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Development Of Chemical Tools To Investigate Protein S-Glutathionylation In Response To Metabolic Alteration, Kusal Theekshana Gayan Samarasinghe

Wayne State University Dissertations

Oxidative stress is a common characteristic of age-related diseases such as vascular diseases, diabetes and cancer. Many diseases are known to be regulated by glutathionylation. Glutathionylation is referred to as the formation of disulfide bond between a protein cysteine and a glutathione. To understand the molecular mechanisms behind the disease initiation and progression, identification of such glutathionylated proteins is important. Even though existing methods have been widely used, several limitations of these methods hinder the identification of such proteins in disease conditions. Therefore, we developed a versatile chemical method that generates clickable glutathione inside the cells. In this method, we …

Biochemical, Structural, And Drug Design Studies Of Norovirus And Zika Virus Proteases, Ben Kuiper

Wayne State University Dissertations

Noroviruses, which are the leading cause of acute gastroenteritis, cause an estimated 677 million infections and 213,000 deaths each year worldwide. Noroviruses are classified into seven genogroups (GI-GVII); GI, GII, and GIV have been shown to be infectious in humans. However, GII noroviruses cause the majority of outbreaks (89%). No pharmacologic treatment or vaccine currently exists to treat or prevent norovirus infections.

Recently, the development of a norovirus replicon system, a murine model of norovirus infection, and the development of a biochemical protease assay have allowed for the design and development of norovirus inhibitors. However, the replicon and biochemical assay …

Real-Time Investigation Of Bulky Lesion Bypass By Y-Family Dna Polymerase, Dpo4, Using Single Molecule Fret, Pramodha Liyanage

Wayne State University Dissertations

DNA is constantly exposed to various DNA damaging agents that are generated by various internal and external sources. Some of this damage may not be able to be repaired by cellular machineries causing DNA replication to be blocked. Once the replication fork is blocked by a DNA adduct, damage tolerance DNA polymerases, mainly Y-family, are able to restore the DNA replication by synthesizing past the DNA adduct. Benzo[a]pyrene (B[a]P) is one of the most studied environmental carcinogens. It is known to make covalent DNA adducts after metabolic activation and the bulkiness of the B[a]P adducts impose a strong barrier to …

Studies Of Sumoylation In Regulating Mif Stability And Rangap1 Nucleo-Cytoplasmic Shuttling In Controlling Its Sumo Modification, Progga Sen

Wayne State University Dissertations

SUMOylation is an essential post-translational modification that regulates a variety of critical cellular pathways ranging from nuclear transport to protein stability. Accumulating lines of evidence have shown that a perturbation of the SUMOylation pathway is associated with human diseases, especially various types of cancer. Our recent proteomic studies revealed a drastic increase in levels of SUMO2/3 modification on the proinflammatory cytokine MIF in the metastatic breast cancer cell line compared to the non-metastatic control cell line. Interestingly, the increase in levels of both MIF and global SUMO-2/3 modification in the metastatic cells are positively correlated to that of unmodified MIF …

Ligand Binding Studies Of A Peptide Targeting Helix 69 Of 23s Rrna In Bacterial Ribosomes, Hyosuk Seo

Wayne State University Dissertations

In the development of finding a peptide targeting H69 of 23S rRNA in bacterial ribosomes, phage display was employed at pH 5.5, a buffer condition previously reported of H69 preferring a closed conformation. After sequencing, several peptides were chosen through sequence alignment, followed by preparation using solid-phase peptide synthesis. The peptides were characterized using MALDI-TOF and purified with HPLC. A truncated peptide TARHIY was selected from FID assay. Through binding studies using ESI-MS, SPR, BLItz, and NMR, the binding properties of the peptide to H69 were determined, such as binding affinity, stoichiometry, and interaction site. The peptide exhibited moderate binding …

Development Of A Novel Class Of Chemicals For Labeling Abasic Sites In Cellular Dna And Killing Cancer Cells, Shanqiao Wei

