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321	Elucidating the interaction between human serum transferrin and human transferrin receptor using electrospray ionization mass spectrometry (ESI-MS) Leverence, Rachael C 01 January 2008 (has links) The primary route most cells utilize to acquire iron is the human serum transferrin (hTf)-human transferrin receptor (TfR) mediated uptake pathway. This pathway has been exploited in the treatment of tumor cells; therefore it is vital to understand the interactions between hTf and TfR at the cell surface (pH 7.4) and in the endosome (pH 5.6). The present study investigates the role of iron in hTf binding to TfR to determine whether iron free (apo) hTf can bind TfR at pH 8.3 and understand the conformational changes (associated with iron release) in hTf-TfR at pH 5.6. Electrospray ionization mass spectrometry (ESI-MS) was used to detect the binding products of competitive, single and displacement assays between different forms of hTf (apo, monoferric, diferric) or lobe fragments and TfR at pH 8.3 and 5.6. All of the hTf-bound TfR in a specific but reversible manner at basic and acidic pH. At pH 8.3, diferric (holo)-hTf was the preferred ligand for TfR followed by monoferric-hTf and then apo-hTf. The iron-free lobe of monoferric-hTf was stabilized by the iron-bound lobe (interlobe communication) whereas the apo-hTf was stabilized by the glycan moieties on the C-terminal lobe (C-lobe). Binding assays performed with the lobe fragments suggest the C-lobe of hTf initially binds TfR, which induces allosteric conformational changes resulting in the binding of the N-lobe. However, the latter is incapable of binding TfR on its own. At pH 5.6, apo-hTf and FeNTf (iron in the N-lobe) were the preferred TfR ligands followed by Fe2Tf and FeCTf (iron in the C-lobe). Therefore, iron status of the C-lobe dictated the binding stability to TfR at pH 5.6. When the C-lobe contains iron it cannot completely open, as required for stable TfR binding at pH 5.6; iron occupancy of the N-lobe had no affect on the interaction due to the lack of binding to TfR when the C-lobe has an open conformation. Analytical chemistry\|Biochemistry
322	TISSUE SPECIFIC PROTEIN SULFHYDRATION PROFILING UNDER DIETARY RESTRICTION, AGING, AND NEUROONCOLOGICAL DISEASE Bithi, Nazmin 20 May 2021 (has links) No description available. Chemistry Analytical Chemistry
323	SPME Method for Chemical Analysis of Heavy Organic Trace Compounds in Synthesis Gas / SPME metod för kemisk analys av tunga organiska spårämnen i syntesgas Elemia Freire, Constancia Felise, Edin, Simon, Lee, Chang Ho January 2020 (has links) There currently exists no commercialized method for rapid sampling and analysis of trace tar ingas streams. Solid phase microextraction (SPME) with a polydimethylsiloxane (PDMS) solidphase has been previously investigated as a possible candidate due to its solvent-free natureand reusability. This project set out to deliver a proof of concept study to test whether SPMEcan be sufficiently tuned to analyse trace tar content in syngas below the concentration of 0.1mg/Nm 3 . Due to complications that arose from the Covid-19 pandemic, it was unfeasible tocarry out the practical elements of the project. Instead a concept design for carrying out such astudy has been successfully developed. This design envisions a two-chamber setup able tosample syngas directly from a gasifier at 60 °C and 125 °C respectively and is illustrated in thetext. It utilizes commercially available solvent tubes to cross-check and verify the SPME results. / I nuläget finns det ingen kommersiell metod för att snabbt extrahera och analysera spår av tjärkomponenteri gasströmmar. Tidigare har solid phase microextraction (SPME) medpolydimetylsiloxan (PDMS) som fast fas undersökts som en möjlig kandidat då den ej kräverlösningsmedel och kan enkelt återanvändas. Detta projekt hade som mål att bevisa att SPMEkan anpassas tillräckligt känsligt för att analysera spår av tjära i syngas med en koncentration påmindre än 0,1 mg/Nm 3 . På grund av komplikationer som uppstod i samband med Covid-19pandemin var det inte möjligt att utföra den praktiska delen av projektet. Istället så har endesign tagits fram för ett koncept som beskriver hur man kan genomföra den praktiska delen.Designen beskriver en två-kammare lösning som kan användas för att ta prover från syngas somkommer direkt från en förgasare. Proverna tas vid temperaturer om 60 °C och 125 °C för attuppnå maximal känslighet. En uppsättning kommersiellt tillgängliga sorbentrör används för attkontrollera resultaten från SPME. Analytical Chemistry Analytisk kemi
324	An Investigation Into the Use of Polymer Bound Boronic Acid for Glucose Detection in Paper Based Microfluidic Devices Schultz, Spencer A. 01 June 2016 (has links) (PDF) Paper Based Microfluidic Devices (microPADs) are a new platform for point-of-care diagnostic assays for use in resource-limited settings. These devices rely typically on enzymatic assays to produce their results, which makes them susceptible to degradation when exposed to extreme environmental conditions such as high temperature. In order to overcome this limitation, this research project focused on investigating the use of polymers instead of enzymes to detect analytes on microPADs. Polymer-bound boronic acid, a glucose and pH sensitive polymer, was incorporated into microPADs in order to develop a chronometric, paper-based glucose assay. The polymer was tested with both lateral and vertical flow microPADs made from three different types of paper, and several different methods of incorporating the polymer into the devices were also explored. While some devices appeared to show a trend in signal versus concentration of glucose, none of the results were statistically significant due to the large standard deviations in the signal. Upon further analysis of the results, the overall conclusion was that the devices were not sensitive enough to detect glucose in the range of concentrations that would be practical for clinical diagnostic applications. Analytical Chemistry Polymer Chemistry
