halo
analogues. There were no substantial differences in the kinetic data between the different
halogen containing analogues (Chapter 8).
The toxicokinetics of OTA in vervet monkeys were determined for the first time. The
clearance of OTA from the plasma suggested a two-compartment model and the elimination
half-life was determined to be 19-21 days. The half-life of OTA in humans was determined
by allometric calculations to be 46 days. We came to the conclusion that the long term
consumption of OT A contaminated foods will lead to potentially hazardous levels of the toxin
in the body (Chapter 9). This hypothesis can be substantiated by the incidence of OTA in the
blood of various population groups.
Possible ways to decontaminate OT A contaminated foods by degrading the compound
biologically with yeast; moulds or lipases to non-toxic compounds were investigated. Eight
moulds, 323 yeasts and 23 lipases were screened for ochratoxin degradation. A lipase from
Aspergillus niger is the first lipase that was proven to degrade OTA (Chapter 7). Four yeasts
were found to degrade OT A of which one, Trichosporon mucoides degraded OTA
substantially within 48 hours in a growing culture (Chapter 6). In addition to this first report
of yeasts which have the ability to degrade OTA, the fungi Cochliobolus sativus, Penicillium
islandicum and Metarhizium anispoliae also proved to degrade OT A. OT A was degraded in
all instances to the non-toxic ochratoxin a and the amino acid phenylalanine. / Thesis (PhD (Chemistry))--Potchefstroom University for Christian Higher Education, 2000
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Studies on the metabolism of ochratoxin A / Maria Aletta StanderStander, Maria Aletta January 1999 (has links)
The ochratoxins, metabolites of certain Aspergillus and Penicillium species are the first group
of mycotoxins discovered subsequent to the epoch-making discovery of the aflatoxins.
Ochratoxin A (OTA) is a very important mycotoxin owing to its frequent occurrence in
nature, its established role in Danish porcine nephropathy and in poultry mycotoxicoses and
its implicated role in Balkan endemic nephropathy and urinary system tumors among
population groups in North Africa. Chapters 2 and 3 highlight the importance of OTA and
the research currently being done on mycotoxins. These efforts are focused on the molecular
genetics of toxinogenic fungi; the mechanism of their action; species differences in
metabolism and pharmacokinetics; quantification of mycotoxins; risk assessments on the
exposure of man and animals to mycotoxins and regulations for the control of mycotoxin
contamination.
Methods developed to analyse OTA in different matrices by using reversed phase high
performance-liquid chromatography with fluorescence detection and tandem liquid
chromatography-mass spectrometry techniques are described in Chapter 10. Amino propyl
solid phase extraction columns were used for the first time in cleanup steps of ochratoxin
analysis. These techniques and methods were applied to the first survey on the levels of OTA
in coffee on the South African retail market (Chapter 5). The results suggest that the levels
of OT A in the coffee on the South African market are somewhat higher than the levels of
OTA in coffees on the European market.
The possibility to biologically produce different halogen-ochratoxins by supplementing the
growth medium of Aspergillus ochraceus with halogen salts was investigated. Bromoochratoxin
A was produced for the first time in this way. Supplementation of inoculated
wheat with potassium iodide and -fluoride resulted in the poisoning of the yeast and no iodoor
fluoro-ochratoxin B was produced. It was found that Aspergillus ochraceus produced OTA
in higher yields at elevated levels of potassium chloride. This finding has important
commercial applications in the production ofOTA (Chapter 4).
The ochratoxins are hydrolyzed in vivo by carboxypeptidase A. The hydrolysis of the
ochratoxins and analogues by carboxypeptidase A was measured in vitro in a structurefunction
relation study by employing mass spectrometric techniques. The kinetic data of the
ochratoxins were compared to the values of a number of synthesized structural analogues. It
was found that the halogen containing analogues had lower turnovers than their des-halo
analogues. There were no substantial differences in the kinetic data between the different
halogen containing analogues (Chapter 8).
The toxicokinetics of OTA in vervet monkeys were determined for the first time. The
clearance of OTA from the plasma suggested a two-compartment model and the elimination
half-life was determined to be 19-21 days. The half-life of OTA in humans was determined
by allometric calculations to be 46 days. We came to the conclusion that the long term
consumption of OT A contaminated foods will lead to potentially hazardous levels of the toxin
in the body (Chapter 9). This hypothesis can be substantiated by the incidence of OTA in the
blood of various population groups.
Possible ways to decontaminate OT A contaminated foods by degrading the compound
biologically with yeast; moulds or lipases to non-toxic compounds were investigated. Eight
moulds, 323 yeasts and 23 lipases were screened for ochratoxin degradation. A lipase from
Aspergillus niger is the first lipase that was proven to degrade OTA (Chapter 7). Four yeasts
were found to degrade OT A of which one, Trichosporon mucoides degraded OTA
substantially within 48 hours in a growing culture (Chapter 6). In addition to this first report
of yeasts which have the ability to degrade OTA, the fungi Cochliobolus sativus, Penicillium
islandicum and Metarhizium anispoliae also proved to degrade OT A. OT A was degraded in
all instances to the non-toxic ochratoxin a and the amino acid phenylalanine. / Thesis (PhD (Chemistry))--Potchefstroom University for Christian Higher Education, 2000
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