Biochemistry Commons^™

Diaryl Oxazoles As Cleavable Linkers For Drug Discovery Platforms, Elizabeth Taggart

Honors Theses

Within the field of medicine and pharmacology, discovering small molecule or biologic based molecules with therapeutic potential is a difficult task. Current methods involve individually screening hundreds of compounds on a potential target biomolecule, and recent technologies have explored peptide encoded libraries (PELs) as a means of making this screening process more high-throughput. These libraries produce a large number of small molecule drug candidates each conjugated to a unique peptide fragment, functioning as a barcode. Analysis of PELs requires the capture of hit small molecules and the subsequent release of their peptide tags; however, current approaches are limited in their …

Chemical And Genetic Composition Analysis Of Organic And Nonorganic Tortilla Chips, Aubrey White-Day

Honors Theses

The aim of this study was to explore the chemical and genetic differences between organic and nonorganic tortilla chips using GC-MS and PCR. Twenty chip brands were selected: 10 organic and 10 nonorganic. A survey on shopping preferences was created and distributed to compare results of public opinion to experimental data. It yielded 212 responses. All organic chip brands, and one out of ten nonorganic chip brands, tested negative for GMOs. This study concluded that there are minimal chemical differences based on Jaccard similarity indicies and stark genetic differences between organic and nonorganic tortilla chips. In comparing statistical analyses to …

Structural Integrity And Stability Of Dna In Ionic Liquid And Near-Infrared Indolizine Squaraine Dye, Ember Yeji Suh

Honors Theses

Luminol, the most common presumptive test for blood at a crime scene, has multiple issues, such as false positive results with chemical agents, no luminescence due to “active oxygen” cleaning agents on bloodstains, and inability to penetrate textile materials. A combination of indolizine squaraine dye and ionic liquid (IL), or Dye Enhanced Textile Emission for Crime Tracking (DETECT), have shown potential to address these issues. The purpose of this study was to assess the binding mechanism of CG (1:1) and SO₃SQ dye to HSA and how the mechanism can explain the W214 fluorescence quenching effect and to determine …

De Novo Design Of Artificial Cu Peptide For Substrate Oxidation And An Electrochemical Approach To Determine Reorganization Energy, Morgan Murphy

Honors Theses

Copper enzymes are found in nature. Their mechanisms and properties are unknown, as spectroscopy is limited. By creating artificially designed copper peptides through de novo design, the behavior, characteristics, and spectroscopy of copper enzymes can be studied to enhance understanding of the mechanisms involved with enzyme catalysis. Design, synthesis, purification, and characterization are completed to create a quality peptide mutant that can be studied to learn about natural enzymes. This plays an important role in pharmaceutical research, renewable energy sourcing, and studies of biological processes in the body. In this study, 3SCC de novo peptide is mutated at different positions, …

Is Vdac1 A Novel Bcl2 Family Member That Binds Bax?, Claire Pearson

Honors Theses

Apoptosis is a type of regulated cell death important for normal embryonic development and maintenance of adult tissues by removing excess or dysfunctional cells to ensure proper functioning of organs. The Bcl-2 family of proteins determines whether apoptosis remains suppressed or becomes activated through the balance of interactions among pro-survival and pro-death members. A defining feature of the Bcl-2 family is a BH3 domain that drives interactions between the family members. Isoform 1 of the voltage dependent anion channel (VDAC1) has an important role in metabolism, but was recently found to have high homology with known BH3 domains. This study …

Electrochemical Reduction Of Carbon Dioxide Using Ruthenium And Amines, Sydney Moise

Honors Theses

With an increased concern for climate change in the recent years, a significant area of research has been devoted to the reduction of greenhouse gases. Carbon dioxide (CO2) resides in the atmosphere between 300 – 1000 years, making the reduction of the molecule a substantial field of study.1 Amines have been used as CO2 scrubbing agents in literature historically, due to their ability to form bonds to carbon.2 Although studies involving metal catalysts and amines have been reported numerous times, research involving chemical reduction of CO2 using purely amines is scarce. In this paper, amines, in addition to hydride donors …

