MATERIALS, METHODS, AND INSTRUMENTATION FOR PREPARATIVE-SCALE ISOELECTRIC TRAPPING SEPARATIONS

North, Robert Yates

2009 May 1900

Isoelectric trapping (IET) has become an accepted preparative-scale electrophoretic separation technique. However, there are still a number of shortcomings that limit its utility. The performance of the current preparative-scale IET systems is limited by the serial arrangement of the separation compartments, the difficulties in the selection of the appropriate buffering membranes, the effect of Joule heating that may alter separation selectivity and a lack of methods for the determination of the true, operational pH value inside the buffering membranes. In order to bolster the current membrane pH determination methods which rely on the separation of complex ampholytic mixtures, a fluorescent carrier ampholyte mixture was synthesized. The use of a fluorescent mixture allows for a reduced load of carrier ampholytes, thereby reducing a possible source of error in the pH determinations. A mixture of carrier ampholytes tagged with an alkoxypyrenetrisulfonate fluorophore was shown to have suitable fluorescence and ampholytic properties and used to accurately determine the pH of high pH buffering membranes under actual IET conditions. In a more elegant solution to the difficulties associated with pH determinations, a method utilizing commercial UV-transparent carrier ampholytes as the ampholyte mixture to be separated was developed. By using commercial carrier ampholytes and eliminating the need to synthesize, purify, and blend fluorescently tagged ampholytes, the new method greatly simplified the determination of the operational pH value of the buffering membranes. In order to address the remaining limitations, a new system has been developed that relies on (i) parallel arrangement of the electrodes and the collection compartments, (ii) a directionally-controlled convection system for the delivery of analytes, (iii) short anode-to-cathode distances, (iv) short intermembrane distances, and (v) an external cooling system. This system has been tested in four operational modes and used for the separation of small molecule ampholytic mixtures, for the separation of protein isoforms, and direct purification of a target pI marker from a crude reaction mixture.

Preparative electrophoresis

Buffering membrane

Desalting

Isoelectric trapping

Multi-compartmental electrolyzer

carrier ampholyte

pH determination

protein separation

isoelectric focusing

fluorescent carrier ampholyte

Charakterizace nízkomolekulárních syntetických markerů izoelektrických bodů kapilární zónovou elektroforézou a kapilární izoelektrickou fokusací / Characterization of low-molecular-mass synthetic markers of isoelectric points by capillary zone electrophoresis and capillary isoelectric focusing

Brandejsová, Martina

January 2012

High-performance electromigration separation methods, capillary zone electrophoresis (CZE) and capillary isoelectric focusing (CIEF), have been applied to physico-chemical characterization of new synthetic low-molecular mass markers of isoelectric points. Amphoteric compounds on the basis of aminomethylnitrophenols, their derivatives and other structurally related substances were analyzed by CZE in a series of background electrolytes in a wide pH range, 1.86 - 11.18. From the measured pH dependencies of effective electrophoretic mobilities of analytes (beforehand corrected to reference temperature of 25 řC), their isoelectric points (pI) were determined. In addition, using the non-linear regression analysis of the above dependencies, acid-base dissociation constants (pKa) of ionogenic groups of selected analytes were calculated. Subsequently, the analytes with sharply defined isoelectric points were analyzed by CIEF. CIEF confirmed applicability of these compounds as markers of isoelectric points for calibration of pH gradient in CIEF in the determination of pI of amphoteric compounds, especially peptides and proteins. The determined pKa values of ionogenic groups in particular compounds will be utilized in the development of new pI markers with desired pI values.

A biochemical and immunological study of horseradish peroxidase

Odendaal, Ruenda

12 1900

Thesis (MSc (Biochemistry))--University of Stellenbosch, 2009. / ENGLISH ABSTRACT: This study describes: a) the isolation and purification of horseradish peroxidase isoenzymes from horseradish roots, b) the characterization of various forms and components of the enzyme by cation-exchange and reversed-phase high performance liquid chromatography, c) the preparation of antibodies against horseradish peroxidase isoenzymes, d) immunological studies for the development of an isoenzyme quantification method and e) the formation of an enzyme-melamine conjugate for use in a melamine quantification immunoassay. / AFRIKAANSE OPSOMMING: Hierdie studie beskryf: a) die isolering en suiwering van peperwortel-peroksidase-isoënsieme vanuit die peperwortel, b) die karakterisering van verskillende vorme en komponente van dié ensiem deur katioonuitruilings en omgekeerde-fase HPLC c) die voorbereiding van teenliggaampies vir peperwortel-peroksidase-isoënsieme, d) immunologiese studies vir die ontwikkeling van 'n isoënsiem-kwantifiseringsmetode; en e) die vorming van 'n ensiem-melamien-konjugaat vir gebruik in 'n melamienkwantifiseringsmetode.

