Development Of An Spr Method To Monitor The Chemical Interaction Of Dna With A Small Reactive Molecule: Peroxynitrite As An Example, 2019 Cleveland State University
Development Of An Spr Method To Monitor The Chemical Interaction Of Dna With A Small Reactive Molecule: Peroxynitrite As An Example, Divya Sharma
ETD Archive
Peroxynitrite is an anion with the formula ONOO-. It is an unstable structural isomer of nitrate, NO3-. Although its conjugate acid (ONOOH) is highly reactive, it is quite relatively stable in basic solutions. Generation of peroxynitrite in-vivo occurs through the diffusion-controlled reaction between superoxide anion and nitric oxide free radical. It is a strong oxidizing and nitrating agent, and its formation has been correlated with many pathological conditions. Because of its oxidizing properties, peroxynitrite can damage a wide array of molecules in cells, including DNA and proteins. Reactions of peroxynitrite with DNA, proteins, and lipids, trigger a wide array of …
In-Quest Of Biomarkers For Alzheimer’S Disease And Pharmacokinetic Profile Of Anticancer Agents Using Lc-Ms In Human Plasma, 2019 Cleveland State University
In-Quest Of Biomarkers For Alzheimer’S Disease And Pharmacokinetic Profile Of Anticancer Agents Using Lc-Ms In Human Plasma, Chandana Mannem
ETD Archive
In this dissertation work, a semi-quantitative assay using a lipidomics approach and an absolute quantitative assay using liquid chromatography-mass spectrometry techniques were developed (LC-MS). In the lipidomics approach, ultra-high pressure liquid chromatography in tandem with quadrupole time of flight (UHPLC-QTOF) mass spectrometry was used to profile, compare and quantitate the human plasma lipids in Alzheimer’s disease subjects (AD) and normal cognitive controls (NCCs). The purpose of this study is to identify potential plasma lipid markers of AD and to explore the relationships between AD and lipid pathways in humans by using bioinformatic tools. The plasma samples of study subjects were …
Development Of An Spr Method To Monitor The Chemical Interaction Of Dna With A Small Reactive Molecule: Peroxynitrite As An Example, 2019 Cleveland State University
Development Of An Spr Method To Monitor The Chemical Interaction Of Dna With A Small Reactive Molecule: Peroxynitrite As An Example, Divya Sharma
ETD Archive
Peroxynitrite is an anion with the formula ONOO-. It is an unstable structural isomer of nitrate, NO3-. Although its conjugate acid (ONOOH) is highly reactive, it is quite relatively stable in basic solutions. Generation of peroxynitrite in-vivo occurs through the diffusion-controlled reaction between superoxide anion and nitric oxide free radical. It is a strong oxidizing and nitrating agent, and its formation has been correlated with many pathological conditions. Because of its oxidizing properties, peroxynitrite can damage a wide array of molecules in cells, including DNA and proteins. Reactions of peroxynitrite with DNA, proteins, and lipids, trigger a wide array of …
Analysis Of Bodily Fluids Using Vibrational Spectroscopy: A Direct Comparison Of Raman Scattering And Infrared Absorption Techniques For The Case Of Glucose In Blood Serum, 2019 Technological University Dublin
Analysis Of Bodily Fluids Using Vibrational Spectroscopy: A Direct Comparison Of Raman Scattering And Infrared Absorption Techniques For The Case Of Glucose In Blood Serum, Drishya Prachalil, Clément Bruno, Franck Bonnier, Helen Blasco, Igor Chourpa, Matthew Baker, Jennifer Mcintyre, Hugh Byrne
Articles