Investigating The Helicase Activity Of Methylated Vs Unmethylated Ded1, Hannah Lukow

Honors Theses

Ded1 is an RNA helicase protein of the DEAD-box subfamily in eukaryotic organisms (Sharma & Jankowsky, 2014) which can act as an activator or initiation factor, during translation (Hilliker et al., 2011). Ded1 has several functions in yeast including assembly of translational initiation factors, scanning the mRNA for the start codon, and unwinding any double stranded segments of mRNA with its helicase ability. Ded1 was discovered to be methylated at four arginine sites in vivo (Low et al., 2013), with a fifth methylation site being discovered recently (Low et al., 2020), however the purpose of such post-translational modifications is still …

The Role Of Cerium(Iii) In Bacterial Growth And The Microbial Transformation Of Aromatic Hydrocarbons, Shruti Sathish

Honors Theses

Biofilms are communities of surface-attached bacterial cells encased in an exopolymeric matrix. In this state, they are more resistant to antimicrobial treatment and can have adverse effects in medical, agricultural, and industrial settings. Whereas, as biocatalysts, biofilms from nonpathogenic bacteria enhance their performance and stability in catalysis. Unfortunately, there are several challenges when using bacteria in organic transformations due to their complex cellular chemistry. Trivalent lanthanide metals were discovered to serve regulatory roles in some bacterial catalytic processes, including those of Pseudomonas putida KT2440 (P. putida), a non-infectious Gram-negative bacterium. The main goal of our research is to use cerium(III) …

Early Life Δ9-Tetrahydrocannabinol Exposure Of F0 Zebrafish Causes Hyperactivity In F1 Offspring, Jenna Cripe

Honors Theses

As cannabis increases in its accessibility, potency, and acceptance across the United States, investigation into the multigenerational effects of Δ9-tetrahydrocannabinol (THC) exposure during key stages of development is critical. The aim of this study was to evaluate whether there would be behavioral impacts in the F1 offspring following a dose-response of THC exposure (0.08, 0.4, or 1 µM) during development in the F0 generation. Zebrafish (Danio rerio) were utilized in this study. Behaviors (locomotive activity and anxiety-like behavior) in the F1 generation were evaluated at 120 hours post-fertilization (hpf) with the larval photometer response (LPR) assay, and at 3, 11, …

Mutations In Caveolin Binding Motif Alter Human Follicle Stimulating Hormone Receptor Signaling, Katarina Zahedi

Honors Theses

Globally, there are about 48 million couples and 186 million individuals of reproductive age that are affected by infertility. Some cases of infertility in both men and women have been attributed to impaired follicle stimulating hormone (FSH) signaling. The lack of proper function of the cognate receptor for FSH (FSHR) could contribute to infertility since the biochemical signal generated by FSH binding to FSHR stimulates the production of a sperm-stabilizing protein in males and follicle maturation in females. It has been demonstrated that human FSHR (hFSHR) localizes to lipid rafts, which are rigid and detergent-resistant microdomains in the cell membrane. …

Lipid Raft Disruption Alters Human Follicle Stimulating Hormone Receptor Signaling, Rachel Judith Godek

Honors Theses

Over 6.7 million people struggle with infertility each year. Studying signaling by reproductive hormones in fertility can allow us to gain a better understanding of the signaling pathways that must function correctly for proper fertility. Some infertility is due to incorrect human follicle stimulating hormone receptor (hFSHR) function. When follicle stimulating hormone (FSH) binds to hFSHR this begins a signaling cascade where the end product is the maturation of sperm by Sertoli cells in men, and egg development and production of estrogen through stimulation of granulosa cells in women. It has been determined that hFSHR is localized to microdomains of …

Cortisol Receptor Sensitivity As A Risk Factor For Depression, Michela Michielli

Honors Theses

In 2020, the World Health Organization reported over 264 million people across the world were suffering from depression. Studies have demonstrated that one source of depression is a hormonal imbalance involved in the stress response. Cortisol is a stress hormone regulated by the Hypothalamic-Anterior-Pituitary (HPA) Axis. Its effects on the stress response and other metabolic activities in the body are exerted through the glucocorticoid and mineralocorticoid receptors (GR and MR respectively).