Horseradish peroxidase

Isoelectric focusing

HPLC

Dissertations -- Biochemistry

Theses -- Biochemistry

Peroxidase -- Analysis

Isoensymes

Fluorescent Reagents to Improve the Analytical Infrastructure of Capillary Electrophoretic Separations

Li, Ming-Chien

2012 May 1900

Two types of fluorescent molecules had been designed and synthesized to improve the analytical infrastructure of capillary electrophoretic separations. First, a hydrophilic version of the permanently cationic acridine-based fluorophore, HEG2Me2-DAA was synthesized. HEG2Me2-DAA has a lambda^ex max of 490 nm which matches the 488 nm line of the commonly used argon ion laser. The emission spectra of HEG2Me2-DAA are pH-independent. HEG2Me2-DAA was used in capillary electrophoresis with an aqueous background electrolyte and was found to be free of the detrimental peak tailing of the acridine orange-based fluorophore that was caused by adsorption on the inner wall of the fused silica capillary. Bovine serum albumin was labeled with excess of the designed amine reactive reagent and the lowest concentration at which the tagged bovine serum albumin was tested was 15 nM. Chicken ovalbumin was also labeled with FL-CA-PFP and analyzed by capillary isoelectric focusing (cIEF) with LIF detection. The pI values of the tagged proteins shifted in the alkaline direction by about 0.02 compared to the pI values of the non-tagged proteins. A tri-functional probe intended to enable selective enrichment and selective detection of a variety of molecules (e.g., natural products, pharmaceuticals, inhibitors, etc.) was also designed and synthetized by combining FL-CA with biotin and an azide group in a "proof-of-principle" level experiment. In cIEF, the profile of the pH gradient can only be determined with the help of pI markers. A large set of pyrene-based fluorescent pI markers was rationally designed to cover the pI range 3 to 10. To prove the feasibility of the proposed synthetic approach, the subgroup of the pI markers having the greatest structural complexity was synthesized and characterized. The classical zone electrophoretic pI determination methods failed due to severe chromatographic retention of the APTS based pI markers on the capillary wall. Exploratory work was done to design a new pI value determination method that combines the advantages of the immobilized pH gradient technology of the OFFGEL instrument and the carrier-ampholyte-based IEF technology. The method aspects of cIEF have also been improved in this work. The new segmented loading method yielded a more linear pH gradient than the previously known cIEF methods. To exploit a unique property of the newly developed fluorescent pI markers, we used them as pyrene-based ampholytic carbohydrate derivatizing reagents. The pI4 carbohydrate derivatization reagent proved advantageous over 8-aminopyrene-1,3,6-trisulfonic acid (APTS): the pI4 conjugates have higher molar absorbance at 488 nm than the APTS conjugates and become detectable in positive ion mode of MS affording better detection sensitivity.

Capillary electrophoresis

isoelectric focusing

fluorescent amine derivatizing reagent

fluorescent pI markers

Investigation of the Feasibility of Manufacturing Solid Oxide Fuel Cell Graded Electrolytes by Suspension Plasma Spraying

Arevalo-Quintero, Olga Lucia

31 August 2012

Solid oxide fuel cell compositionally graded electrolytes could offer the advantage of improving electrical performance and efficiency compared to single-layered or bi-layered yttria stabilized zirconia and samaria doped ceria electrolytes and improving mechanical performance by reducing thermal expansion mismatch stresses compared to bi-layered electrolytes with sharp interfaces. Manufacturing of these graded structures is difficult if implementing conventional wet ceramic techniques. Suspension plasma spraying is an emerging technology that has the potential to rapidly produce thin, dense ceramic layers with no requirement for post deposition heat treatments. However, SPS requires a careful examination of the stability of the feedstock suspensions in order to produce high quality coatings. Optimum suspension formulations with excellent particle dispersion were designed based on rheological and electrostatic stability measurements. These optimized suspensions were used as feedstocks for the fabrication of suspension plasma sprayed compositionally graded YSZ/SDC layers. The feasibility of fabricating graded electrolyte structures was thus demonstrated.