Wayne State University Dissertations

Abasic (AP) sites are the most common type of lesions in DNA. Numerous endogenous and exogenous agents and cellular processes can induce the formation of AP sites in DNA. If left unrepaired, the deleterious AP sites cause mutagenesis and cytotoxicity. Methoxyamine is known to react with AP sites and block base excision repair. Another alkoxyamine, aldehyde-reactive probe (ARP) tags AP sites with a biotin and has been widely used to quantify these sites. In this study, I have combined both these abilities into one alkoxyamine, AA3, which reacts toward AP sites with better reactivity than ARP at physiological pH. Additionally, …

Insights Into De Novo Fes-Cluster Biogenesis Via The Eukaryotic Fes-Cluster (Isc) Pathway In Vitro, Stephen Paul Dzul

Wayne State University Dissertations

Fe-S clusters are iron-containing cofactors utilized by numerous proteins within several biological pathways essential to life. In eukaryotes, the primary pathway for Fe-S cluster production is the iron-sulfur cluster (ISC) pathway. The eukaryotic ISC pathway, localized primarily within the mitochondria, has been best characterized within Saccharomyces cerevisiae. In yeast, de novo Fe-S cluster formation is accomplished through coordinated assembly of the substrates iron and sulfur on the primary scaffold assembly protein “Isu1”. The sulfur used for cluster assembly is provided by the cysteine desulfurase “Nfs1”, a protein that works in union with its accessory protein “Isd11”. Frataxin “Yfh1” helps direct …

Development Of Gamma-Modified Atp Analogs To Study Kinase-Catalyzed Phosphorylations, Ahmed Eid Fouda

Wayne State University Dissertations

Kinase-catalyzed protein phosphorylation is one of the most important post-translational modifications that controls cascades of biochemical reactions. Irregularities in phosphorylation result in many diseases, such as diabetes mellitus, Parkinsons, and cancer. The development of new methods to monitor kinase-catalyzed phosphorylation is needed to decipher details of normal and diseased cell signaling. The Pflum lab recently developed several -modified ATP analogs to study kinase catalyzed phosphorylation reactions. The -modified ATP analogs have different tags, such as biotin for substrate labeling or aryl-azide for kinase substrates identification. Unfortunately, use of -modified ATP analogs was limited to in vitro studies due to the …

A Critical Role Of Cxcr2 Pdz Motif-Mediated Interactions In Endothelial Progenitor Cell Homing And Angiogenesis, Yuning Hou

Wayne State University Dissertations

Bone marrow-derived endothelial progenitor cells (EPCs) participate in postnatal vascularization in response to growth factors, cytokines, and chemokines. Chemokine receptor CXCR2 and its cognate ligands are reported to mediate EPC recruitment and angiogenesis. CXCR2 possesses a consensus PSD-95/DlgA/ZO-1 (PDZ) motif at its carboxyl terminus. The PDZ motif has been reported to regulate cellular signaling and functions. Here we investigated the potential role of the PDZ motif in CXCR2-mediated EPC motility and angiogenesis. We have found that introducing exogenous CXCR2 C-terminus significantly attenuated in vitro EPC migration and angiogenic activities in response to CXCR2 ligands, as well as in vivo EPC …

Investigation Of Mutations In Nuclear Genes That Affect The Atp Synthase, Russell Dsouza

Wayne State University Dissertations

The F1 domain is the catalytic subunit of the mitochondrial ATP synthase. Studies with respiratory-deficient yeast identified ATP1 and ATP2 as nuclear genes encoding the alpha and beta subunits, respectively, of the mitochondrial F1-ATPase. The mutations in the atp1 and atp2 genes were cloned and sequenced, and they appear to affect the ATP synthase. Most yeast strains with mutations in the or the subunit primarily show an F1 assembly defective phenotype. This feature is similar to the assembly-defective mutants missing the chaperones required for assembly of the F1 oligomer or either the alpha/beta subunits.