Our research has examined mutations known as single-nucleotide-polymorphisms (SNPs) relating to cortisol-receptor sensitivity and the behavior of cortisol in the body to investigate the link between cortisol activity and …

Investigating The Role Of The Cholesterol Recognition/Interaction Amino-Acid Consensus Sequence In Follicle Stimulating Hormone Receptor Function And Structure, Tatyana Lynn

Honors Theses

Human infertility is a complex disorder that can often be attributed to a dysfunction of the endocrine system. Follicle-stimulating hormone (FSH) is one of many hormones that participate in a complex process in both women and men to regulate normal reproduction. The dysfunction of this hormone and its receptor are some of the many causes of infertility. FSH is secreted by the anterior pituitary and, in women, initiates a cascade of biological events that enable ovulation. FSH carries out its function by binding and activating specific receptors. The FSH receptor (FSHR) is a G protein-coupled receptor (GPCR) that is located …

Blocking The Entry Of Hiv Into Host Cells Through Co-Receptor Inhibition, Garyfallia Ralli

Honors Theses

The goal of our project is to synthesize a dual CXCR4/CCR5 co-receptor inhibitor to block the entry of HIV into host cells. In the early phase of the HIV-1 replication cycle, HIV-1 binds to host cells through the CD4 protein present on the host cell surface. To infect the cell, HIV-1 requires further interactions that promote fusion of the viral and cellular membranes. This can occur through binding to the chemokine co-receptors such as CXCR4 and CCR5. We are choosing dual inhibition since under selective pressure of a CCR5 antagonist, CXCR4-using strains have been shown to predominate. Through dual inhibition, …

Oligomerization Of Amyloid-Β Peptide In The Presence Of Gangliosides–Implications For Alzheimer Disease, Sydney Boyd

Honors Theses

Alzheimer disease (AD) is a neurodegenerative disorder that leads to memory impairment and cognitive dysfunction in elderly populations worldwide. A key characteristic of AD is the formation of neuritic plaques composed of extracellularly deposited aggregates of amyloid-β (Aβ), an intrinsically disordered protein. Although Aβ fibrils were once thought to be the prime initiators of the disease, research has since been shifted to consider soluble, low molecular weight Aβ oligomers as the driving force behind AD toxicity. Due to its origin as a cleavage product of amyloid precursor protein (APP), an integral membrane protein, Aβ is known to perpetually interact with …

Expression And Purification Of The Bacterial Protein Curli Csga And Its Cross-Interactions With Amyloid-B, Leah Grace Cantrell

Honors Theses

One of the main causes of neurodegenerative diseases is aggregation of amyloid proteins that are toxic to the neurons. Proteins like amyloid-β (Aβ) and α-syneuclein (α-syn) form hallmark aggregate lesions that contribute to pathological processes in the brain in Alzheimer and Parkinson’s patients, respectively. Recent ground-breaking studies have suggested a link between the microbiota of the gut and neurodegenerative diseases, called the “gut-brain axis.” It has been long known that the protein, CsgA found in many enteric bacteria, forms amyloid fibers of its own called Curli. Curli fibrils are a structural component of bacterial colonies and maintain the integrity of …

Retro-Structural Analysis Of The Four Helix Bundle Motif In Binuclear Proteins, Walker Pedigo, Maggie Smith

Honors Theses

Protein structure is directly related to protein function. There are four levels of protein structure: primary, secondary, tertiary, and quaternary. The interactions amongst the structural components of a protein give rise to its unique characteristics. The four helix bundle motif is a common structural trait in a variety of binuclear proteins. In this study, PyMOL, a molecular visualization system, was used to analyze binuclear proteins that possess a four helix bundle. Images of proteins containing dicopper, diiron, and dimanganese sites were captured. The images were compiled into figures for each individual protein. After creating the figures, each protein was further …