Graded YSZ/SDC electrolyte

Electrostatic stability

Isoelectric point

Suspension plasma spraying

0548

Investigation of the Feasibility of Manufacturing Solid Oxide Fuel Cell Graded Electrolytes by Suspension Plasma Spraying

Arevalo-Quintero, Olga Lucia

31 August 2012

Solid oxide fuel cell compositionally graded electrolytes could offer the advantage of improving electrical performance and efficiency compared to single-layered or bi-layered yttria stabilized zirconia and samaria doped ceria electrolytes and improving mechanical performance by reducing thermal expansion mismatch stresses compared to bi-layered electrolytes with sharp interfaces. Manufacturing of these graded structures is difficult if implementing conventional wet ceramic techniques. Suspension plasma spraying is an emerging technology that has the potential to rapidly produce thin, dense ceramic layers with no requirement for post deposition heat treatments. However, SPS requires a careful examination of the stability of the feedstock suspensions in order to produce high quality coatings. Optimum suspension formulations with excellent particle dispersion were designed based on rheological and electrostatic stability measurements. These optimized suspensions were used as feedstocks for the fabrication of suspension plasma sprayed compositionally graded YSZ/SDC layers. The feasibility of fabricating graded electrolyte structures was thus demonstrated.

Graded YSZ/SDC electrolyte

Electrostatic stability

Isoelectric point

Suspension plasma spraying

0548

Soft Lithography for Applications in Microfluidic Thermometry, Isoelectric Focusing, and Micromixers

Samy, Razim Farid

January 2007

Microfluidics is gaining in importance due to its wide ranging benefits and applicability in chemical and biological analysis. Although traditional microfluidic devices are created with glass or silicon based fabrication technologies, polymer based devices are gaining in popularity. Soft lithography and replica molding are techniques for the rapid prototyping of such devices, utilizing Polydimethylsiloxane (PDMS) as the dominant material. Other benefits include its low costs and ease of fabrication. Even though soft lithography is a well researched and developed fabrication process, new applications have been discovered in which the technology can be applied. Often, changes in the fabrication process are necessary for their application in other areas of research. This thesis will address several microfluidic applications using soft lithography. These areas of research include microfluidic thermometry, isoelectric focusing (IEF), and micromixers. In microfluidic thermometry, a novel thin film PDMS/Rhodamine B has been developed allowing whole-chip temperature measurements. In addition, compatibility problems between Rhodamine B and PDMS microfluidic devices were resolved. The thin film fabrication process, experimental results, and issues with its use are discussed. Future work and attempts at improving the thin film performance are also provided. IEF involves applications in which samples are separated according to its electrostatic charge. Two types of IEF applications are shown in which soft lithography has been shown to be beneficial to its development and performance. In isoelectric focusing with the use of thermally generated pH gradients, soft lithography allows for the rapid design, production and testing of different channel layouts. In general, due to PDMS insulation and overall low heat transfer rates, the temperatures detected are more gradual than those previously reported in literature. IEF using carrier ampholytes are also discussed, with preliminary results in which devices fabricated using soft lithography are compared to commercially available IEF cartridges. Its fabrication issues are discussed in detail. In micromixers, soft lithography fabrication issues and overall integration with flow mechanisms is discussed. In general it is difficult to perform mixing in the microscale due to the predominantly laminar flow and flow rate restrictions. Channel geometry is insignificant, as can be seen through numerical simulations.

micofluidics

soft lithography

microfabrication

microfluidic thermometry

isoelectric focusing

micromixers

PDMS thin film

rhodamine B

Mechanical Engineering

Soft Lithography for Applications in Microfluidic Thermometry, Isoelectric Focusing, and Micromixers

Samy, Razim Farid

January 2007

Microfluidics is gaining in importance due to its wide ranging benefits and applicability in chemical and biological analysis. Although traditional microfluidic devices are created with glass or silicon based fabrication technologies, polymer based devices are gaining in popularity. Soft lithography and replica molding are techniques for the rapid prototyping of such devices, utilizing Polydimethylsiloxane (PDMS) as the dominant material. Other benefits include its low costs and ease of fabrication. Even though soft lithography is a well researched and developed fabrication process, new applications have been discovered in which the technology can be applied. Often, changes in the fabrication process are necessary for their application in other areas of research. This thesis will address several microfluidic applications using soft lithography. These areas of research include microfluidic thermometry, isoelectric focusing (IEF), and micromixers. In microfluidic thermometry, a novel thin film PDMS/Rhodamine B has been developed allowing whole-chip temperature measurements. In addition, compatibility problems between Rhodamine B and PDMS microfluidic devices were resolved. The thin film fabrication process, experimental results, and issues with its use are discussed. Future work and attempts at improving the thin film performance are also provided. IEF involves applications in which samples are separated according to its electrostatic charge. Two types of IEF applications are shown in which soft lithography has been shown to be beneficial to its development and performance. In isoelectric focusing with the use of thermally generated pH gradients, soft lithography allows for the rapid design, production and testing of different channel layouts. In general, due to PDMS insulation and overall low heat transfer rates, the temperatures detected are more gradual than those previously reported in literature. IEF using carrier ampholytes are also discussed, with preliminary results in which devices fabricated using soft lithography are compared to commercially available IEF cartridges. Its fabrication issues are discussed in detail. In micromixers, soft lithography fabrication issues and overall integration with flow mechanisms is discussed. In general it is difficult to perform mixing in the microscale due to the predominantly laminar flow and flow rate restrictions. Channel geometry is insignificant, as can be seen through numerical simulations.

