Diisopinocampheylborane Trifluoromethanesulfonate-Mediated Aldol Reactions Using An Aldehyde And An Amide, Camille Parker

Honors Theses

Aldol reactions are one of the most powerful reactions in organic chemistry because of the formation of new carbon-carbon bonds. A downside of aldol reactions is that they generate a mix of stereoisomers, therefore a lot of work has gone into developing methods that selectively favor a certain stereoisomer. We report an enatio and diastereoselective diisopinocampheylborane trifluoromethanesulfonate ((Ipc)₂BOTf) mediated aldol reaction with an amide and an aldehyde. Traditionally, (Ipc)₂BOTf-mediated reactions were not applied to amides, except with the use of strong bases. Here we developed a (Ipc)₂BOTf aldol reaction of amides using mild bases …

Synthetic Investigations In Chemical Probe Development Part 1: Design And Synthesis Of Novel Triton X-405 Adenosine Conjugates; Part 2: Synthesis Of 2,8-Dihydroxychrysene, Rachel Irene Hammond

Honors Theses

Although not drugs themselves, chemical probes are a necessary tool in biomedical research for the interrogation of biological systems. In the present synthetic investigation, two chemical probes were developed – a Triton X-405 adenosine conjugate (TX-405A) and 2,8-dihydroxychrysene. The designed TX-405A conjugate was generated in four steps through tosylation and amination of TX-405 such that EDC-coupling of TX-amine with 2’,3’-Isopropylidene adenosine-5’-carboxylic acid afforded TX-405A following acetonide deprotection. The development of TX-405A represents the first report of the synthesis and utilization of a detergent-linked dosimeter. The synthesis of 2,8-dihydroxychrysene provided an in-depth exploration on the unique reactivity of chrysene. The desired …

Antibacterial Activity, Structure-Activity Relationships, And Scale-Up Reaction Of 1,3,4-Oxadiazoles, Olivia Marie Smith

Undergraduate Honors Thesis Projects

Oxadiazoles are compounds in the field of organic chemistry that have been gathering interest in the medicinal chemistry and microbiology communities for their biological properties, which range from anti-inflammatory agents, to chemotherapy drugs, to antibiotics. The synthesis of oxadiazoles can be difficult due to the expensive and complex nature of the techniques used as well as the volatile reagents and elevated temperatures that are often required in organic synthesis. The Grote lab has recently developed a new method for the synthesis of 1,3,4-oxadiazoles under mild conditions. The goals of this thesis were thus twofold: to develop a viable scale-up procedure …

Investigations Involving Mononuclear And Dinuclear Transition Metal Catalysts For Photochemical Carbon Dioxide Reduction, Ansu Edwards

Honors Theses

There is currently a global energy crisis, which is in desperate need of solutions. New energy sources are required that will not pollute as much as our longstanding reliance on nonrenewable fossil fuels as an energy source. This pollution involves large amounts of greenhouse gas emissions, predominantly carbon dioxide (CO₂), that contribute to environmental problems such as climate change. In this context, a fairly recent research direction to address this problem is the development of transition metal catalysts that can convert CO₂ into reduced carbon products that can serve as chemical fuels. This work focuses on the …

Synthesis And Characterization Of Antiviral Drug Candidate Molecules Against The Respiratory Syncytial Virus, Ali Abbas Sabi

Dissertations

Abstract

Pyrrole-imidazole polyamides (PAs) are small molecules that typically develop H-bonds to bind to the minor groove of DNA. PAs are of interest because they can be designed to recognize DNA sequences. PAs have numerous biomedical applications in areas like regulation of gene expression and antimicrobial activity. Specifically, polyamide UMSL1011 (a polyamide synthesized in Dr. Bashkin's lab) inhibits replicating vesicular stomatitis virus (VSV) by binding the viral RNA inside the nucleocapsid, as indicated by research at Professor Ming Luo's lab at Georgia State University. However, some reports have revealed that polyamides have a low affinity for “simple” double-stranded RNA. Nevertheless, …

Synthesis Of Aromatic Fluorinated Ketones For Evaluation At The Gaba Receptor, Madeline Griffin

Honors Theses

GABA is a neurotransmitter that inhibits the excitation of neurons. Targeting this specific receptor has the potential to inhibit the central nervous system and possibly treat addiction, anxiety, or mood disorders. Previous research has shown that fluorinated ketones can have valuable applications in the medicinal chemistry of addiction. Some fluorinated ketones have shown activity at the GABA receptor. The main goal of this project was to synthesize aromatic fluorinated ketones for biological evaluation at the GABA_B receptor. Another goal was to compare both the monofluorinated and difluorinated analogues synthesized in order to quantify differences in activity from fluorination state. …

Design And Synthesis Of Novel Analogs As Potential Antitubercular Agents, Peggy Mccluggage

