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Articles 1 - 30 of 41
Full-Text Articles in Biochemistry
Characterizing The Dynamic Localization Of Cmi In Early Drosophila Development, Asra Habibullah
Characterizing The Dynamic Localization Of Cmi In Early Drosophila Development, Asra Habibullah
Master's Theses
The COMPASS-like family of lysine methyltransferases, MLR/MLX complexes, are epigenetic regulators that are essential for normal development through the methylation of the fourth lysine residue on histone 3 (H3K4), a universal epigenetic mark associated with active transcription. This family of complexes is highly conserved from yeast to mammals and the genes encoding the human MLR complexes have been associated with various developmental diseases and cancers (Dingwall and Fagan, 2019). In D. melanogaster, the enzymatic methyltransferase core of this complex is composed of two proteins: Cara Mitad (Cmi, also known as Lpt) and Trithorax-related (Trr). Although these proteins have been shown …
The Impacts Of Framework Mutations On Steady-State Kinetics Of An Aldolase Abzyme, Charles Andrew Mettler
The Impacts Of Framework Mutations On Steady-State Kinetics Of An Aldolase Abzyme, Charles Andrew Mettler
Master's Theses
During affinity maturation, antibodies acquire point mutations that lead to enhanced binding strength to a particular ligand while simultaneously becoming more conformationally restricted as they become increasingly complementary to their ligand’s electrostatic geometry. This property has catalytic potential in transition-state (TS) stabilization whereby kinetic barriers (i.e., the energetic gap between the substrate and its TS) are reduced and reaction rates are enhanced. This basic mechanism is thought to underlie the majority of the rate enhancement observed for enzymes. A key integration of antibody binding specificity and strength with enzymatic catalytic strategy is the development of catalytic antibodies (“abzymes”). Abzymes are …
Structural And Transient Kinetic Analysis On Mechanism-Based Inactivators Of Human Ornithine Aminotransferase, Arseniy Butrin
Structural And Transient Kinetic Analysis On Mechanism-Based Inactivators Of Human Ornithine Aminotransferase, Arseniy Butrin
Dissertations
HCC, Hepatocellular carcinoma, MBI, Mechanism-based inactivator, OAT, Ornithine Aminotransferase
Abl2 Promotes Alcohol-Associated Liver Disease Via Ppar Gamma Regulation, Gregory Malnassy
Abl2 Promotes Alcohol-Associated Liver Disease Via Ppar Gamma Regulation, Gregory Malnassy
Dissertations
Alcohol-associated liver disease (AALD) is an umbrella term for a spectrum of diseases resulting from chronic alcohol (e.g. ethanol) abuse ranging in severity from reversible conditions such as alcohol-induced steatosis to advanced and largely irreversible liver pathologies including alcoholic steatohepatitis (ASH), alcoholic hepatitis (AH), fibrosis, cirrhosis, and hepatocellular carcinoma (HCC). AALD is one of the primary causes of chronic liver disease worldwide and accounts for 44% of liver disease deaths in the United States. Drinking rates, both in the United States and globally, have increased year over year for the past three decades, a trend which has resulted in significantly …
Selectivity For Allosteric Effectors Of Bacterial Adp-Glucose Pyrophosphorylase: Structural And Functional Studies, Mashael Alghamdi
Selectivity For Allosteric Effectors Of Bacterial Adp-Glucose Pyrophosphorylase: Structural And Functional Studies, Mashael Alghamdi
Dissertations