Isolation Of Sphingolipids From Sphingomonas Echinoides B-3126 And Their Characterization By Ms/Ms Analysis, Edgar David Uribe Sanchez

Honors Theses

EDGAR DAVID URIBE SANCHEZ: Isolation of Sphingolipids from Sphingomonas echinoides B-3126 and their Characterization by MS/MS Analysis

Sphingolipids are important components in human cellular lipid membranes and are differentiated by the incorporation of serine with an amide bond between the amino acid and a lipid tail. Sphingolipids produced by bacteria differ in both headgroups attached to the serine alcohol and the architecture of the lipid backbone. While the synthesis of sphingolipids in mammalian cells is well studied, only a handful of steps in the pathway are described in bacteria.¹ The observations that although sphingolipid synthesis is rare in bacteria, …

Determining The Distribution Of Elemental Compounds And Oxidative Potential Across Fine Particulate Matter (Pm2.5) Filters, Allie Michelle Sidwell

Honors Theses

Fine particulate matter (PM_2.5) is a complex mixture of particles and sorbed chemicals that poses serious, adverse effects on human health such as increasing cardiovascular and respiratory morbidity and mortality. There is ongoing research into the impacts of PM_2.5 of differing chemical compositions, sampling location, and the mechanisms for the observed health effects. To conduct these analytical and toxicology studies of PM_2.5, researchers often split filters into sections. This process allows multiple, often destructive, assays to be performed. Our previous research showed chemical composition differences across PM_2.5 filters. The goal of our study was …

Covalent Modification Of Recombinant Protein With Reactive Thiols, Sawyer Dulaney, Bailey Taylor

Honors Theses

Many diseases cause chronic and painful inflammation in different body systems. One of the front-line drug classes to treat such inflammation is Nonsteroidal Anti-Inflammatory Drugs (NSAIDs). Despite the benefits of oral administration of NSAIDs, there are drawbacks to their long-term usage because they can cause detrimental effects on off-target systems in the body such as the liver, kidney, or the lining of the intestinal tract. An alternative to NSAIDs is the usage of hydrogels for targeted drug delivery. Hydrogels can provide drug delivery in a specific portion of the site of inflammation, thus allowing higher doses of medication to be …

The Effects Of Crowding Agents On The Pka Of Physiologically Stable I-Motif Dna, Courtney Turner

Honors Theses

The overall goal of this thesis was to investigate the environmental conditions that induce i-Motif folding of the DNA strand DUX4L22, a cytosine-rich segment of DNA found in the human genome. Cellular conditions were simulated using sodium cacodylate buffer and multiple weights of polyethylene glycol as a crowding agent. The presence of i-motifs were confirmed by Circular Dichroism spectroscopy. I found that DUX4L22 does form i-motifs under these physiological simulations at both acidic and neutral pHs. DUX4L22 therefore shows potential for use in studies of a wide variety of biotechnological advances, such as regulatory switches in nanomachines or drug-delivery systems.

Investigation Of Cotinine Concentration Found In Saliva Of Smokers And Vapers In Demographic Sectors, Seth A. Sims

Honors Theses

A simple and reproducible method for investigation of cotinine and nicotine levels in saliva was developed by utilizing gas chromatography mass spectrometry (GCMS) and simple extraction techniques. This method allowed for accurate detection of cotinine in saliva samples collected within a 50-mile radius of Searcy, AR. The observed cotinine levels proportionately depict nicotine levels, which were then compared with participants’ demographics, displaying trends among different communities. This research hopes to provide insight into vaping popularity as well as a reproducible method that future research can utilize.

Observing Reactive Events At The Aqueous Graphene Oxide Interface Using Deep Neural Network Potentials, Lukas Kim

Honors Theses

No abstract provided.

Investigating The Overexpression Of And Molecular Mechanism Utilized By Acetyl-Coa Carboxylase, Blaire Peterson

Honors Theses

No abstract provided.

