Physical Sciences and Mathematics Commons^™

Effect Of Side Chains On Organic Donor (D) And Acceptor (A) Complexes And Photophysical Properties Of D-A Dyads, Amarnath Bheemaraju

Open Access Dissertations

This dissertation aims to understand the effect of incompatible side chains on the complexes of pi-conjugated electron-rich donors and electron-deficient acceptors in solution. The role of incompatible side chains were studied in simple mixtures of organic donor and acceptor molecules that form donor-acceptor complexes. The incompatible branched and linear alkane side chains on the acceptor and donor respectively prevented complex formation between naphthalene diimide acceptor and naphthalene ether donor. However, the incompatible hydrocarbon-fluorocarbon and polar-non polar side chain pairs did not affect complex formation between the donor and acceptor. In quaterthiophene-naphthalene diimide dyads, the incompatibility of the side chain on …

Selective Inhibition And Mechanistic Studies Of The Human O2 Sensor, Prolyl Hydroxylase Domain 2 (Phd2), Shannon Coates Flagg

Open Access Dissertations

Prolyl Hydroxylase Domain 2 (PHD2) has been identified as a key oxygen sensor in humans along with Factor Inhibiting Hypoxia Inducible Factor (FIH). As such PHD2 and FIH play critical roles in myriad pathways of medical relevance by hydroxylation of their target substrate hypoxia inducible factor (HIF), a transcription factor responsible for the regulation of over 100+ genes. With such critical roles in human physiology the ability to selectively regulate these two enzymes could potentially lead the way for novel therapeutic treatments of a vast array of disease states from cancer to myocardial infarction. We report on three classes of …

Controlled Oxygen Activation In Human Oxygen Sensor Fih, Evren Saban

Open Access Dissertations

One of the primary oxygen sensors in human cells, which controls gene expression by hydroxylating the hypoxia inducible transcription factor (HIFα) is the factor inhibiting HIF (FIH). As FIH is an alpha-ketoglutarate dependent non-heme iron dioxygenase, oxygen activation is thought to precede substrate hydroxylation. The coupling between oxygen activation and substrate hydroxylation was hypothesized to be very tight, in order for FIH to fulfill its function as a regulatory enzyme. Coupling was investigated by looking for reactive oxygen species production during turnover. Alkylsulfatase (AtsK), a metabolic bacterial enzyme with a related mechanism and similar turnover frequency, was used for comparison, …

Design And Synthesis Of A New Class Of Self-Cross-Linked Polymer Nanogels, Siriporn Jiwpanich

Open Access Dissertations

The design and engineering of nanoscopic drug delivery vehicles that stably encapsulate lipophilic drug molecules, transport their loaded cargo to specific target sites, and release their payload in a controlled manner are of great interest in therapeutic applications, especially for cancer chemotherapy. This dissertation focuses on chemically cross-linked, water-soluble polymer nanoparticles, termed nanogels, which constitute a promising scaffold and offer the potential to circumvent encapsulation stability issues. A facile synthetic method for a new class of self-cross-linked polymer nanogels, synthesized by an intra/intermolecular disulfide cross-linking reaction in aqueous media, is described here. This simple emulsion-free method affords noncovalent lipophilic guest …

Mutational Analysis Of Geopilin Function In Geobacter Sulfurreducens, Lubna V. Richter

Open Access Dissertations

Geobacter sulfurreducens possesses type IV pili that are considered to be conductive nanowires and a crucial structural element in biofilm formation, enabling electron transfer to insoluble metal oxides in anaerobic sediments and to graphite anodes in microbial fuel cells. The molecular mechanism by which electrons are transferred through the nanowires to the electron acceptor is not fully understood. Prior to the work described in this thesis, the gene (pilA) encoding the structural pilus subunit had been identified, but little was known about the functional translation start codon, the length of the mature secreted protein, or what renders the pili conductive. …

Molecular Designs For Organic Semiconductors: Design, Synthesis And Charge Transport Properties, Tejaswini Sharad Kale

Open Access Dissertations

Understanding structure-property relationship of molecules is imperative for designing efficient materials for organic semiconductors. Organic semiconductors are based on π-conjugated molecules, either small molecules or macromolecules such as dendrimers or polymers. Charge transport through organic materials is one of the most important processes that drive organic electronic devices. We have investigated the charge transport properties in various molecular designs based on dendrons, dendron-rod-coil molecular triads, and conjugated oligomers. The charge transport properties were studied using bottom contact field effect transistors, in which the material was deposited by spin coating.

In case of dendrons, their generation and density of charge transporting …

Colloidal Microcapsules: Surface Engineering Of Nanoparticles For Interfacial Assembly, Debabrata Patra

Open Access Dissertations

Colloidal Microcapsules (MCs), i.e. capsules stabilized by nano-/microparticle shells are highly modular inherently multi-scale constructs with applications in many areas of material and biological sciences e.g. drug delivery, encapsulation and microreactors. These MCs are fabricated by stabilizing emulsions via self-assembly of colloidal micro/nanoparticles at liquid-liquid interface. In these systems, colloidal particles serve as modular building blocks, allowing incorporation of the particle properties into the functional capabilities of the MCs. As an example, nanoparticles (NPs) can serve as appropriate antennae to induce response by external triggers (e.g. magnetic fields or laser) for controlled release of encapsulated materials. Additionally, the dynamic nature …

Caspase-7 Loop Conformations As A Means Of Allosteric Control, Witold Andrej Witkowski

Open Access Dissertations

The caspase family of proteins is critical to biological understanding, because they serve as the final arbiters of life and death, being the initiators and executioners of cell death. Specifically, caspase-7 plays a key role in apoptosis, however its full complement of targets within the cell has not yet been elucidated, nor has its function been targeted by drug design efforts. These factors stem from the lack of fundamental understanding of the structural dynamics of the protein, including the mobile loops that constitute the active site binding groove of caspase-7, and their ability to modulate the function of the protein. …

Engineering Nanoparticles Surface For Biosensing: "Chemical Noses" To Detect And Identify Proteins, Bacteria And Cancerous Cells, Oscar Ramon Miranda-Sanchez

Open Access Dissertations

Rapid and sensitive detection of biomolecules is an important issue in nanomedicine. Many disorders are manifested by changes in protein levels of serum and other biofluids. Rapid and effective differentiation between normal and cancerous cells is an important challenge for the diagnosis and treatment of tumor. Likewise, rapid and effective identification of pathogens is a key target in both biomedical and environmental monitoring. Most biological recognition processes occur via specific interactions. Gold nanoparticles (AuNPs) feature sizes commensurate with biomacromolecules, coupled with useful physical and optical properties. A key issue in the use of nanomaterials is controlling the interfacial interactions of …