The biosynthesis of the intracellular polysaccharide in bacteria and plants, glycogen and starch, respectively, controlled by the key regulatory step that catalyzed by ADP-Glucose Pyrophosphorylase (ADP-Glc PPase). ADP-Glc PPase is an allosteric enzyme regulated by metabolites produced of the principle carbon assimilation pathway in each organism. Agrobacterium tumefaciens enzyme activated by fructose 6-phosphate (Fru6P) and pyruvate, whereas Escherichia coli enzyme activated by fructose 1,6-bisphosphate (FBP), and both enzymes inhibited by AMP. Here, we targeted the allosteric regulation of the A. tumefaciens enzyme, examined some residues that may impact the regulation mechanism (Ser72, His71, Arg75, Ser351, Ser334, Arg368, Asn350, and Asp291), …
Human Isocitrate Dehydrogenase Enzymes, Joseph Valentein Roman
Human Isocitrate Dehydrogenase Enzymes, Joseph Valentein Roman
Dissertations
Mammals have three forms of isocitrate dehydrogenase (ICDH) that each catalyze the oxidative decarboxylation of isocitrate forming alpha-ketoglutarate (AKG), carbon dioxide and reduced pyridine nucleotide. The intra-mitochondrial, citric acid cycle enzyme is ICDH III that exists as a hetero tetramer and uses NAD+ as a substrate. ICDH I and ICDH II are both dimeric enzymes that reside in the cytosol and use NADP+. While, the precise function of the cytosolic ICDHs is not known, active site variants of both ICDH I and II cause a variety of cancers. The R132H variant of ICDH1 is one of the most common alterations. …
Yczr, A New Case Of Plp-Dependent Mocr/Gabr Type Transcription Regulator In Klebsiella Pneumonia, Yuanzhang Zheng
Yczr, A New Case Of Plp-Dependent Mocr/Gabr Type Transcription Regulator In Klebsiella Pneumonia, Yuanzhang Zheng
Dissertations
Increasing number of genes encoding PLP-dependent transcription regulators, MocR/GabR type regulators, have been identified in various bacterial genomes. However, only a handful of them, including MocR, PdxR and GabR have been studied experimentally. They control different aspects of the bacterial metabolism. Only GabR has reported crystallographic structures. MocR/GabR regulators possess a chimeric structure consisted of a WHTH DNA binding domain and an Aminotransferase-like regulation domain, which can bind PLP as an effector in transcription regulation. Such a chimeric construct presents an interesting case in molecular evolution. The regulation domains of All MocR/GabR type regulators loss their catalytic capacity during evolution …
Characterization Of The Effects Of Sex And Estrogen Receptor Signaling On Antigen-Specific T Cells For Immunotherapy, Flor Cecilia Navarro Negredo
Characterization Of The Effects Of Sex And Estrogen Receptor Signaling On Antigen-Specific T Cells For Immunotherapy, Flor Cecilia Navarro Negredo
Dissertations
Adoptive cell transfer (ACT) immunotherapy using antigen (Ag)-specific T cells is partially effective treating several malignancies but numerous challenges remain in order to improve its therapeutic potential. The roles of host factors, such as sex hormone receptor signaling, that can affect the T cell anti-tumor function remain understudied. The work performed in this dissertation characterized the role of estrogen signaling on T cell function in vitro, and during ACT immunotherapy against hepatocellular carcinoma (HCC) in vivo. Estrogen signaling through ERa enhanced the expression and secretion of Type I effector cytokines including IFNg, TNFa, and Granzyme B in male and female …
Characterization Of Quorum-Quenching Lactonases And Plp-Dependent Aminotransferases: Structure, Mechanism And Alternative Turnover, Romila Nina Mascarenhas
Characterization Of Quorum-Quenching Lactonases And Plp-Dependent Aminotransferases: Structure, Mechanism And Alternative Turnover, Romila Nina Mascarenhas
Dissertations