Analysis of biomarkers present in the blood stream can potentially deliver crucial information on patient health and indicate the presence of numerous pathologies. The potential of vibrational spectroscopic analysis of human serum for diagnostic purposes has been widely investigated and, in recent times, infrared absorption spectroscopy, coupled with ultra-filtration and multivariate analysis techniques, has attracted increasing attention, both clinical and commercial. However, such methods commonly employ a drying step, which may hinder the clinical work flow and thus hamper their clinical deployment. As an alternative, this study explores the use of Raman spectroscopy, similarly coupled with ultra-filtration and multivariate analysis …
Raman Spectroscopy As A Potential Tool For Label Free Therapeutic Drug Monitoring In Human Serum: The Case Of Busulfan And Methotrexate, 2019 Technological University Dublin
Raman Spectroscopy As A Potential Tool For Label Free Therapeutic Drug Monitoring In Human Serum: The Case Of Busulfan And Methotrexate, Drishya Parachalil, Franck Bonnier, Deirdre Commerford, Igor Chourpa, Jennifer Mcintyre, Hugh Byrne
Articles
A methodology is proposed, based on Raman spectroscopy coupled with multivariate analysis, to determine the Limit of Detection (LOD) and Limit of Quantification (LOQ) for therapeutic drug monitoring in human serum, using the examples of Busulfan, a cell cycle non-specific alkylating antineoplastic agent, and, Methotrexate, a chemotherapeutic agent and immune system suppressant. In this study, ultrafiltration is employed to fractionate spiked human pooled serum to efficiently recover the drug in the filtrate prior to performing Raman analysis. The drug concentration ranges were chosen to encompass the recommended therapeutic ranges and toxic levels in patients. Raman spectra were collected from the …
On The Use Of Vibrational Spectroscopy And Scanning Electron Microscopy To Study Phenolic Extractability Of Cooperage Byproducts In Wine, 2019 Universidad de Sevilla
On The Use Of Vibrational Spectroscopy And Scanning Electron Microscopy To Study Phenolic Extractability Of Cooperage Byproducts In Wine, Berta Baca‑Bocanegra, Julio Nogales‑Bueno, Brian Gorey, Francisco José Heredia, Hugh Byrne, José Miguel Hernández‑Hierro
Articles
Wood is an important source of phenolic compounds, which can be transferred to wine during aging process, improving its properties, from an organoleptic point of view. Therefore, understanding and optimizing the extractability of phenolic compounds from wood are crucial in the oenological field. The structural composition of oak wood samples has been evaluated using Raman and attenuated total reflectance Fourier transform infrared (ATR–FTIR) spectroscopies, and their main spectral features have been linked to phenolic compound extractabilities, as measured by classic chemical analyses. To support the analysis, microscopic images of the samples were also recorded using scanning electron microscopy (SEM). The …
(E)-6,6′-(Diazene-1,2-DiYl)Bis(1,10-Phenanthrolin-5-Ol) TriChloroMethane Disolvate: A Superconjugated Ligand, 2019 National University of Ireland, Maynooth
(E)-6,6′-(Diazene-1,2-DiYl)Bis(1,10-Phenanthrolin-5-Ol) TriChloroMethane Disolvate: A Superconjugated Ligand, Muhib Ahmed, Michael Devereux, Vickie Mckee, Malachy Mccann, A. Denise Rooney
Articles
Phenanthroline ligands are important metal-binding molecules which have been extensively researched for applications in both material science and medicinal chemistry. Azobenzene and its derivatives have received significant attention because of their ability to be reversibly switched between the E and Z forms and so could have applications in optical memory and logic devices or as molecular machines. Herein we report the formation and crystal structure of a highly unusual novel diazo-diphenanthroline compound, C24H14N6O2·2CHCl3.