325	Aqueous solubility and analysis of gasoline Potter, Thomas Lee 01 January 1992 (has links) Release of petroleum products, in particular gasoline, at underground storage tank facilities is a significant source of groundwater contaminants. These products are highly complex and variable mixtures of organic compounds. This makes their residue analysis in environmental samples and evaluation of their solubility behavior difficult. Research efforts described in this work addressed development of a rapid analytical method for petroleum product residues in water and evaluation of gasoline aqueous solubility behavior. Analytical method development focussed on capillary GC/FID and GC/MS with direct aqueous injection (DAI). Excellent chromatographic performance for C1 to C4 alcohols, C6 to C9 monoaromatics, phenols and other compounds was achieved. Calibration curves were linear over a wide dynamic range and analytical limits of detection of key analytes like benzene and toluene, while higher than LOD's obtained with other methods, were below established Maximum Contaminant Levels. The method was found to be simple, rapid, comprehensive and sufficiently sensitive for monitoring drinking water quality. With this method, the water solubility behavior of four gasolines spanning a wide range in composition was investigated. Highly water soluble gasoline constituents (alcohols, phenols, methyl tert-butyl ether) were found to have effective dissolution velocities which were greater than common aromatic compounds like benzene and toluene. It was also found that fuel-water partition coefficients of various gasoline constituents could be approximated by assuming ideal Raoult's Law behavior without making appreciable errors in estimates in solute concentrations. Deviation from the ideal was relatively small even with a product containing 85 percent (v/v) methanol. Finally, successive batch equilibrations of the products with water showed that alcohols, phenols, MTBE and other gasoline constituents which have water solubility are leached rapidly from the product phase. As a result, any cosolvent effects on petroleum hydrocarbon solubility will be attenuated rapidly following a product release and the onset of leaching of contaminated soil.
326	Analysis of trace impurities in organometallic semiconductor grade reagent materials using electrothermal vaporization - inductively coupled plasma spectrometry Argentine, Mark David 01 January 1993 (has links) Trace impurity determinations in volatile, pyrophoric organometallic materials is complicated owing to its chemical nature. Furthermore, trends toward high semiconductor circuit density demand that impurity determinations are performed at increasingly low levels. Volatility of the impurities is also desired as it plays a significant role in impurity incorporation in semiconductor products. Determination of both volatile and nonvolatile impurities in semiconductor-grade organometallic reagent materials has been accomplished using electrothermal vaporization - inductively coupled plasma spectrometry. Solid or liquid materials can be dispensed directly onto a graphite microboat, and application of an appropriate time-temperature ramp allows separation of impurities based on volatility. Temporal separation allows quantitative capabilities on both volatile and nonvolatile signals in a single ETV run. Calibration efforts for volatile impurities have been compared with results from exponential dilution and direct vapor sampling techniques. Nonvolatile impurity determinations can be reasonably performed with aqueous external standard calibration. Inductively coupled plasma-mass spectrometry provides an alternate and more sensitive, multielement detection method. Several spectroscopic and non-spectroscopic difficulties with volatile impurity detection remain. Nonetheless, qualitative and semi-quantitative ($<$50% RSD) determination of most impurities may be performed in a single ETV run. Analytical chemistry\|Materials science
327	Optimizing Hematite Thin Film Electrodes for Photoelectrochemical Degradation of Organic Dyes Grace, Karah L. January 2022 (has links) No description available. Analytical Chemistry Chemistry
328	EFFECT OF SAMPLE MISCUT ON DISSOLUTION KINETICS OF CALCITE (104) CLEAVAGE SURFACES Sulley Addo, Tahiru 16 December 2013 (has links) No description available. Analytical Chemistry Chemistry Geochemistry
329	GRADIENT CHROMATOFOCUSING AND REVERSED PHASE HPLC IN PROTEIN ANALYSIS AND LC-MS/MS DETERMINATION OF THIAZOLIDINEDIONE NL-1 IN MOUSE SERUM AND BRAIN Pedada, Kiran K., Mr January 2013 (has links) No description available. Chemistry Analytical Chemistry
330	CHARACTERIZATION OF CARBON FIBER MICROELECTRODES DECORATED WITH PLATINUM NANOPARTICLES Dorflinger, Charles 11 June 2014 (has links) No description available. Analytical Chemistry Physical Chemistry

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