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"Fine-Tuning" Of Ribosomal Structure And Functions By Pseudouridylation And Rna-Protein Interactions, Jun Jiang

Wayne State University Dissertations

ABSTRACT

"Fine-tuning" of ribosomal structure and functions by pseudouridylation and RNA-protein interactions

by

JUN JIANG

AUGUST 2012

Advisor: Prof. John SantaLucia Jr.

Major: Chemistry (Biochemistry)

Degree: Doctor of Philosophy

Ribosomal structure and functions appear to be "fine-tuned" by pseudouridylation and RNA-protein interactions. Pseudouridylation may promote base stacking interactions by mediating the base stacking between residues on both sides. In the RNA duplex region, this enhanced stacking interaction contributes to stabilization of duplex folding. In the loop region, enhanced stacking in one structural motif may destabilize the conformation of adjacent structural residues. This hypothesis is supported by both UV-melting experiments, where …

Use Of Methionine Sulfoximine To Dissect The Role Of Glutamine Synthetase And Glutamine In Progression Of Acute Liver Failure, Amruta Anil Jambekar

Wayne State University Dissertations

Methionine sulfoximine (MSO) is a modified amino acid and a well characterized irreversible inhibitor of glutamine synthetase (GS) enzyme. Glutamine is synthesized by GS enzyme and it is the most abundant amino acid in the body. Glutamine is required by immune cells for generation, propagation and maintenance of an immune response.

To induce acute liver failure (ALF) in mice, animals were given intraperitoneal injections of E. coli lipopolysaccharides (LPS) and sugar D-galactosamine (D-GalN). When these animals were pretreated with MSO, 80% of the animals were completely rescued from liver failure. Moreover, when we characterized the immune response generated during ALF …

The Role Of Cad,Flash And Fam129b In Cancer Cell Survial And Apoptosis, Song Chen

Wayne State University Dissertations

Apoptosis is a normal process in the human body. However, apoptosis is desregulated in cancer cells. Most cancer cells gain resistance to apoptosis, leading to uncontrolled proliferation. In this dissertation, we identified three proteins, associated with apoptosis pathway. 1) CAD, a large multifunctional complex that is invariably elevated in tumor cells, 2) FLASH, a large protein with multiple growth related functions and 3) FAM129B. We demonstrate that CAD could interact with FLASH by using yeast two hybrid, co-immunopreciptation and fluorescence microscopy. In addition, functional analysis using siRNA technology further indicated that CAD could co-operate with FLASH and play roles in …

The Structural Requirements Of Histone Deacetylase (Hdac) Inhibitors: Suberoylanilide Hydroxamic Acid (Saha) Analogues Modified At C3, C6, And C7 Positions Enhance Selectivity, Sun Ea Choi

Wayne State University Dissertations

Histone deacetylase (HDAC) proteins are targets for drug design towards the treatment of cancers since overexpression of HDAC is linked to cancer. Several HDAC inhibitors, including the FDA approved drug suberoylanilide hydroxamic acid (SAHA, Vorinostat), have cleared clinical trials and emerged as anti-cancer drugs. However, SAHA inhibits all of the 11 metal ion-dependent HDAC proteins. Therefore, we synthesized several libraries of small molecule HDAC inhibitors based on SAHA to help understand the structural requirements of inhibitory potency and isoform selectivity.

In previous work, SAHA analogues functionalized at the C2 position (C2-SAHA analogues) near the metal binding hydroxamic acid displayed decreased …

Development Of A Cargo Delivery System And Inhibition Studies Focused On Clostridium Difficile Toxin A, Stephanie Marie Kern

Wayne State University Dissertations

Virulence factors of pathogenic bacteria are to be blamed for life-threatening infections such as diphtheria, anthrax, botulism, and tentanus. In the case of enzymatic exotoxins, disease arises from cytotoxic proteins, and cytotoxicity is acheived only after cell entry. This intrinsic mechanism for cell entry is intriguing from research and medical views. Along with a review on existing cargo delivery systems utilizing protein toxins and the usefulness of such a system, here is described the first reported Clostridium difficile toxin A fusion protein, luciferase-TcdA, and evidence of the successful transport of an active enzyme, luciferase, into the cytosol of vero cells. …