Molecular Memory With Downstream Logic Processing Exemplified By Switchable And Self-Indicating Guest Capture And Release, 2019 Queens University Belfast
Molecular Memory With Downstream Logic Processing Exemplified By Switchable And Self-Indicating Guest Capture And Release, Brian Daly, Thomas S. Moody, Allen J.M. Huxely, Chaoyi Yao, Benjamin Schazmann, Andre Alves-Areias, John F. Malone, H.Q. Nimal Gunaratne, Peter Nockemann, A. Prasanna De Silva
Articles
Molecular-logic based computation (MLBC) has grown by accumulating many examples of combinational logic gates and a few sequential variants. In spite of many inspirations being available in biology, there are virtually no examples of MLBC in chemistry where sequential and combinational operations are integrated. Here we report a simple alcohol-ketone redox interconversion which switches a macrocycle between a large or small cavity, with erect aromatic walls which create a deep hydrophobic space or with collapsed walls respectively. Small aromatic guests can be captured or released in an all or none manner upon chemical command. During capture, the fluorescence of the …
Highly Selective Fluorimetric Turn-Off Detection Of Copper (Ii) By Two Different Mechanisms In Calix[4]Arene-Based Chemosensors And Chemodosimeters, 2019 National University of Ireland, Maynooth
Highly Selective Fluorimetric Turn-Off Detection Of Copper (Ii) By Two Different Mechanisms In Calix[4]Arene-Based Chemosensors And Chemodosimeters, Justine O'Sullivan, John Colleran, Brendan Twamley, Frances Heaney
Articles
Isoxazolo‐pyrene tethered calix[4]arenes selectively detect copper(II) ions without interference from related perchlorate ions. The fluorescence emission of the probes, synthesised by nitrile oxide alkyne cycloaddition, and characterised by spectroscopic and crystallographic data, is rapidly reduced by Cu(II) ions. Detection limits are in the micromolar or sub‐micromolar range (0.3–3.6 μM) based on a 1 : 1 sensor:analyte interaction. Voltammetric behaviour and 1H NMR data provide new insights into the sensing mechanism which is dependent on the calixarene substitution pattern. When the calixarene lower rim is fully substituted, Cu(II) detection occurs through a traditional chelation mechanism. In contrast, for calixarenes 1,3‐disubstituted on …
The Relationship Between Rock Climbing And Total Body Strength And Endurance, 2019 Georgia College and State University
The Relationship Between Rock Climbing And Total Body Strength And Endurance, Madison Gamma, Alexa Bruce, Madison Massey, Ashlee Cordero
The Corinthian
Purpose: The purpose of our study was to assess the relationship between muscular strength and endurance and time to complete a rock wall climb.
Methods: The researchers of this study tested 22 participants ranging from 19-25 years of age. An informed consent and a Physical Activity Readiness Questionnaire (PARQ+) form were completed by each individual before being cleared to participate in this study. Data collection was completed on two separate days. On the first day, participants completed four fitness tests which consisted of a hand grip strength assessment, a 10-repetition maximum (RM) leg press, a flexed arm hang test, and …
Refinement Of Production Grade Biodiesel, 2019 GCSU
Refinement Of Production Grade Biodiesel, Campbell Axt, Robert B. Hughley Jr., Sydney Ninneman, Jillian Turner
The Corinthian
The modified Burton method for the thermal hydrogen-cracking of peanut oil has been investigated in McGill Research Group since 2009. The successful and reliable production of biodiesel has been achieved since 2014. A hydrocarbon with a viscosity similar to Production Grade Diesel will work in modern diesel engines. The current product has a viscosity significantly lower than production grade diesel. The starting material has a viscosity significantly higher than Production Grade Diesel. Current research is investigating methodologies to mix starting material and product to achieve target viscosity.
