Biochemistry Commons^™

A Universal Mechanism Of G Protein Inhibition, Tyson Daniel Todd

Arts & Sciences Electronic Theses and Dissertations

G protein coupled receptors transduce a truly staggering number of diverse extracellular signals including chemical messengers, physical force, and even photons into specific cellular responses through their coupling to heterotrimeric G proteins. G proteins amplify the originating signal through their binding to downstream effectors, activating a complex network of overlapping responses that allow the cell to respond perfectly to that specific stimulus. It is critical to the cell that this process is carried out faithfully in order to respond to the myriad environmental cues and avoid injury, exhaustion, and death for the individual cell or the development of pathology if …

Regulatory Effects Of The E. Coli Recbcd Nuclease Domain On Dna Unwinding Kinetics, Nicole Fazio

Arts & Sciences Electronic Theses and Dissertations

I have examined the effects of deleting the nuclease domain of the E. coli helicase RecBCD on the rates of ATP-independent DNA melting, single stranded (ss) DNA translocation, and double stranded (ds) DNA unwinding by RecBCD. The canonical role of the nuclease domain is DNA degradation, but the removal of this domain showed unexpected effects on other RecBCD activities including DNA binding, melting, and unwinding. This thesis presents a mechanistic study of DNA unwinding by RecBCD and a RecBCD variant with the nuclease domain deleted (RecBΔnucCD). I examined the rates of ssDNA translocation and dsDNA unwinding by RecBCD and RecBΔnucCD …

The Role Of Excited States In Determining Β-Lactamase Function And Bacterial Fitness, Catherine Rae Knoverek

Arts & Sciences Electronic Theses and Dissertations

Proteins are macromolecular machines that play a role in nearly every biological process. They are dynamic molecules which adopt many different conformations as they fold into their 3D structures, interact with their binding partners, and perform their functions. The most probable (lowest energy) protein conformation is referred to as the ground state, and this is often assumed to be the state determined by experimental methods such as x-ray crystallography. However, proteins also adopt higher energy excited states which can have significant probabilities. As these excited states are notoriously difficult to find and study, it is unclear if excited states contribute …

Measuring And Manipulating Tension-Dependent Behavior Of Mechanosensitive Ion Channels, Angela M. Schlegel

Arts & Sciences Electronic Theses and Dissertations

Mechanical forces play critical roles throughout the lives of all organisms and, as such, diverse arrays of mechanotransduction systems have evolved to detect and initiate responses to force. Many mechanotransduction systems consist of mechanosensitive (MS) ion channels, membrane pores that open in response to sufficient mechanical force. My dissertation focuses on both the study and application of force-dependent conformational changes of MS channels. I tested whether charged pore-lining residues R326 and D327 of the Arabidopsis thaliana mitochondrial MS channel MSL1 function in inward rectification or gating kinetics. Mutating these residues showed no effect on MSL1 rectification; however, these residues are …

Understanding And Exploiting Protein Allostery And Dynamics Using Molecular Simulations, Sukrit Singh

Arts & Sciences Electronic Theses and Dissertations

Protein conformational landscapes contain much of the functionally relevant information that is useful for understanding biological processes at the chemical scale. Understanding and mapping out these conformational landscapescan provide valuable insight into protein behaviors and biological phenomena, and has relevance to the process of therapeutic design.

While structural biology methods have been transformative in studying protein dynamics, they are limited by technicallimitations and have inherent resolution limits. Molecular dynamics (MD) simulations are a powerful tool for exploring conformational landscapes, and provide atomic-scale information that is useful in understanding protein behaviors. With recent advances in generating datasets of large timescale simulations …

Thermodynamics And Conformational Heterogeneity Of Recbcd Binding To Dna Ends, Linxuan Hao

Arts & Sciences Electronic Theses and Dissertations

E. coli RecBCD is crucial in initiating repair of double stranded (ds) DNA breaks. It is a heterotrimeric helicase and nuclease complex possessing two ATPase motors, RecB and RecD, and a regulatory subunit without ATPase activity, RecC. The RecB subunit also contains a 30kDa nuclease domain (RecBNuc) that, according to published structural data, is situated over 60Å away from the site of dsDNA binding. Surprisingly, we have shown in previous studies that deletion of RecBNuc to form RecBΔNucCD affects its dsDNA unwinding properties. The mechanism by which RecBNuc influences RecBCD dsDNA unwinding is unclear. In this thesis, equilibrium binding techniques, …

Structural Mechanism Of Poxvirus Sabotage Of T-Cell Costimulation, Jabari Issa Elliott

Arts & Sciences Electronic Theses and Dissertations

Poxviruses are characterized by large double stranded DNA genomes that encode numerous proteins tailored for host immune response evasion. Our lab has been investigating a sequence-diverse family of secreted poxvirus proteins that appear to share a conserved beta-sandwich fold, but differ in their immunomodulatory functions. We have termed members of this superfamily Poxvirus Immune Evasion (PIE) proteins, and there appears to be at least 20 distinct subfamilies. As it turns out, cowpox virus (CPXV) encodes 10 PIE proteins, one of which, M2, can inhibit murine T cell activation through specific interactions with co-stimulatory ligands B7. 1 (CD80) and B7. 2 …

