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Full-Text Articles in Life Sciences
Kinetic Characterization Of Two C-Family Polymerases From The Gram-Positive Bacterium Staphylococcus Aureus, Sean P. Fagan
Kinetic Characterization Of Two C-Family Polymerases From The Gram-Positive Bacterium Staphylococcus Aureus, Sean P. Fagan
Legacy Theses & Dissertations (2009 - 2024)
In this dissertation, I review the fundamental processes and mechanisms for bacterial DNA replication, especially the mechanisms employed by high-fidelity DNA polymerases to replicate the genome. Unlike the prototypical bacterial system from Escherichia coli which uses a single C-family polymerase, DNA polymerase IIIα (Pol IIIα), to replicate the genome, low-GC content Gram-positive bacteria utilize two essential C-family polymerases, PolC and DnaE. PolC and DnaE work cooperatively to replicate the genome, with DnaE initiating synthesis from RNA-primers and PolC performing the bulk synthesis. Although atomic structures of both PolC and Pol IIIα are available, detailed pre-steady state kinetic analysis of the …
The Kinetic Signatures Of Antibody Binding To M. Genitalium Adhesin Protein Fragments, Margaret C. Lunn
The Kinetic Signatures Of Antibody Binding To M. Genitalium Adhesin Protein Fragments, Margaret C. Lunn
Honors Projects
Mycoplasma genitalium is a sexually-transmitted bacterial pathogen that persists in patients by adherence to cells through matrix glycoproteins and evasion of host antibodies. The MgpB and MgpC adherence proteins consist of variable and conserved regions. Variable regions undergo antigenic variation to avoid specific antibodies. However, the C-terminus (MgpB-4a) does not vary, is highly immunogenic, and antibodies to this region inhibit attachment and promote bacterial killing in vitro. To better understand how M. genitalium avoids clearance by antibodies to MgpB-4a in vivo we used surface plasmon resonance (SPR) to measure kinetic values of binding events. Binding of polyclonal rabbit antibodies (3935 …
Uncovering New Mechanisms Of Cdc34 And Cullin-Ring Activity, Spencer Hill
Uncovering New Mechanisms Of Cdc34 And Cullin-Ring Activity, Spencer Hill
UNLV Theses, Dissertations, Professional Papers, and Capstones
Ubiquitylation is a cellular regulatory system found in all eukaryotic cells, which has managed to find a role in most pathways imaginable. The system works fundamentally through the ligation of a small protein known as ubiquitin onto a substrate. Depending on the context of the ubiquitin ligation, the substrate can be directed towards a number of cellular fates, the best-studied being degradation of the substrate. While originally thought of as a signal for cellular disposal units to degrade aberrant proteins, we now know that ubiquitin plays a highly nuanced role in cellular epistasis, controlling everything from the cell cycle to …
A Universal Mechanism For N2 Binding To And Differing Reactivity Of The E4(4h) State Of Mo-, V-, And Fe-Nitrogenases, Derek Franklin Harris
A Universal Mechanism For N2 Binding To And Differing Reactivity Of The E4(4h) State Of Mo-, V-, And Fe-Nitrogenases, Derek Franklin Harris
All Graduate Theses and Dissertations, Spring 1920 to Summer 2023
As a basic building block in many biological molecules, the element nitrogen (N) is essential for life. Dinitrogen (N2) is abundant in Earth’s atmosphere, but this form is biologically unavailable. To be biologically available, N2 must undergo a reduction reaction to the fixed form, ammonia (NH3). The industrial Haber-Bosch process, which accounts for approximately 50% of the worlds fixed nitrogen, uses energy from fossil fuels to achieve high pressures and temperatures to catalyze the reaction. The energy used by Haber-Bosch accounts for approximately 2% of the world’s annual supply. The remainder of fixed nitrogen is …
The Distinctive Regulatory Mechanisms Of Bacterial Acetyl-Coa Carboxylase, Alexandra Leigh Evans
The Distinctive Regulatory Mechanisms Of Bacterial Acetyl-Coa Carboxylase, Alexandra Leigh Evans
LSU Doctoral Dissertations
Metabolic Regulation is a complex system used to control cellular metabolism in response to conditions in the cell’s environment. For most enzymes, the cell can rely upon a minimal amount of regulation; however, critical enzymes, such as acetyl-CoA carboxylase, must be regulated at multiple levels. Acetyl-CoA carboxylase catalyzes the first committed step in fatty acid synthesis. In bacteria, acetyl-CoA carboxylase forms a complex of three subunits–biotin carboxylase, biotin carboxyl carrier protein, and carboxyltransferase–which catalyze the carboxylation of acetyl-CoA to form malonyl-CoA via two half-reactions. In the first half-reaction, biotin covalently linked to biotin carboxyl carrier protein is carboxylated by biotin …