Some of the atp2 and atp1 …

Novel Regulatory Mechanisms Of Inositol Biosynthesis In Saccharomyces Cerevisiae And Mammalian Cells, And Implications For The Mechanism Underlying Vpa-Induced Glucose 6-Phosphate Depletion, Wenxi Yu

Wayne State University Dissertations

Myo-inositol is the precursor of all inositol containing molecules, including inositol phosphates, phosphoinositides and glycosylphosphatidylinositols, which are signaling molecules involved in many critical cellular functions. Perturbation of inositol metabolism has been linked to neurological disorders. Although several widely-used anticonvulsants and mood-stabilizing drugs have been shown to exert inositol depletion effects, the mechanisms of action of the drugs and the role of inositol in these diseases are not understood. Elucidation of the molecular control of inositol synthesis will shed light on the pathologies of inositol related illnesses.

In Saccharomyces cerevisiae, deletion of the four glycogen synthase kinase-3 genes, MCK1, MRK1, MDS1, …

Structural Characterization And Therapeutic Utility Of The Proton-Coupled Folate Transporter, Michael Roy Wilson

Wayne State University Dissertations

Folate is a B9 vitamin essential to DNA synthesis. The proton-coupled folate transporter (PCFT) is a newly discovered proton/folate symporter with an acidic pH optimum and broad expression across a variety of solid tumor types, with limited expression in normal tissues. Several antifolate molecules have been developed as cancer therapeutics, although these classical antifolates display numerous off-target effects due to transport by the ubiquitous reduced folate carrier (RFC). In this dissertation, we determine the roles of multiple PCFT structure/function domains, and develop PCFT-specific antifolates to target solid tumors. We utilize substituted cysteine accessibility methods (SCAM) to identify a novel reentrant …

The Development Of Peptide Ligands To Target H69 Rrna, Danielle Nicole Dremann

Wayne State University Dissertations

ABSTRACT

THE DEVELOPMENT OF PEPTIDE LIGANDS TO TARGET H69

by

DANIELLE NICOLE DREMANN

December 2015

Advisor: Prof. Christine S. Chow

Major: Chemistry (Biochemistry)

Degree: Doctor of Philosophy

In the development of peptide ligands to target H69, SPPS and ESI MS was used to determine if 1) peptides could bind to modified H69 and 2) if increased affinity for the target RNA could be enhanced with modification. An alanine and arginine scan was synthesized and tested for this determination. Selected peptides were then tested using biophysical techniques such as circular dichroism and isothermal titration calorimetry. An assay was also designed to …

Regulation Of Cytochrome C Functions By Phosphorylation, Gargi Mahapatra

Wayne State University Dissertations

The long term goal of my thesis research is to understand how tissue-specific

phosphorylations on the small mitochondrial protein, cytochrome c (Cytc), regulate its

functions, under both physiologically healthy and stressed conditions, and to identify the

cell signaling pathways targeting Cytc. Cytc is a functionally diverse protein that carries

electrons in the electron transport chain and plays a critical role in cellular apoptosis, two

diverse pathways that maintain cellular health that are active under diverse conditions.

Since Cytc plays a pivotal role in both these highly divergent pathways, regulation of the

protein is very important—phosphorylation of the protein under physiological …

Characterization Of The Yeast Cysteine Desulfurase Complex Within The Mitochondrial Fe-S Cluster Biogenesis, Dulmini Pabasara Barupala

Wayne State University Dissertations

Disrupted iron homeostasis within the human body materializes as various disorders. Pathophysiology of many of them relates to iron induced oxidative damage to key cellular components caused by iron accumulation within the tissues. Pertaining to the growing occurrence, cost of patient care and devastating burden associated with these diseases, the call for understanding the role of iron homeostasis within these disorders becomes inevitable. Being an abundant iron containing cofactor, the role of Fe-S clusters in cellular iron homeostasis is indisputable in the case of Friedreich’s ataxia, a disease caused by a deficiency in the protein frataxin that is indispensable during …

Studies Towards Broadening The Substrate Profile And Regulation Of Histone Deacetylase 1, Dhanusha Ashanthi Nalawansha

