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Full-Text Articles in Molecular Biology
Determining The Full-Length Structure Of Collagenase H Using Small-Angle X-Ray Scattering, Josie Carson
Determining The Full-Length Structure Of Collagenase H Using Small-Angle X-Ray Scattering, Josie Carson
Chemistry & Biochemistry Undergraduate Honors Theses
Known to cause gas gangrene, Hathewaya histolytica secretes two sister collagenases, collagenase G (Col G) and collagenase H (Col H), to degrade the triple helical structure of collagen to further infection in a host. Individual domains of Col H have been crystalized in previous studies, but methods in x-ray crystallization of full-length Col H have been unsuccessful. Using Small Angle X-Ray Scattering (SAXS) data, atomistic modeling was used to generate multiple conformations of Col H while accounting for flexibility between domains. Full-length Col H was found to adopt a two-state conformational model exhibiting a majority compact and a minority elongated …
Retro-Structural Analysis Of The Four Helix Bundle Motif In Binuclear Proteins, Walker Pedigo, Maggie Smith
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 …
Dual Control Of One Component Signaling: Mechanistic And Structural Insights Into El222 Active States, Uthama Phani R. Edupuganti
Dual Control Of One Component Signaling: Mechanistic And Structural Insights Into El222 Active States, Uthama Phani R. Edupuganti
Dissertations, Theses, and Capstone Projects
Photoreceptors play a crucial role in signal transduction as specialized proteins which sense light as environmental stimuli and transduce the signal to control of downstream functions. Here we focus our attention on one class of these proteins, the Light-Oxygen-Voltage (LOV) domain, which is sensitive to blue light via an internally-bound flavin chromophore. Since their initial discovery in plant phototropins, many details of their photochemistry, chromophore interactions, and use with a diverse set of functional effectors have been described. However, several key details, especially a comprehensive understanding of signaling mechanism and its regulation, still remain elusive due in part to the …
Single Molecule Fluorescence Studies Of Protein Structure And Dynamics Underlying The Chloroplast Signal Recognition Particle Targeting Pathway, Dustin R. Baucom
Single Molecule Fluorescence Studies Of Protein Structure And Dynamics Underlying The Chloroplast Signal Recognition Particle Targeting Pathway, Dustin R. Baucom
Graduate Theses and Dissertations
The work presented in this dissertation explores the structural dynamics in the chloroplast signal recognition particle pathway. Findings include cpSRP shows scanning functionality similar to that in the cytosolic SRP with the ribosome. The intrinsically disordered C-terminal tail of the Albino3 protein has some transient secondary structure. Upon binding to cpSRP43 in solution, separate secondary structure formation was identified in the C-terminal tail of Albino3. Finally, to increase efficiency of analyzing fluorescence time traces for this work, a modular software was produced.
Preparation Of A Flavonol Specific Glucosyltransferase Found In Grapefruit And Site-Directed Mutants For Protein Crystallization, Aaron Birchfield
Preparation Of A Flavonol Specific Glucosyltransferase Found In Grapefruit And Site-Directed Mutants For Protein Crystallization, Aaron Birchfield
Electronic Theses and Dissertations
This research was designed to determine the conditions necessary to remove c-myc and 6x-His tags from a flavonol specific glucosyltransferase found in grapefruit (CP3GT) using thrombin in preparation for crystallization. X-ray crystallography of CP3GT crystals may elucidate structural features that account for flavonol specificity in some glucosyltransferase enzymes. A thrombin cleavage site was inserted into WT CP3GT and one mutant. Recombinant CP3GT was expressed in yeast and purified. Optimal conditions for thrombin digestion were explored. Digestion with 100U of thrombin for 2 hours at 4o C was optimal for removing tags from CP3GT. Storage at 4o C for …
Characterization Of The Perilipin 5 C-Terminus, Tim D. Clinton
Characterization Of The Perilipin 5 C-Terminus, Tim D. Clinton
Undergraduate Honors Thesis Projects
The crystallization of protein with subsequent X-Ray crystallography analysis is a powerful technique for uncovering a protein’s structure. This methodology is cutting edge and innovations are being made daily on how to best use the fundamentals of this technique for clearer characterizations. The protein Perilipin 5 could benefit from this technique as properties involving the structure of the molecule are still largely unknown. Knowing the structural aspects of perilipin 5 is important as several research efforts indicate that is a key factor in the regulation of lipolysis, or the breakdown of fats within a biological system. In the life sciences, …
Elucidating Structure, Function, And Small Molecular Interactions Of Human Immunodeficiency Virus And Chikungunya Virus, Kristin Nicole Slater
Elucidating Structure, Function, And Small Molecular Interactions Of Human Immunodeficiency Virus And Chikungunya Virus, Kristin Nicole Slater
Wayne State University Theses
Abstract HIV-1:
Human immunodeficiency virus-1 (HIV-1) is a widespread, incurable retrovirus known to cause
immunodeficiency and a shortened life span. Despite successful treatment methods, HIV-1
frequently mutates, resulting in antiviral resistance. Many therapies target the HIV-1 protease
(PR), which is responsible for cleaving the viral polyprotein essential for its life cycle. HIV-1 PR
often evades treatment by way of mutations and less commonly through residue insertions. We
have identified a clinical isolate with a five residue insertion between residues 28 and 29.
Through molecular dynamics simulations we analyzed the protease protein structure and
determined that the residue insertion created a …
Biochemical, Structural, And Drug Design Studies Of Multi-Drug Resistant Hiv-1 Therapeutic Targets, Tamaria Grace Dewdney
Biochemical, Structural, And Drug Design Studies Of Multi-Drug Resistant Hiv-1 Therapeutic Targets, Tamaria Grace Dewdney
Wayne State University Dissertations
Protein point mutations acquired as a mechanism of survival against therapeutics cause structural changes that effect protein function and inhibitor binding. This work investigates the structural mechanisms that lead to multi-drug resistance to HIV-1 protease and integrase inhibitors.
Proper proteolytic processing of the HIV-1 Gag/Pol polyprotein is required for HIV infection and viral replication. This feature has made HIV-1 protease an attractive target for antiretroviral drug design for the treatment of HIV-1 infected patients, thus the development of drug resistance has arisen as a major therapeutic and drug design challenge. To understand the molecular mechanisms leading to drug resistance we …
Conformational Changes In The Extracellular Domain Of Glutamate Receptors, Anu Rambhadran
Conformational Changes In The Extracellular Domain Of Glutamate Receptors, Anu Rambhadran
Dissertations & Theses (Open Access)
The family of membrane protein called glutamate receptors play an important role in the central nervous system in mediating signaling between neurons. Glutamate receptors are involved in the elaborate game that nerve cells play with each other in order to control movement, memory, and learning.
Neurons achieve this communication by rapidly converting electrical signals into chemical signals and then converting them back into electrical signals. To propagate an electrical impulse, neurons in the brain launch bursts of neurotransmitter molecules like glutamate at the junction between neurons, called the synapse. Glutamate receptors are found lodged in the membranes of the post-synaptic …