Development Of Rapid, Homogeneous Assay For Investigating Isopeptide Bond Formation Using Fluorescence Polarization/Depolarization Measurements, Samuel Patricc Kasson
Development Of Rapid, Homogeneous Assay For Investigating Isopeptide Bond Formation Using Fluorescence Polarization/Depolarization Measurements, Samuel Patricc Kasson
MSU Graduate Theses
Autocatalytic intramolecular isopeptide bonds have been found in nature in certain gram-positive bacterial pilus structures. Recently, splitting of these domains that are capable of autocatalytic intramolecular isopeptide bond formation have been applied to create stable, selective, bio-orthogonal Catcher/Tag systems. The CnaB2 domain found in the FbaB pilus structure of Streptococcus pyogenes, has yielded the Catcher/Tag, Protein/Peptide systems termed SpyCatchter and SpyTag. Recent study has focused on tag optimization, stability and bio-orthogonality evaluation, along with applications in bioconjugation. I have recombinantly expressed SpyCatcher and SpyTag-fused proteins in E.coli, and conjugated them to fluorescent probes in order for use in fluorescence polarization/depolarization …
Mechanism Of Rapid Electron Transfer Reactions Involving Cytochrome Bc1, Cytochrome C And Cytochrome Oxidase, Jeremy Erik Durchman
Mechanism Of Rapid Electron Transfer Reactions Involving Cytochrome Bc1, Cytochrome C And Cytochrome Oxidase, Jeremy Erik Durchman
Graduate Theses and Dissertations
Electron transfer between mitochondrial proteins complexes represents the primary means by which living things acquire the requisite energy for survival. The coupling of electron transfer to proton translocation creates an electrochemical gradient that drives the synthesis of highly energetic compounds such as ATP. The purpose of these studies is to measure rates of electron transfer and elucidate the important governing factors in the redox events involving cytochrome bc1, cytochrome c and cytochrome oxidase. Using rapid initiation of redox events triggered by laser flash excitation of ruthenium compounds, and strategically monitoring unique spectral properties of these proteins in the visible region …
Thermodynamics And Kinetics Of The Three-Way Junction Of Phi29 Motor Prna And Its Assembly Into Nanoparticles For Therapeutic Delivery To Prostate Cancer, Daniel W. Binzel
Thermodynamics And Kinetics Of The Three-Way Junction Of Phi29 Motor Prna And Its Assembly Into Nanoparticles For Therapeutic Delivery To Prostate Cancer, Daniel W. Binzel
Theses and Dissertations--Pharmacy
The emerging field of RNA nanotechnology necessitates creation of functional RNA nanoparticles, but has been limited by particle instability. Previously, it was found the three-way junction (3WJ) of the Phi29 DNA packaging motor pRNA was found to be ultra-stable and assemble in solution without the presence of metal ions. The three-way junction is composed of three short oligo RNA strands and proven to be thermodynamically stable. Here the assembly mechanism, thermodynamic and enzymatic stabilities, and kinetics are examined in order to understand the stability behind this unique motif. Thermodynamic and kinetics studies found that the pRNA 3WJ formed out of …
Platination Kinetics: Insight Into Rna-Cisplatin Interactions As A Probe For Rna Microenvironments, Gayani Dedduwa-Mudalige
Platination Kinetics: Insight Into Rna-Cisplatin Interactions As A Probe For Rna Microenvironments, Gayani Dedduwa-Mudalige
Wayne State University Dissertations
RNAs are crucial for many cellular functions. Thus, studying ligand-RNA interactions and their dynamics in response to changes in the surrounding environment is important. In spite of the well-known DNA coordination, current research also indicates cisplatin binding to RNA. Kinetic studies of rRNA platination reactions are largely unexplored. This research was conducted to achieve two objectives. First, a broad kinetic study was carried out to investigate the cisplatin-rRNA interactions. The structure, function, and ligand interactions depend on RNA microenvironments. Second, the application of platination kinetics as a tool to interrogate RNA electrostatic environments was explored.