Wayne State University Dissertations

Aberrant expression of histone deacetylase 1 (HDAC1) is implicated in multiple diseases, including cancer. As a consequence, HDAC1 has emerged as an important therapeutic target for drug development. HDAC1 regulates key cellular processes, such as cell proliferation, apoptosis, and cell survival, by deacetylating both histone and non-histone substrates. Due to the lack of simple tools to identify physiological substrates of HDAC1, the full spectrum of HDAC1 activities in the cell remains unclear. Here, we employed a substrate trapping strategy to identify cellular substrates of HDAC1. Using this approach, we identified mitosis-related protein Eg5 as a substrate. HDAC1 colocalizes with Eg5 …

Cardiolipin Is Required For Optimal Acetyl-Coa Metabolism, Vaishnavi Raja

Wayne State University Dissertations

The phospholipid cardiolipin (CL) is crucial for many cellular functions and signaling pathways, both inside and outside of mitochondria. My thesis focuses on the role of CL in energy metabolism. Many reactions of electron transport and oxidative phosphorylation, the transport of metabolites needed for these processes, and the stabilization of electron transport chain supercomplexes, require CL. Recent studies indicate that CL is required for the synthesis of iron-sulfur (Fe-S) co-factors, which are essential for numerous metabolic pathways. Activation of carnitine-acetylcarnitine translocase, which transports acetyl-CoA into the mitochondria, is CL dependent. The presence of substantial amounts of CL in the peroxisomal …

Analyzing The Interactions Of Kdm5/Lid And Sin3 In Drosophila Melanogaster, Ambikai Gajan

Wayne State University Dissertations

SIN3, the scaffold protein of a histone modifying complex is conserved from yeast to mammals. Drosophila SIN3 associates with both a histone deactylase RPD3 and a histone demethylase dKDM5/LID. Immunopurification of dKDM5/LID verifies a previously observed interaction with SIN3 and RPD3. Furthermore, deficiency of dKDM5/LID phenocopies deficiency of SIN3 in many cellular and developmental processes. Knockdown of both Sin3A and lid hinder cell proliferation in Drosophila cultured cells and developing flies. Knockdown of these genes also results in a curved wing phenotype implicating a role in wing development. Analysis of underlying gene expression changes upon decreased expression of SIN3, dKDM5/LID …

Dna Aptamers Selected Against Wild-Type Helix 69 Ribosomal Rna And Their Implications In Combating Antibiotic Resistance, Sakina Miriam Hill

Wayne State University Dissertations

Outbreaks of advanced antibiotic-resistant strains of microbes have hastened the need to identify new viable molecular targets for the development of novel anti-infectives. For this purpose, helix 69 (H69, or m3a 19-nucleotide (nt) hairpin motif that is highly conserved throughout phylogeny and rich in modified nucleotides, including pseudouridine () and 3-methylpseudouridine (m3) was chosen as a potential target. Helix 69, which is located in domain IV of Escherichia coli 23S ribosomal RNA (rRNA), undergoes conformational changes when in close proximity to the decoding region of 16S rRNA and transfer RNAs (tRNAs) in the peptidyl-transferase center (PTC). Functionally, the exact biological …

Platination Kinetics: Insight Into Rna-Cisplatin Interactions As A Probe For Rna Microenvironments, Gayani Dedduwa-Mudalige

Wayne State University Dissertations

RNAs are crucial for many cellular functions. Thus, studying ligand-RNA interactions and their dynamics in response to changes in the surrounding environment is important. In spite of the well-known DNA coordination, current research also indicates cisplatin binding to RNA. Kinetic studies of rRNA platination reactions are largely unexplored. This research was conducted to achieve two objectives. First, a broad kinetic study was carried out to investigate the cisplatin-rRNA interactions. The structure, function, and ligand interactions depend on RNA microenvironments. Second, the application of platination kinetics as a tool to interrogate RNA electrostatic environments was explored.