Honors Theses

Tuberculosis (TB) is an infectious, airborne disease which primarily infects the lungs. One-third of the world’s population is currently estimated to be infected with Mycobacterium tuberculosis (Mtb), the causative agent for TB [1]. Current treatment for this disease requires at least six months of taking multiple antibiotics with undesirable side effects [2]. Difficulty in complying to this regimen as well as the prevalence of HIV/AIDS has led to antimicrobial resistance seen in Mtb. In order to combat the Multi-Drug Resistant and Extensively-Drug Resistant strains of the disease-causing bacteria, preventative care and novel antibiotics are urgently needed [3]. The purpose for …

Potent And Potentially Non-Cardiotoxic Anthracyclines: Their Synthesis, Biological Evaluation, And Comparison Of Hydrozone-Mediated Reductions, Jerrett Holdaway

Boise State University Theses and Dissertations

After nearly half a century since medical approval, the anthracycline doxorubicin (DOX) remains one of the most potent and clinically useful anticancer agents. In spite of its long history, however, the cytotoxic mechanisms of DOX have been debated and remain controversial. Several well-supported mechanisms will be discussed, such as the potential to intercalate DNA and induce apoptosis through topoisomerase poisoning, free radical formation, and DNA cross-linking. While DOX has substantial medical importance, it is plagued by a life-threatening dose-dependent cardiotoxic side effect associated with several structural groups. A number of modifications to DOX have been accomplished to attempt to remove …

Synthesis Of A Nanoscale Gold-Coated, Thermoresponsive Molecular Release System., Ryan C. Weegens

College of Arts & Sciences Senior Honors Theses

The work presented here was performed in conjunction with an experimental group in order to prove the concept that an alternating magnetic field (AMF) could be used to induce an intramolecular cyclization to effect payload release. The system studied here consisted of a fluorophore tethered to gold-coated iron oxide nanoparticles (Fe₃O₄ NPs) via an organic linker consisting of 2 key elements: a carbonate (electrophile) and an amine (nucleophile). Connected to the carbonate was the fluorophore, anthracene, which was attached to the organic linker system by means of an oxime ether linkage. This thesis work served as the …

Chemoselective And Stereoselective Exploration Of The Chemical Reactivity Space Of Castagnoli-Cushman-Derived Allylic Lactamoyl Esters: Application To The Synthesis Of Aza-Polycyclic Architectures, Brandon Joseph Mansker

All Master's Theses

The synthesis and evaluation of structure-activity relationships of saturated nitrogen heterocycles is the focal point of various pharmaceutical companies thanks to the high biological activity of previously isolated azacycles. Here, we describe an operationally simple and highly efficient approach to macrocyclic lactams bearing vicinal stereocenters and a challenging cycloalkyne motif. The outcomes are achieved through a novel [4 + 2] cycloaddition reaction between an N-iodoarylated-1,3-azadiene and cyclic anhydrides, followed by interception of the cycloadducts in cross-coupling manifolds (e.g., Sonogashira coupling) and concomitant lithiation-cyclization of the tethered alkyne. An unprecedented example of a hydroamino alkylation that is transition …

Modified Seed Growth Of Iron Oxide Nanoparticles In Benzyl Alcohol: Magnetic Nanoparticles For Radio Frequency Hyperthermia Treatment Of Cancer, Stanley E. Gilliland Iii

Theses and Dissertations

Iron oxide nanoparticles have received sustained interest for biomedical applications as synthetic approaches are continually developed for precise control of nanoparticle properties. This thesis presents an investigation of parameters in the benzyl alcohol synthesis of iron oxide nanoparticles. A modified seed growth method was designed for obtaining optimal nanoparticle properties for magnetic fluid hyperthermia. With a one or two addition process, iron oxide nanoparticles were produced with crystallite sizes ranging from 5-20 nm using only benzyl alcohol and iron precursor. The effects of reaction environment, temperature, concentration, and modified seed growth parameters were investigated to obtain precise control over properties …

Ferrocene Constrained Helical Peptides Via On-Resin Cyclization, Thomas A. Mcteague

Senior Theses and Projects

Previous research within the Curran group has demonstrated that ferrocene may be used as an organometallic constraint to induce the formation of α-helices in short peptides which traditionally possess undefined conformations. Through strategic placement of lysine residues at the i and i+3 positions within the peptide, such a constraint was accomplished via the crosslinking of the lysine side chains to ferrocene dicarboxylic acid chloride in solution phase synthesis. The aim of this work was to develop a method for solid phase peptide synthesis (SPPS) for the synthesis of these ferrocene-constrained helices. In particular, we seek to develop a method in …

Synthesis And Evaluation Of Anibamine And Its Analogs As Novel Anti-Prostate Cancer Agents, Kendra Haney

Theses and Dissertations

The chemokine receptor CCR5 has been implicated in the pathogenesis of prostate cancer. A novel natural product, anibamine, was isolated and found to be a micromolar inhibitor of the receptor. Anibamine was used as a new anti-prostate cancer lead compound. To discover the pharmacophore, analogs of anibamine were designed using the “deconstruction-reconstruction-elaboration” approach and synthesized. The establishment of a stereoselective route to only one isomer was explored, to increase yield and eliminate elaborate purification procedures. Analogs were found to have anti-prostate cancer activity at levels higher than the parent compound. The molecular modeling studies of the deconstructed analogs indicate that …