Three model rRNA hairpins from …
Characterization Of The Product Specificity And Kinetic Mechanism Of Protein Arginine Methyltransferase 1, Shanying Gui
Characterization Of The Product Specificity And Kinetic Mechanism Of Protein Arginine Methyltransferase 1, Shanying Gui
All Graduate Theses and Dissertations, Spring 1920 to Summer 2023
Protein enzymes perform a vast array of functions within living organisms, catalyzing various metabolic reactions including DNA replication, DNA repair, protein synthesis, etc. In order to maintain proper cellular functions, enzymes need to be accurately regulated under different circumstances. Specifically, enzymes can be modified after their creation to give them additional functions. These modifications can do a variety of things including activating (turning on) or inactivating (turning off) an enzyme, changing what proteins or molecules can interact with the enzyme, changing the enzyme’s location in the cell, and/or targeting the enzyme for destruction. This dissertation focuses on a single class …
Dynamics Of The Solvent Exchange Reaction Of Weakly Bound Organic Solvents To Group 6 Transition Metal Carbonyls And The Molybdenum Hexacarbonyl Mediated Pauson-Khand Reaction, Richard J. Gates
Theses and Dissertations
Many organometallic reactions are solvent-dependent, suggesting solvent molecules interact with reaction intermediates. Studies of the solvent exchange reaction of group 6 transition metal carbonyls with moderately binding ligands have provided insight into these interactions, however, studies of the mechanism for this reaction with weakly binding ligands have not been performed. Experiments were conducted on the nanosecond time scale in methylcyclohexane over the temperature range of 4 to 44 °C using Step Scan FTIR (SS FTIR) spectroscopy with weakly binding ligands benzene and mesitylene. Upon photolysis of the metal hexacarbonyls, the kinetically favored product (M(CO)5(solv)), decays following pseudo-first-order kinetics to the …
Fret Studies Of Dna Binding By Lambda Cro Variants, Lei Wang
Fret Studies Of Dna Binding By Lambda Cro Variants, Lei Wang
Electronic Theses and Dissertations
Proteins bind to DNA to form switches and circuits that control the flow of genetic information from DNA sequence to the physical components of cells and organisms. The dynamic performance of genetic switches depends on the coupling of the comprocesses of transcription and translation to protein-specific folding, assembly and binding reactions. For many model circuits protein dimerization and DNA binding are fast relative to the time scale of transcription and translation and thus amenable to modeling by statistical thermodynamics. In these cases, the distribution of proteins between monomers and dimers and between nonspecific and specific DNA complexes can be simply …
Transesterification And Recovery Of Intracellular Lipids Using A Single Step Reactive Extraction, Daniel R. Nelson
Transesterification And Recovery Of Intracellular Lipids Using A Single Step Reactive Extraction, Daniel R. Nelson
All Graduate Theses and Dissertations, Spring 1920 to Summer 2023
A single-step, extractive reaction for extraction of lipids such as biodiesel components, omega-3 fatty acids, or other triglycerides from microbial cells was examined. Conventional methods for lipid extraction use toxic solvents, and require multiple steps and long processing times. When the goal is to produce fatty acid methyl esters or FAMEs, the extracted lipids are subjected to a separate transesterification reaction with simple alcohols in the presence of an acid or base catalyst. A simplified, single-step reactive extraction method can be applied that combines the sequential extraction followed by transesterification using acidified alcohols - a process known as in situ …
Effects Of Water Vapor On The Kinetics Of The Methylperoxy Radical Self-Reaction And Reaction With Hydroperoxy, Alecia Mower
Effects Of Water Vapor On The Kinetics Of The Methylperoxy Radical Self-Reaction And Reaction With Hydroperoxy, Alecia Mower
Theses and Dissertations
The gas phase reactions of CH3O2 + CH3O2, HO2 + HO2, and CH3O2 + HO2 in the presence of water vapor have been studied at temperatures between 263 and 303 K using laser flash photolysis coupled with UV time-resolved absorption detection at 220 nm and 260 nm. Water vapor concentration was quantified using tunable diode laser spectroscopy operating in the mid-IR. The HO2 self-reaction rate constant is significantly enhanced by water vapor, consistent with what others have reported, whereas CH3O2 self-reaction and the cross-reaction (CH3O2 + HO2) rate constants are nearly unaffected. The enhancement in the HO2 self-reaction rate coefficient …
Ferritin: Mechanistic Studies And Electron Transfer Properties, Bo Zhang
Ferritin: Mechanistic Studies And Electron Transfer Properties, Bo Zhang
Theses and Dissertations
Ferritins are ubiquitous iron storage proteins in living systems. Although much is known about the iron deposition process in ferritin and a mechanism has been developed, several important issues still remain unknown. One lingering question is the less than stoichiometric quantities of hydrogen peroxide detected in previous studies on animal ferritins. Extensive experimental data on identifying the species in competition for peroxide equivalents point to a surprising conclusion that H2O2 generated in the ferroxidase reaction is consumed by amine buffers that are commonly employed in in vitro ferritin studies, while non-nitrogen containing buffers, such as acetate, phosphate, and carbonate, do …
Development Of A Model For The Kinetics And Mechanism Of Nitrogenase, Phillip E. Wilson
Development Of A Model For The Kinetics And Mechanism Of Nitrogenase, Phillip E. Wilson
Theses and Dissertations
Nitrogenase has a central role in the global nitrogen cycle as the enzyme that catalyzes the reduction of atmospheric N2 to NH3. Fixed nitrogen is generally limiting in the environment and in agriculture, so nitrogenase has received much attention as an alternative to nitrogen fertilizers. Characterizing the mechanism of nitrogenase is the goal of this work. The molybdenum nitrogenase enzyme system is comprised of the MoFe protein and the Fe protein. Interactions between these proteins and nucleotides are crucial to catalysis. An important approach to characterize these interactions is to correlate the kinetics of nitrogenase catalysis to a mechanism based …