Three model rRNA hairpins from …

Investigation Into The Binding Interactions Of Klenow Fragment To Dna Modified With Carcinogens Af And Aaf Using Surface Plasmon Resonance, Ashley M. Floyd

Wayne State University Dissertations

The two major forms of DNA adducts from the carcinogen N-acetoxyacetyl-2-aminofluorene, N-(deoxygunanonsin-8-yl)-2-acetylaminofluorene (dG-C8-AAF) and N-(deoxyguanosin-8-yl)-2-aminofluorene (dG-C8-AF), are both known to impede replication, though in different ways. AAF is a strong block to replication leading to frameshift mutations, while the AF adduct is more easily bypassed, causing base substitutions. Surface plasmon resonance (SPR) was used to study the binding of exonuclease deficient E. coli polymerase I, Klenow fragment (KF), to DNA modified with AF or AAF at two locations: as a templating base or in the last formed base pair. KF binding to the modified DNA bases was also monitored to …

Structural Basis Of Epigenetic Regulation And Protein Scaffolding In Development And Diseases, Yuanyuan Jiang

Wayne State University Dissertations

Protein X-ray crystallography is a powerful approach for elucidating protein structure and function. The high-resolution data generated by X-ray allow us to visualize protein structures in a three-dimensional (3D) space, which is vital for our understanding of the protein intra- and intermolecular interactions that explain the mechanisms of various biological events. More importantly, such information can provide a structural basis for developing new methods and strategies of targeted drug discovery. In this dissertation, by using X-ray crystallography as the primary approach, we have performed the structural and functional studies of SMYD2 and NHERF1 and have determined their mechanisms of action …

General Transcription Factors Play Dual Roles In Initiation And Termination, Scott Alan Medler

Wayne State University Dissertations

Gene looping, defined as the interaction of the promoter and the terminator regions of a gene during transcription, is emerging as an important gene regulatory mechanism in eukaryotes. The role of promoter bound general transcription factors during initiation is well established. However, recent studies have revealed that some initiation factors also interact with the 3' end of a gene. The biological role of initiation factors at the 3' end of a gene is unknown. The general transcription factors TFIIB and TFIIH have been found to interact genetically with Ssu72, a component of CPF 3' end processing complex. Accordingly, we found …

Characterization Of Initial Iron Binding Location And The Structure/Iron Binding Site On S.Cerevisiae Isu And On D.Melanogaster Frataxin, Andria V. Rodrigues

Wayne State University Dissertations

Iron-induced free radical damage has been implicated in the pathology of diseases of iron overload such as Friedreich's Ataxia, a genetic disorder characterized by an accumulation of iron in actively metabolizing tissues ultimately leading to cardio- and neuro- degeneration and cell death. It is caused by an inability to synthesize the mitochondrial protein, frataxin. Frataxin has been shown by numerous groups to be a part of the iron-sulfur cluster (ISC) multicomplex, where it functions in the capacity of a potential iron provider and an allosteric modulator of both the cysteine desulfurase and scaffold protein ISU. My research has been focused …

Structural And Functional Characterization Of Proteins Of Unknown Function (Hp0495, Hp0100 And Hp1259) In Helicobacter Pylori, Shirin Fatma

Wayne State University Dissertations

H. pylori is missing the glutaminyl- and asparaginyl-tRNA synthetases (GlnRS and AsnRS, respectively). Consequently, H. pylori uses an indirect aminoacylation pathway to generate Gln-tRNAGln and Asn-tRNAAsn. Within this process, Asn-tRNAAsn is produced by misacylation of tRNAAsn with aspartate by a non-discriminating aspartyl-tRNA synthetase (ND-AspRS). Next, the heterotrimeric, glutamine-dependent amidotransferase (called AdT or GatCAB) converts the misacylated Asp-tRNAAsn into Asn-tRNAAsn. A parallel pathway exists for the synthesis of Gln-tRNAGln, wherein misacylation of tRNAGln with glutamate is catalyzed by a tRNAGln-specific glutamyl-tRNA synthetase (GluRS2) to generate Glu-tRNAGln; this misacylated intermediate is converted to Gln-tRNAGln by the same AdT. This dependence on misacylated …

Assembly And Function Of Macromolecular Complexes For Accurate Trna Aminoacylation In Helicobacter Pylori, Gayathri Niroshani Silva