micofluidics

soft lithography

microfabrication

microfluidic thermometry

isoelectric focusing

micromixers

PDMS thin film

rhodamine B

Mechanical Engineering

Development of a novel liquid chromatography based tool to study post-translational modifications

Lam, Wing Kai Edgar

11 1900

There are many tools available for the study of post-translational modifications. The majority of these tools is specific towards the individual modification and involves separation of modified proteins from non-modified ones. The drawback of using a modification specific method is that there is a lack of flexibility in its usage for other modifications. The goal of these studies was to investigate the possibility of obtaining a similar separation effect by fractionating post-translationally modified proteins based on the physical properties of proteins. The post-translational modification chosen to be the basis of this study was the O-GlcNAc modification. Using the C2C12 mouse myoblast cell line, it was determined that the optimal conditions for producing lysates containing increased yields of O-GlcNAc modified proteins was to treat differentiated C2C12 cells with 10nM insulin, 12g/L glucose and 2mM of the O-GlcNAcase inhibitor Streptozotocin for 24 hours. Using the optimized lysis buffer, it was shown that protein separation by surface charge using standard anion exchange separation did not provide enough resolution or material to obtain any identifications of modified proteins. However, when a chromatofocusing method which separates proteins on the basis of their isoelectric points was used, a separation scheme with larger capacity and higher resolution was possible. Using this separation method followed by gel electrophoresis of individual fractions, proteins which are potentially O-GlcNAc modified were identified by mass spectrometry. It was evident from the number of protein bands observed per fraction on the Coomassie stained gels and the number of proteins identified per protein band by mass spectrometry that further reduction in sample complexity was required to assist in the positive identification of O-GlcNAc modified proteins. Among the identified proteins, 32 percent were metabolic proteins, 21 percent were protein processing proteins, 16 percent were structural proteins and the remainder a mix of other proteins. Unfortunately, it was not possible to validate the presence or absence of the O-GlcNAc modification on these proteins using available methodologies such as immunoprecipitation. As such, further work is required to optimize the separation strategy and to verify the usefulness of this separation strategy in identifying O-GlcNAc/post-translationally modified proteins.

Chromatography

Post-translational modifications

ICF

Isoelectric chromatofocusing

O-GlcNAc

Alloxan

Streptozotocin

Sorption Of Cadmium And Lead On Activated Carbons Produced From Resins And Agricultural Wastes

Akgun, Aydin Mert

01 November 2005

In this work, adsorption of cadmium and lead from waste solutions by activated carbon was investigated. The activated carbons were produced from ion exchange resins and agricultural wastes in previous thesis studies under different conditions. BET surface areas of the activated carbons were given in previous studies. They were further characterized in this study. Slurry pH was measured by change in pH of water in which activated carbon was added. Methylene blue numbers were determined by adsorption of methylene blue onto activated carbons. Isoelectric points were determined by measuring zeta potential of activated carbons at different equilibrium pH. Results of the first part of sorption experiments showed a strong dependency of adsorption on pH since adsorption mechanism was exchange of heavy metal ions with H+ ions on the surface. Activated carbon produced from hazelnut shell had the highest removal efficiency with 95% Pb removal and 50% Cd removal at pH 6. However, activated carbon produced from apricot stone removed only 25% and 80% of Cd and Pb, respectively at the same pH. Initial concentration had positive effect on percent removal as shown by the second part of sorption experiments. This can be explained with saturation of available active sites as initial concentration increased. Activated carbon produced from hazelnut shell could remove 42% of Cd and 85% of Pb, but the one produced from synthetic resin couldn&amp / #8217 / t remove Cd and Pb more than 20% and 35%, respectively at initial concentration of 100 mg/l. Langmuir and Freundlich isotherms were plotted and both isotherms were in good agreement with experimental data.