Cell-to-cell communication by bacteria is essential for the regulation of gene expression important in colonization, biofilm formation, virulence and other processes. This communication is called "quorum-sensing" and is mediated by small molecules called autoinducers. One major class of autoinducers used by gram-negative bacteria is N-acyl homoserine lactones (AHL's). Enzymes capable of disrupting this communication are called "quorum-quenching" catalysts and have proven to be invaluable biochemical tools for understanding quorum-sensing pathways. Quorum-quenching enzymes hold promise for application in anti-biofouling, agriculture, aquaculture, bioremediation and other synthetic biology settings. However, the mechanisms that these enzymes use to recognize and process their substrates are …
Characterization Of Multi-Albumin Pegylated Complexes Synthesized Using "Click" Chemistry As Drug Delivery Systems, Jonathan Alejandro Hill
Characterization Of Multi-Albumin Pegylated Complexes Synthesized Using "Click" Chemistry As Drug Delivery Systems, Jonathan Alejandro Hill
Dissertations
Due to its ability to transport hydrophobic materials through the bloodstream, human serum albumin has become an intriguing component for drug delivery systems. The most pressing concerns with current albumin-based systems are the risk of pathogenic transfer associated with human-sourced blood proteins, the negative effect on osmotic pressure due to administration of a large dose of albumins, the potential immune response and loss of biological activity due to heavy modification of these albumins, and the need for organic solvents for preparation of these products. Key residues in the two main drug binding sites, DS1 and DS2, are conserved in bovine …
Studies Into The Allosteric Regulation Of Adp-Glucose Pyrophosphorylases, Benjamin Luke Hill
Studies Into The Allosteric Regulation Of Adp-Glucose Pyrophosphorylases, Benjamin Luke Hill
Dissertations
The synthesis of glycogen in bacteria and starch in plants is allosterically controlled by the production of ADP-glucose by ADP-glucose pyrophosphorylase. Using computational studies, site directed mutagenesis, and kinetic characterization, and protein crystallography we found a critical region for transmitting the allosteric signal in the Escherichia coli and A. tumefaciens ADP-glucose pyrophosphorylase. Molecular dynamics simulations and structural comparisons with other ADP-glucose pyrophosphorylases provided information to hypothesize communication pathways that link allosteric and active sites, and this was tested by site-directed mutagenesis and kinetic characterization of the mutant enzymes. In addition, the application of x-ray crystallography enabled the pinpointing of the …
Development Of "Inside-Out" Pegylated Crosslinked Hemoglobin Polymers: Novel Hemoglobin-Based Oxygen Carriers (Hboc), Kyle Douglas Webster
Development Of "Inside-Out" Pegylated Crosslinked Hemoglobin Polymers: Novel Hemoglobin-Based Oxygen Carriers (Hboc), Kyle Douglas Webster
Dissertations
The development of an effective blood substitute is urgent due to increasingly common blood shortages, the need to type-match donated blood, and communicable diseases (e.g. HIV) posing risks for blood transfusions around the world. There have been many attempts at creating hemoglobin-based oxygen carriers (HBOC) using a variety of techniques centered around the use of polyethylene glycol (PEG) conjugated to hemoglobin (Hb) tetramers. A novel method, “Inside-Out” PEGylation, has been developed by our lab to produce a polyethylene glycol crosslinked hemoglobin (PEG XL-Hb) polymer. This method utilizes a single PEG backbone that is surrounded by multiple proteins, instead of covering …
Mechanistic Variations Of The Bronsted Linear Free Energy Relationships For Nonezymatic Nucleotidyl Transfer Reactions, Zheng Zhang
Dissertations
As the essential enzymes in human bodies, DNA polymerases play a significant role in DNA replication, repair, genetic recombination, and reverse transcription. In 1956, the enzyme of DNA polymerase I, also named as Pol I, was discovered by Arthur Kornberg and colleagues. Subsequently, the Noble Committee had decided that the Noble Prize in Physiology or Medicine for 1959 was to be awarded to Kornberg for his excellent original work that describes the DNA replication process whereby the DNA polymerase copies the nucleotide sequence of a DNA template strand. Because of the complex enzyme structure in the DNA polymerase, it is …