Crystallographically Determined Etching And Its Relevance To The Metal-Assisted Catalytic Etching (Mace) Of Silicon Powders, 2019 West Chester University of Pennsylvania
Crystallographically Determined Etching And Its Relevance To The Metal-Assisted Catalytic Etching (Mace) Of Silicon Powders, Kurt W. Kolasinski, Bret A. Unger, Alexis T. Ernst, Mark Aindow
Chemistry Faculty Publications
Metal-assisted catalytic etching (MACE) using Ag nanoparticles as catalysts and H2O2 as oxidant has been performed on single-crystal Si wafers, single-crystal electronics grade Si powders, and polycrystalline metallurgical grade Si powders. The temperature dependence of the etch kinetics has been measured over the range 5–37◦C. Etching is found to proceed preferentially in a h001i direction with an activation energy of ∼0.4 eV on substrates with (001), (110), and (111) orientations. A quantitative model to explain the preference for etching in the h001i direction is developed and found to be consistent with the measured activation energies. Etching of metallurgical grade powders …
Fluorogenic Atom Transfer Radical Polymerization In Aqueous Media As A Strategy For Detection, 2019 Trinity University
Fluorogenic Atom Transfer Radical Polymerization In Aqueous Media As A Strategy For Detection, Zachary T. Allen, Jemima R. Sackey-Addo, Madeline P. Hopps, Danyal Tahseen, Joseph T. Anderson, Tyler A. Graf, Christina B. Cooley
Chemistry Faculty Research
The development of novel approaches to signal amplification in aqueous media could enable new diagnostic platforms for the detection of water-soluble analytes, including biomolecules. This paper describes a fluorogenic polymerization approach to amplify initiator signal by the detection of visible fluorescence upon polymerization in real-time. Fluorogenic monomers were synthesized and co-polymerized by atom transfer radical polymerization (ATRP) in water to reveal increasing polymer fluorescence as a function of both reaction time and initiator concentration. Optimization of the fluorogenic ATRP reaction conditions allowed for the quantitative detection of a small-molecule initiator as a model analyte over a broad linear concentration range …
A Biochemical Nickel(I) State Supports Nucleophilic Alkyl Addition: A Roadmap For Methyl Reactivity In Acetyl Coenzyme A Synthase, 2019 Trinity University
A Biochemical Nickel(I) State Supports Nucleophilic Alkyl Addition: A Roadmap For Methyl Reactivity In Acetyl Coenzyme A Synthase, A. C. Manesis, B. W. Musselman, Breena C. Keegan, Jason M. Shearer, N. Lehnert, H. S. Shafaat
Chemistry Faculty Research
Nickel-containing enzymes such as methyl coenzyme M reductase (MCR) and carbon monoxide dehydrogenase/acetyl coenzyme A synthase (CODH/ACS) play a critical role in global energy conversion reactions, with significant contributions to carbon-centered processes. These enzymes are implied to cycle through a series of nickel-based organometallic intermediates during catalysis, though identification of these intermediates remains challenging. In this work, we have developed and characterized a nickel-containing metalloprotein that models the methyl-bound organometallic intermediates proposed in the native enzymes. Using a nickel(I)-substituted azurin mutant, we demonstrate that alkyl binding occurs via nucleophilic addition of methyl iodide as a methyl donor. The paramagnetic Ni …
Reduction Of Co2 By A Masked Two-Coordinate Cobalt(I) Complex And Characterization Of A Proposed Oxodicobalt(Ii) Intermediate, 2019 Trinity University
Reduction Of Co2 By A Masked Two-Coordinate Cobalt(I) Complex And Characterization Of A Proposed Oxodicobalt(Ii) Intermediate, L. Roy, M. H. Al-Afyouni, D. E. Derosha, B. Mondal, I. M. Dimucci, K. M. Lancaster, Jason M. Shearer, E. Bill, W. W. Brennessel, F. Neese, S. Ye, P. L. Holland
Chemistry Faculty Research
Fixation and chemical reduction of CO2 are important for utilization of this abundant resource, and understanding the detailed mechanism of C-O cleavage is needed for rational development of CO2 reduction methods. Here, we describe a detailed analysis of the mechanism of the reaction of a masked two-coordinate cobalt(i) complex, LtBuCo (where LtBu = 2,2,6,6-tetramethyl-3,5-bis[(2,6-diisopropylphenyl)imino]hept-4-yl), with CO2, which yields two products of C-O cleavage, the cobalt(i) monocarbonyl complex LtBuCo(CO) and the dicobalt(ii) carbonate complex (LtBuCo)2(μ-CO3). Kinetic studies and computations show that the …