Wayne State University Dissertations

ABSTRACT

ASSEMBLY AND FUNCTION OF MACROMOLECULAR COMPLEXES FOR ACCURATE TRNA AMINOACYLATION IN HELICOBACTER PYLORI

by

GAYATHRI SILVA

January 2014

Advisor: Dr. Tamara L. Hendrickson

Major: Chemistry (Biochemistry)

Degree: Doctor of Philosophy

Abstract

The aminoacylation of tRNA is a critical step in maintaining the accuracy of the genetic code. Many microorganisms are missing one or more aminoacyl tRNA synthetases (aaRSs) and rely on indirect pathways to produce certain aa–tRNAs. In Helicobacter pylori (H. pylori), the genes encoding both asparaginyl tRNA synthetase (AsnRS) and glutaminyl tRNA synthetase (GlnRS) are missing and the organism consequently relies on the indirect pathway for …

Investigating Hfq-Mrna Interactions In Bacteria, Martha Audra Faner

Wayne State University Dissertations

Regulatory RNAs (sRNAs) are essential for bacteria to thrive in diverse environments and they also play a key role in virulence [11]. Trans-sRNAs affect the stability and/or translation of their target mRNAs through complementary base-pairing. The base-pairing interaction is not perfect and requires the action of an RNA binding protein, Hfq. Hfq facilitates these RNA-RNA interactions by stabilizing duplex formation, aiding in structural rearrangements, increasing the rate of structural opening, and/or by increasing the rate of annealing [18-21]. Hfq has two well characterized binding surfaces: the proximal surface, which binds AU rich stretches typical of sRNAs, and the distal surface, …

Single-Molecule Studies Of Local And Global Nucleic-Acid Dynamics, Eric Muthuri Patrick

Wayne State University Dissertations

Nucleic acids undergo both global and local conformational changes that are important for their function. Structural studies have over the decades been invaluable in elucidation of various biomolecular mechanisms, hence contributing significantly to the understanding of biological events. However, a clear understanding of how molecules function in the cellular context requires investigation of their interconversion between multiple conformations, including mapping the folding landscape and any coupled changes in conformation. Work in this thesis focuses on fluorescence experiments, mainly at a single-molecule level to investigate such processes.

First, a novel single-molecule approach is described focusing on local dynamics within nucleic acids …

Development Of Peptide Inhibitors Targeting Clostridium Difficile Toxins A/B And Characterizing The Regulatory Role Of A Putative Negative Regulator Tcdc In Clostridium Difficile Toxin Gene Expression, Sanofar Jainul Abdeen

Wayne State University Dissertations

Clostridium difficile infections cause one of the most common and vital hospitalacquired

diseases often associated with broad-spectrum antibiotic usage. TcdA and TcdB

are the key virulence factors involved in major patho-physiology. While standard

antibiotics provide some respite, due to the high relapse rates and the emergence of more

severe disease presentations, antibiotics alone have often proven to be suboptimal.

Therefore there is a desperate need to develop an effective non-antimicrobial

therapeutics. Part of this work focuses on identification and further characterization of

peptide therapeutic that target the major virulence factor TcdA/TcdB. Towards

development of mechanistic-based anti-toxin agent, phage display was …

Elucidation Of The Functional Role Of Pcbp-The Cytosolic Iron Chaperone Protein Family, In Cellular Iron Homeostasis, Poorna Subramanian

Wayne State University Dissertations

Biological Role of Ferritin - Iron is essential for life and often utilized as a cofactor in many proteins. In humans, iron accumulation causes cirrhosis, arthritis, cardiomyopathy and diabetes mellitus, and it is associated with increased risk of cancer and heart disease. In contrast, decreased brain iron content results in permanent neurocognitive and motor impairment. Intracellular iron content must be maintained within a narrow range to avoid the adverse effects of iron depletion or excess, and this function is performed by the protein ferritin. Ferritins are iron storage proteins that are ubiquitously expressed in animals, plants and bacteria. They serve …