Study Of Escherichia Coli Adp-Glucose Pyrophosphorylase Catalysis: Investigating Critical Roles Of Conserved Arg32 And Lys42 Residues, Angela Lynn Mahaffey
Study Of Escherichia Coli Adp-Glucose Pyrophosphorylase Catalysis: Investigating Critical Roles Of Conserved Arg32 And Lys42 Residues, Angela Lynn Mahaffey
Dissertations
Carbohydrates have been most notable as energy sources for mammals, bacteria (glycogen) and plants (starch) – and in many other species. As such the biosynthesis of carbohydrates is essential to the sustainability of many forms of life, on earth. Adenosine-‘5-diphosphate glucose pyrophosphate (ADP-Glc pyrophosphorylase; ADP-Glc PPase) is the allosterically controlled “first committed step” in both the biosynthetic pathways of starch (~25% amylose and ~75% amylopectin, in plants and algae) and glycogen (in bacteria), preceding the starch/glycogen synthase reaction. By catalyzing the following reaction, ATP + α –D-Glc-1P ADP-Glc + PPi , ADP-Glc PPase functions as the primary enzyme in the …
Structure And Molecular Mechanism Of A Plp/Gaba Dependent Transcription Regulator Gabr, Rui Wu
Structure And Molecular Mechanism Of A Plp/Gaba Dependent Transcription Regulator Gabr, Rui Wu
Dissertations
GabR is a member of the MocR/GabR subfamily of the GntR family of bacterial transcription regulators. It regulates the metabolism of γ-aminobutyric acid (GABA), an important nitrogen and carbon source in many bacteria. The crystal structures reported here show that this protein has evolved from the fusion of a type I aminotransferase and a winged helix-turn-helix (wHTH) DNA binding protein to form a chimeric protein that adopts a dimeric head-to-tail configuration. The pyridoxal 5′-phosphate (PLP)-binding regulatory domain of GabR is therefore an example of a coenzyme playing a role in transcription regulation rather than in enzymatic catalysis. Our structural and …
Mutations In Phospholamban Alter The Structure And Function Of The Calcium Atpase Regulatory Complex, Neha Abrol
Mutations In Phospholamban Alter The Structure And Function Of The Calcium Atpase Regulatory Complex, Neha Abrol
Dissertations
Phospholamban (PLB) is an integral membrane protein that plays an important role in regulation of cardiac calcium handling and contractility. PLB exists as a homopentamer in the membrane, which upon deoligomerization into active monomers reversibly inhibits sarco/endoplasmic reticulum calcium ATPase (SERCA). Mutations in PLB that change the PLB monomer-pentamer equilibrium result in dysregulation of SERCA. To determine the structural and regulatory role of the C-terminal residues of PLB in the membranes of living cells, we fused fluorescent protein tags to PLB and SERCA. We then studied the effect of C-terminal alanine substitutions and truncation mutations on PLB oligomerization and SERCA …
Catalytic Mechanism And Maturation Of The Metalloenzyme Nitrile Hydratase, Natalie I. Gumataotao
Catalytic Mechanism And Maturation Of The Metalloenzyme Nitrile Hydratase, Natalie I. Gumataotao
Dissertations
Nitrile hydratases are metalloenzymes that catalyze the hydration of nitriles to their corresponding amides in a specific manner at ambient pressures and temperatures at neutral pH. Traditional industrial methods require high temperature and pressure, extreme pH, and heavy metals. NHases are used as biocatalysts in the large scale industrial production of amide precursors to textiles, animal feedstock, and polymers. Notably, NHase is used in the production of ~100,000 tons of acrylamide annually by the Mitsubishi Corporation.
