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Full-Text Articles in Life Sciences
Covalent Modification Of Recombinant Protein With Reactive Thiols, Sawyer Dulaney, Bailey Taylor
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 …
Investigation Of The Role Of Overexpression Of Psbs Under Stress Inducible And Constitutive Promoters To Improve Water Use Efficiency., Annie Nelson
Honors Theses
As climate change continues to impact environmental growth conditions, it has become increasingly more important to identify potential mechanisms of crop development to resist these changes. Previous studies have identified the role of PsbS in the non-photochemical quenching (NPQ) mechanism in the plant by identifying its direct effect on the rate in which excitation energy absorbed by photosystem II is dissipated as heat. It was identified also that PsbS via NPQ oxidizes chloroplastic quinone A (QA) which is a signal for stomatal opening in response to light. By identifying this relationship between PsbS and the signal for stomatal opening in …
Analysis Of Single-Site Cysteine Mutation, I412c, In Human A Glycine Receptor States To Further Refine Structure And Allostery, Leah Engquist
Analysis Of Single-Site Cysteine Mutation, I412c, In Human A Glycine Receptor States To Further Refine Structure And Allostery, Leah Engquist
Honors Theses
The glycine receptor (GlyR) is the major inhibitory receptor in the brain and spinal cord. A member of the pentameric ligand gated ion channel superfamily, crystal structures are available but there are still unresolved areas, specifically the C-terminal tail and TM3-TM4 intracellular loop. Further refinement can provide deeper understanding of the molecular mechanism and allow the creation of novel therapeutics to modulate its function. We propose to insert a single cysteine mutation, I412C, into a Cys null background (C41S/C290A/C345S) to study non- conducting states (resting, desensitized) or with F207G/A288G mutations to study the open state. Purified, reconstituted GlyR is crosslinked …
Chemical And Co-Solute Effects Of Polyethylene Glycol On I-Motif Formation, Lindsey Rutherford
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
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 …
Engineering Src Homology 2 Domains With Improved Specificity For Sulfotyrosine, Anya Morozov
Engineering Src Homology 2 Domains With Improved Specificity For Sulfotyrosine, Anya Morozov
Honors Theses
Protein tyrosine O-sulfation (PTS) is a common post-translational modification that has been implicated in a variety of biological processes and human illnesses. Despite continued progress in the field of sulfoproteomics, the extent and function of sulfated tyrosine (sulfotyrosine) residues is a topic of ongoing research. Previous work in the Guo Lab has identified Src Homology-2 (SH2) mutants that have a high affinity for sulfotyrosine along with retained high affinity for their natural ligand, phosphorylated tyrosine (phosphotyrosine). In this thesis, I attempted to generate SH2 mutants that have high affinity and specificity for sulfotyrosine over phosphotyrosine. While I successfully generated …
A Study Of The Antioxidant Versus Pro-Oxidant Nature Of The Amyloid Beta Peptide And An Analysis Of The Natural Products, Isorhamnetin And Narignenin, As Antioxidants, Kaylee Holmes
Honors Theses
Alzheimer’s disease is a neurodegenerative disorder with no cure. Due to the widespread effects of this disease, abundant research efforts have gone towards finding a cure. The amyloid beta (Ab) peptide has been shown to be a potential cause of the disease due to destructive effects on tissues that it can have both by itself and through reactive oxygen species (ROS) generation. This study was performed in order to assess the structural properties of Ab42monomers, fibrils and oligomers, to assess the antioxidant versus pro-oxidant behavior of the Ab peptide, and to assess the antioxidant nature of the natural …
Characterization Of Metabolic Networks In Differentiated Cd4+ T Cells, Bailee Lichter
Characterization Of Metabolic Networks In Differentiated Cd4+ T Cells, Bailee Lichter
Honors Theses
CD4+ T cells play a critical role in the immune system and protecting the body from infection. Cell differentiation of T-cells leads to the specialization of the immune system and has been determined to have plasticity. Differentiation of the CD4+ T cells depends on cytokines present in the environment, concentration of antigens, types of antigen – presenting cells (APCs), and costimulatory molecules (Luckheeram, 2012). Commonly known differentiated T-cells include the T-helper 1 (Th1) and the T-helper 2 (Th2) cells. Upon CD4+ T cell activation, the cells undergo metabolic changes that allow for cell growth and division. By characterizing the metabolic …