Organizing 6, 5-Carbon Nanotubes On Dna Origami Arrays, 2019 Marshall University
Organizing 6, 5-Carbon Nanotubes On Dna Origami Arrays, Kathryn A. Pitton
Theses, Dissertations and Capstones
Carbon nanotubes1 are cylindrical carbon molecules and can be considered to be composed of one atom thick sheets of carbon called graphene. They have been at the forefront of nanochemistry due to their strength and multiple properties such as absorption, fluorescence, semiconduction, and light scattering capability. DNA Origami (DO)2 has emerged as a novel domain for molecular design, resulting in the generation of numerous one, two, and three-dimensional structures that have provided platforms for the organization of organic species and inorganic nanoparticles through simple modifications. The use of DNA Origami to control the placement of single walled carbon …
Synthesis Of 1,3-Di(4-Pyridinyl)Acetone, 2019 Marshall University
Synthesis Of 1,3-Di(4-Pyridinyl)Acetone, Zachary Tyler Boggs
Theses, Dissertations and Capstones
Although isoelectronic to benzene, the reactivity of pyridine-derived compounds can be quite different. Notably, routes to prepare pyridyl analogs to known phenyl compounds can be very different from how the phenyl compounds are made, even when the nitrogen atom would appear to play an insignificant role in the reaction. This is the case for 1,3-di-4-pyridylacetone. Its phenyl analog has been known for over 90 years and is easily prepared, while the only reported synthesis of 1,3-di-4-pyridylacetone occurs in very low yield. We report a preliminary synthesis from common starting materials, albeit in low yield, and offer an explanation for why …
Identifying C-Mannosylatedproteins In Raw264.7 Cells Via In Vitro Hsc70 Co-Immunoprecipitation Strategies, 2019 Marshall University
Identifying C-Mannosylatedproteins In Raw264.7 Cells Via In Vitro Hsc70 Co-Immunoprecipitation Strategies, Nicholas Ryan Kegley
Theses, Dissertations and Capstones
C-mannosylation is a specific type of glycosylation in which α-mannose is covalently bound to the C2 atom of a tryptophan via a carbon-carbon bond. Presently, it is known to occur on proteins that contain the W-x-x-W-x-x-W/C motif found within the Thrombospondin Type-1 Repeat (TSR), with ‘x’ denoting any amino acid. C-mannosylation has been implicated in a number of cellular functions, including protein secretion and type I cytokine receptor function. Previous research has shown that exogenous C-mannosylated peptides derived from TSR-containing proteins upregulate the production of the pro-inflammatory cytokine Tumor Necrosis Factor alpha (TNF-α) in RAW264.7 macrophage cells. This upregulation is …
Characterizing The Effects Of Environmental Stressors On The Photosynthetic Capacity Of Chlorella Vulgaris, 2019 Marshall University
Characterizing The Effects Of Environmental Stressors On The Photosynthetic Capacity Of Chlorella Vulgaris, Amanda Louise Smythers
Theses, Dissertations and Capstones
Chlorella vulgaris is a unicellular green algae grown throughout the world. Due to its multiple trophic modes as well as its ability to maintain high rates of growth under adverse conditions, it has been of global interest for use in ecological contamination studies, biofuel feedstock optimization, and studies of photosynthetic electron transfer. Using a wide-range of methods for physiological and photosynthetic characterization, the studies within seek to further extend the usefulness of C. vulgaris in a variety of environmentally important studies. Once the protocols were optimized specifically for this alga, they could be applied in both ecologically relevant and biodiesel …
Isolation And Identification Of Hsc70 Conjugates In Raw264.7 Murine Macrophage-Like Cells, 2019 Marshall University
Isolation And Identification Of Hsc70 Conjugates In Raw264.7 Murine Macrophage-Like Cells, Michael Arland Parsons
Theses, Dissertations and Capstones
IL12R- β2 is a Type I cytokine receptor and contains the WXXW (WSNWS) sequence that often predicates the post-translational addition of mannose to a tryptophan residue via a carbon-carbon bond. This study will stimulate expression of IL12R- β2 in RAW 264.7 Macrophage-Like Cells by shutting down the extracellular signal kinase (ERK) pathway and introducing inflammatory agents lipopolysaccharide and CpG DNA in order to collect a concentrated sample of IL12R- β2. These samples will be analyzed for the presence of C-mannosyltryptophan residue