Despite being used extensively in industry, questions remain about NHase. The catalytic mechanism is not defined. Understanding the way in which the nitrile is …
The Dape-Encoded N-Succinyl-L,L-Diaminopimelic Acid Desuccinylase (Dape) From Haemophilus Influenzae As A Prospective Target For The Development Of Novel Antibiotics, Anna Starus
Dissertations
The rapid emergence of bacteria that are resistant to todayfs antibiotics makes them more and more ineffective. Consequently, the need for a novel class of antibacterial agents is rapidly increasing. The importance of this project is emphasized by the emergence of several pathogenic bacterial strains that are resistant to all currently available antibiotics on the market today. One way to approach this problem is to develop drugs that target essential bacterial biosynthetic pathways. Based on bacterial genetic information, the meso]diaminopimelate (mDAP)/lysine biosynthetic pathway offers several potential anti]bacterial targets that have not been yet explored. One of these, the dapE-encoded N-succinyl-L,L-diaminopimelic …
Critical Functions Specified By The Mll Cxxc Domain Determine Leukemogenic Capacity, Noah Warren Birch
Critical Functions Specified By The Mll Cxxc Domain Determine Leukemogenic Capacity, Noah Warren Birch
Dissertations
TheMixed Lineage Leukemia(MLL) gene can participate in chromosomal translocations which generate a fusion protein leading to acute leukemia. A better understanding of how MLL fusion proteins contribute to leukemia is necessary in order to develop more effective treatments. In my dissertation project, I investigated the functional role of amino acids within the MLL CXXC domain to determine how specific residues contribute to leukemogenic capacity.
MLL fusion proteins retain the amino-terminal portion of MLL including the CXXC DNA-binding domain while the carboxy-terminal portion is comprised of a fusion partner. The closest homolog of MLL, MLL2 (alternatively named MLL4), also contains a …
Biophysical Characterization Of Tryptophan Locales, Mg²+ Binding And Protein Folding In Gα Subunits, Matthew Najor
Biophysical Characterization Of Tryptophan Locales, Mg²+ Binding And Protein Folding In Gα Subunits, Matthew Najor
Dissertations
The objective of this study is to understand the structure of guanine nucleotide - binding (G) proteins using a variety of spectroscopic tools. G proteins are membrane-bound proteins consisting of α, β, and γ subunits required for the transduction of extracellular signals to various intracellular effectors. Activation of G protein coupled receptors by neurotransmitters or hormones result in a conformational change of a G protein that is triggered by the exchange of guanosine 5'- diphosphate (GDP) bound to the subunit for guanosine 5'- triphosphate (GTP) and concomitant dissociation of the dimer.
Wild type (WT) Giα1 has three tryptophan …
Role Of Non-Coding Rna Nc4 In Mll And Cyp33 Mediated Regulation Of Hoxc8, Jessica Arvindbhai Solanki
Role Of Non-Coding Rna Nc4 In Mll And Cyp33 Mediated Regulation Of Hoxc8, Jessica Arvindbhai Solanki
Dissertations
MLL or Mixed Lineage Leukemia gene is clinically known for its involvement in genetic translocation with more than 70 different partners identified each giving rise to a highly leukemogenic fusion protein. With a poor prognosis of MLL related leukemia, an investigation into its role during hematopoiesis has been a very active field of research. In order to design strategies to combat the MLL leukemia, it becomes essential to delineate the molecular mechanisms behind the function of MLL wild type protein. Wild type MLL is a transcriptional maintenance protein from the Trithorax Group (TrxG) that resides in complex with other chromatin …
Polyomavirus Enhancer Activator 3 (Pea3), A Member Of The Ets Family Of Transcription Factors, Is A Transcriptional Activator Of Notch-1 And Notch-4 In Breast Cancer: An Opportunity For Novel Combinational Therapy, Anthony George Clementz
Polyomavirus Enhancer Activator 3 (Pea3), A Member Of The Ets Family Of Transcription Factors, Is A Transcriptional Activator Of Notch-1 And Notch-4 In Breast Cancer: An Opportunity For Novel Combinational Therapy, Anthony George Clementz
Dissertations
