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Full-Text Articles in Biochemistry
The Use Of P53-Derived Stapled Peptides As Affinity Isolation Reagents, Kathryn Margaret Headley
The Use Of P53-Derived Stapled Peptides As Affinity Isolation Reagents, Kathryn Margaret Headley
Honors Capstone Projects - All
The transcription factor p53 can induce apoptosis and cell cycle arrest in response to cellular distress. Cancer cells often display increased cell survival. In most cases, this is due to a p53-related defect, such as mutation, deletion, degradation, or sequestration. HDM2 and HDMX are homologous proteins that regulate the function of p53, and their over-expression can lead to an ineffective p53 response. Various inhibitors, including hydrocarbon stabilized alpha-helices of p53 (SAH-p53s), have been developed to target HDM2 and HDMX and restore functionality to the p53 pathway. It has been recently found that SAH-p53 factors also elicit cell death responses in …
Characterization Of Dap2 (Defense-‐Associated Aspartic Protease-‐2) In Arabidopsis Thaliana And Determining Its Role In Plant Defense Responses, Kemardo Kitaro Henry
Characterization Of Dap2 (Defense-‐Associated Aspartic Protease-‐2) In Arabidopsis Thaliana And Determining Its Role In Plant Defense Responses, Kemardo Kitaro Henry
Honors Capstone Projects - All
Plants defend themselves from invading pathogens by coordinating activity of several plant defense-‐associated genes. Defense-‐Associated Aspartic Protease-‐1 (DAP1) gene of Arabidopsis encodes for an atypical aspartic protease with a putative proteolytic activity. The DAP1 is a negative regulator of plant immunity and the transgenic plants ectopically expressing this genes support pathogen growth and pathogenicity. The Arabidopsis genome has another putative protese that has ~75% homology to DAP1 present in close proximity and therefore was named DAP2. Here, I describe the role of the DAP2 gene in plant defense responses. Two independent knockout dap2 mutants are found to be more susceptible …
Vitamin B12-Based Bioconjugate Probes For In Vitro And In Vivo Imaging, Anna Kahkoska
Vitamin B12-Based Bioconjugate Probes For In Vitro And In Vivo Imaging, Anna Kahkoska
Honors Capstone Projects - All
Cancer is the second leading cause of death in the United States. This year, an estimated 577,190 Americans will die as a result of this family of diseases. Finding cancer at its most treatable stage gives patients the greatest chance of recovery; novel imaging agents that target primary and metastasized tumors offer hope for improved prognoses in the future. Based on the hypothesis that vitamin B12 (B12) and its association with specific transport proteins could offer selective access to cancer cell lines, a series of B12-based imaging agents were synthesized, characterized, and assayed for both in vitro and in vivo …
Investigation Of Ghrelin Acylation By Ghrelin O-Acyltransferase, Edward P. Prybolsky
Investigation Of Ghrelin Acylation By Ghrelin O-Acyltransferase, Edward P. Prybolsky
Honors Capstone Projects - All
Ghrelin is a peptide hormone involved in hunger signaling and other physiological processes. To become active, ghrelin first must be acylated by ghrelin O-acyltransferase (GOAT). This enzyme carries out a post-translational modification that attaches an octanoyl group to the side chain of the serine 3 (S3) residue of ghrelin. With ghrelin linked to hunger signaling, memory, and other physiological processes, GOAT has been identified as a potential drug target. However, inhibitor design is difficult because not much is known regarding the active site structure and catalytic mechanism of GOAT. This study reports the design of a novel fluorescence-based assay that …
Development Of Protein Farnesyltransferase Variants With Altered Substrate Selectivity, Susan Zhang
Development Of Protein Farnesyltransferase Variants With Altered Substrate Selectivity, Susan Zhang
Honors Capstone Projects - All
Post-translational modifications play an essential role in regulating protein structure and function. Enzymes catalyzing these modifications must often recognize and modify multiple substrate proteins from among a plethora of non-substrates with similar structures and amino acid sequences. For example, protein farnesyltransferase (FTase) catalyzes the addition of an isoprenoid group to a cysteine near the C-terminus of a substrate protein and is proposed to modify a pool of substrates numbering more than one hundred. We seek to understand the interactions in the FTase active site that engender substrate selectivity. By mutating two residues within FTase, we have developed FTase variants with …
Design Of Metalloproteins For Catalysis And Bioimaging, Krystyna Zhezherya
Design Of Metalloproteins For Catalysis And Bioimaging, Krystyna Zhezherya
Honors Capstone Projects - All
Abstract
Metalloenzymes constitute a large subclass of proteins with diverse functions including metal-sensing, signal transduction pathways, and metal transport. In this report, I aim to study the intricate relationship between structure and function as it relates to metalloproteins in the fields of catalysis and bioimaging. For catalysis, I used existing platforms in addition to de novo design to study small scaffolds with varying secondary structure, and their function in catalyzing the hydrolysis of a p-nitrophenol ester. For bioimaging, I used an existing enzyme known as human carbonic anhydrase I, hCA, to develop a bioimaging agent that can be fused to …