Fast-Forward Protein Folding And Design: Development, Analysis, And Applications Of The Fast Sampling Algorithm, Maxwell Isaac Zimmerman

Arts & Sciences Electronic Theses and Dissertations

Molecular dynamics simulations are a powerful tool to explore conformational landscapes, though limitations in computational hardware commonly thwart observation of biologically relevant events. Since highly specialized or massively parallelized distributed supercomputers are not available to most scientists, there is a strong need for methods that can access long timescale phenomena using commodity hardware. In this thesis, I present the goal-oriented sampling method, Fluctuation Amplification of Specific Traits (FAST), that takes advantage of Markov state models (MSMs) to adaptively explore conformational space using equilibrium-based simulations. This method follows gradients in conformational space to quickly explore relevant conformational transitions with orders of …

Sequence Determinants Of The Individual And Collective Behaviour Of Intrinsically Disordered Proteins, Alexander S. Holehouse

Arts & Sciences Electronic Theses and Dissertations

Intrinsically disordered proteins and protein regions (IDPs) represent around thirty percent of the eukaryotic proteome. IDPs do not fold into a set three dimensional structure, but instead exist in an ensemble of inter-converting states. Despite being disordered, IDPs are decidedly not random; well-defined - albeit transient - local and long-range interactions give rise to an ensemble with distinct statistical biases over many length-scales. Among a variety of cellular roles, IDPs drive and modulate the formation of phase separated intracellular condensates, non-stoichiometric assemblies of protein and nucleic acid that serve many functions. In this work, we have explored how the amino …

Structural, Biophysical, And Functional Studies Of Trem2 In Neurodegenerative Disease, Daniel L. Kober

Arts & Sciences Electronic Theses and Dissertations

Alzheimer's disease (AD) and other neurodegenerative diseases present a large and growing challenge to global health. The immune system, particularly the innate immune system, is increasingly recognized as having a major role in these pathologies. The innate immune system is responsible to contain disease and promote healing. However, immune misregulation exacerbates disease. The innate immunomodulatory receptor Triggering receptor expressed on myeloid cells-2 (TREM2) is expressed on myeloid cells such as dendritic cells, macrophages, and in the brain, on microglia. TREM2 is a single-pass transmembrane receptor with an extracellular Ig domain that mediates ligand binding. This protein regulates inflammation in vitro …

Mechanism Of Calcium-Dependent Chloride Channel Activation By The Secreted Regulator Clca1, Zeynep Yurtsever

Arts & Sciences Electronic Theses and Dissertations

The calcium-activated chloride channel regulator (CLCA) proteins are key signaling molecules, which are implicated in various diseases through their tissue-specific expression. Human CLCA1 protein, overexpressed in airway epithelia under pathophysiological conditions, is centrally involved in the manifestation of IL-13-driven mucus cell metaplasia (MCM), a hallmark feature of asthma and chronic obstructive pulmonary disease (COPD), for which there are currently no available therapeutics. Elucidating the poorly understood molecular basis of CLCA1 function is thus required to design specific inhibitors of CLCA1 activity to treat MCM in asthma and COPD.

Originally misannotated as ion channels, CLCA proteins are secreted soluble proteins that …

Structure And Dynamics Of A Small Multidrug Resistance Transporter, Emre, Chao Wu

Arts & Sciences Electronic Theses and Dissertations

EmrE is a small multidrug resistance transporter in E. coli. It effluxes a wide range of antibiotics, thus contributing to the evolving epidemic of drug resistance. Despite its small size, EmrE is a fully functional transporter making it an ideal model system for a comprehensive study of the multidrug transport mechanism. In the transport cycle, EmrE must alternate between outward- and inward-facing conformations upon substrate binding to translocate substrates across the membrane. High-resolution structures of EmrE in complex with substrates facing different sides of the membrane will shed light on the coupling mechanism between substrate binding and transport. However, the …

Pharmacology Of Organic Cation Transporters: Focus On Structure-Function Relationships In Oct3 (Slc22a3), Dan C. Li

Undergraduate Theses—Unrestricted

Organic Cation Transporters (OCTs) are polyspecific, facilitative transporters that play major roles in metabolite and drug clearance. OCTs are promising drug targets and elucidating their mechanisms of substrate recognition is crucial for rational drug design. OCT-mediated transport of polyvalent cations remains unexplored. OCT-expressing Xenopus laevis oocytes were used to assess transport of polyamines, ubiquitous polyvalent cations of broad physiological import, but for which transport mechanisms are unknown. Dose-response analysis of radiolabelled substrate uptake revealed that polyamines are relatively low affinity, but high turnover substrates for OCTs compared to model substrate methyl-4-phenylpyridinium (MPP⁺). Polyamine analogs of varying hydrophobic character …