Women diagnosed with triple-negative breast cancer have the worst overall prognosis and frequently present with metastatic tumors. To date, there are no targeted therapies available to combat this aggressive form of breast cancer due to the lack of expression of well-known targets such as ER-alpha, PR, or HER2/neu. Therefore, there is an immediate need to identify novel targets that are responsible for the proliferation, survival, and invasive phenotype. Notch-1 and Notch-4, both potent breast oncogenes, are overexpressed in triple-negative breast cancers-associated with the poorest overall survival. PEA3 (polyomavirus enhancer activator 3), a member of the Ets family of transcription factors, …
New Cyclophanes As Supramolecular Scaffolds: The Synthesis Of Tribenzo-1,4,7-Triazacyclononatriene., Andria M. Panagopoulos
New Cyclophanes As Supramolecular Scaffolds: The Synthesis Of Tribenzo-1,4,7-Triazacyclononatriene., Andria M. Panagopoulos
Dissertations
Supramolecular chemistry involves the formation of complex molecular entities that have the capacity to participate in specific molecular recognition of guest molecules. A commonly employed scaffold in supramolecular chemistry is the trimeric crown-shaped molecule cyclotriveratrylene (CTV). CTV has been studied extensively for its capability of binding a number of smaller organic and organometallic guests within its bowl-shaped cleft and has been used as a building block enabling the construction of more complex cryptophanes. The goal of this research is the synthesis and characterization of a novel cyclophane, tribenzo-1,4,7-triazacyclononene and derivatives thereof. These new cyclophanes should have greater versatility than the …
Structure-Function Relationship Studies Of The Udp-Glucose Pyrophosphorylase From Escherichia Coli, Agnieszka Maria Orlof
Structure-Function Relationship Studies Of The Udp-Glucose Pyrophosphorylase From Escherichia Coli, Agnieszka Maria Orlof
Master's Theses
UDP-Glucose Pyrophosphorylase (UDP-Glc PPase) is a key enzyme of the carbohydrate metabolic pathway widely used among prokaryotes and eukaryotes. In plants, UDP-Glc PPase is necessary for sucrose synthesis while mammals utilize this enzyme for the production of glycogen. A bacterium such as Escherichia coli uses UDP-Glc PPase for biosynthesis of the lipopolysscharide core which forms a cell wall.
This study focused on UDP-Glc PPase from Escherichia coli which is encoded by both galU and galF genes. The first part of this project investigated amino acids that could play an important role in the function of UDP Glc PPase (GalU). Based …
Singlet-Oxygen-Mediated Inactivation Of Acetylcholinesterase: A Comparison Of Purified Enzyme In Solution And Enzyme Bound To K562 Leukemia Cells, Gail D. Deadwyler
Singlet-Oxygen-Mediated Inactivation Of Acetylcholinesterase: A Comparison Of Purified Enzyme In Solution And Enzyme Bound To K562 Leukemia Cells, Gail D. Deadwyler
Dissertations
No abstract provided.
The Effects Of Ethanol On The Developing Serotonergic Neurons, Jung-Ae Kim
The Effects Of Ethanol On The Developing Serotonergic Neurons, Jung-Ae Kim
Dissertations
No abstract provided.
Cloning Of Multiple Novel Human Trinucleotide Repeat Containing Cdna's: A Novel Application Of Rapid Amplification Of Cdna Ends (Race), James P. Carney
Cloning Of Multiple Novel Human Trinucleotide Repeat Containing Cdna's: A Novel Application Of Rapid Amplification Of Cdna Ends (Race), James P. Carney
Dissertations
No abstract provided.
The Endocytosis Of Iodinated Protein Substrates In Cultured Human Skin Fibroblasts, Daniel P. Wilcockson
The Endocytosis Of Iodinated Protein Substrates In Cultured Human Skin Fibroblasts, Daniel P. Wilcockson
Master's Theses
No abstract provided.
Transformation Related Defects In Vacuolar Acidification And Mannose 6-Phosphate Receptor Function: Effects On Lysosomal Targeting, Valerie Pracht
Transformation Related Defects In Vacuolar Acidification And Mannose 6-Phosphate Receptor Function: Effects On Lysosomal Targeting, Valerie Pracht
Dissertations
No abstract provided.
Lysosomal Enzyme Secretion In Tumor Cells And The Purification And Partial Characterization Of A 67 Kda Cathepsin B-Like Enzyme Secreted By B16 Melanoma Cells, Charles Achkar
Dissertations
No abstract provided.