Synthesis Of Alpha Domain Of Metallothionein For Hydrogen Production, Aditya Surakanti

Honors Theses

The world relies on nonrenewable resources for a significant portion of its usable energy, the most common being fossil fuels. Fossil fuels release many unwanted byproducts during their extractions and conversion processes. As a result, this excessive use leads to harsh consequences upon the environment, including rapid global warming, release of numerous water and air pollutants, and it could possibly lead to an increased risk of death in those who are exposed to these toxins. In response to this scenario, the goal of my project is to design an artificial hydrogen catalyst, which can absorb sunlight and oxidize H2O into …

Attempted Synthesis & Antibacterial Properties Of Apt-6k Against Ndm-1 K. Pneumoniae, Alec Bofetiado

Honors Theses

NDM-1 K. pneumoniae is a highly resistant bacterial organism that is capable of causing debilitating nosocomial infections in immunocompromised patients. Only "last-resort" antibiotics--such as colistin--work against this organism. Therefore, new antibiotics are needed to help fight against these types of infections. APT-6K is a novel compound that was demonstrated to be effective against MRSA with nanomolar concentrations in a prior study. Novel methods of APT-6K synthesis and its testing for antibiotic effects against NDM-1 K. pneumoniae were attempted in this research. APT-6K synthesis was unsuccessful. Commercially-prepared APT-6K also did not demonstrate growth inhibition against NDM-1 K. pneumoniae nor against a …

Analysis Of Caveolin-1 Expression And Interaction With Fshr In Lipid Raft Domains, Joseph Bott

Honors Theses

For thousands of women in the United States ovarian cysts, tumors, and hormonal imbalances contribute to reduced fertility and fecundity. In addition to these factors, many other unexplained physiological mechanisms may play a role in women’s reproductive health. Specifically, human follicle stimulating hormone (hFSH) binds to a G protein coupled receptor (GPCR) called human follicle stimulating hormone receptor (hFSHR). This interaction helps to regulate the reproductive system in both males and females indicating that it may be a key player to target in order to promote fertility. Previous work in our lab has demonstrated that hFSHR, like other GPCR, has …

Chemical And Co-Solute Effects Of Polyethylene Glycol On I-Motif Formation, Lindsey Rutherford

Honors Theses

DNA typically forms Watson and Crick double helix structures in which adenine, thymine, guanine, and cytosine pair with their complimentary DNA base. However, DNA i-motif structures can form in cytosine rich DNA, typically under slightly acidic conditions (~pH 6). DNA i-motifs are four stranded secondary structures in which cytosine pairs with cytosine to form a quadruplex. The i-motifs are typically formed in acidic conditions because of the protonation in the C•C base pair between one of the three hydrogen bases. Recent studies have suggested i-motifs can also form under neutral conditions, which is more realistic for a cell. It is …

Effects Of Crowding Agents On I-Motif Dna, Hayden Brines

Honors Theses

Deoxyribonucleic acid (DNA) is a well-known double stranded, helical, biological molecule. In addition to its more commonly known structure, DNA can also form more complicated structures like G-quadruplexes and i-motifs (iM). The iMs are formed by cytosine rich DNA and are a four stranded structure that is typically looped around itself. The iM formation is typically pH-dependent and is favored in more acidic conditions; the pKa value is approximately 6.5. This pKa value allows for potential in vivo formation, since the cells have a pH of approximately 7.3. Due to this, iMs are thought to be powerful, innovative molecules for …

Molecular Dynamic Simulation Of The Complex Folding Patterns Of Apolipoprotein A1 In Various Concentrations Of Potassium Chloride, Hannah Holmberg

Honors Theses

Apopliprotein or ApoA-1 is a complex lipoprotein that functions in the removal of cholesterol from the blood, removing cholesterol from the area around white blood cells and promoting the excretion of lipids through the lymphatic system. Previous research has found that ApoA-1 shows both folded and unfolded conformations depending on the concentration of NaCl in solution in the water around it. The protein was studied using molecular dynamics simulations. Once this state of equilibrium was reached, various structural properties of the protein were measured including the radius of gyration and the radial distribution function. The goal of the project was …