Exploring Conformational Variability Of An Rna Domain In The Ribosome: From Structure And Function To Potential Antibiotic Targeting, Yogo Sakakibara

Wayne State University Dissertations

RNA in nature is modified at many specific sites to order to gain extra functions or to expand the genetic code. One of such RNAs is ribosomal RNA (rRNA), which contains several modified bases, particularly around the functionally significant sites. We have focused on understanding the influences of modified base on RNA structure and function by employing helix 69 (H69), which is a good region to evaluate the roles of modified bases since it contains three pseudouridines in the loop region and exists at the core of the ribosome.

Previous model studies using small hairpin H69 showed the conformational differences …

Drug Resistance Mechanisms And Drug Design Strategies For Human Immunodeficiency Virus And Hepatitis C Virus Proteases, Yong Wang

Wayne State University Dissertations

The antiviral drug development has improved steadily to treat the infections of human immunodeficiency virus (HIV) and hepatitis C virus (HCV) which represent heavy public health burdens. The viral protease plays an indispensable role in viral maturation and therefore becomes one of the most important targets for drug design. Nine HIV-1 protease inhibitors and two HCV protease inhibitors have been developed and approved by the U.S. Food and Drug Administration. However, mutations in the protease decrease reduce the efficacy the drugs. In this study, the enzyme assays indicate that darunavir and tipranavir exhibit the most potent inhibition against the multi-drug …

Single Molecule Studies Of Rna-Target Interactions, Sharla Leann Wood

Wayne State University Dissertations

We have used FRET, single molecule spectroscopy, and several other biophysical techniques to study how the folding of RNA allows it to perform its various functions by recognizing and binding a target ligand. We have shown that the c-di-GMP riboswitch undergoes a large, global conformational change upon binding of the ligand. The folding dynamics of the c-di-GMP riboswitch upon Mg2+ binding help to pre-organize the aptamer for efficient ligand binding and ultimately efficient gene expression. We have also investigated two instances, a fluorophore-binding aptamer and molecular beacon, where the folding of RNA can be used to detect an analyte. We …

Understanding The Gender-Based Mechanism Of Mso In Als Mice: A Metabolic Characterization Of The Sod1-G93a Mouse Model, Monica Ann Bame

Wayne State University Dissertations

Amyotrophic Lateral Sclerosis (ALS) is a devastating neurodegenerative disease characterized by motor neuron death and a corresponding loss of neuromuscular connections resulting in muscle atrophy. Patients become paralyzed shortly after symptom onset and typically die within one to five years of pulmonary complications. ALS is a relatively rare disease, with an overall incidence of approximately 2 in 100,000 people per year and a prevalence of about 5 in 100,000 people. It is typically associated with increasing age and has a slight male prevalence, with a male to female ratio of approximately 3:2. ALS is classified as either familial (the less …

Transfer Rna Dynamics And Transfer-Messenger Rna Accommodation In Bacterial Ribosomes At The Single-Molecule Level, May Daher Farhat

Wayne State University Dissertations

Single-molecule spectroscopy, protein-induced fluorescence enhancement (PIFE), fluorescence resonance energy transfer (FRET), and several biochemical tools were applied to study transfer RNA (tRNA) dynamics and transfer-messenger RNA (tmRNA) accommodation inside ribosomes. In the first project of this thesis work, structural characterization of the tRNA-like domain of tmRNA (TLD) in complex with SmpB protein was carried out, and the results reveal no change in the global conformation or the flexibility of the TLD upon SmpB binding. In contrast, magnesium ions induce a compaction of the TLD structure, suggesting that flexibility in the H2a stem of TLD may allow different conformations of tmRNA, …

Development Of An In-Cell Förster Resonance Energy Transfer Technique To Study Protein Structure Inside Living Cells, Victoria Lynn Murray

Wayne State University Dissertations

The goal of my thesis is to develop an in-cell fluorescence technique that allows for measurement of the distances between fluorescence acceptors and donors within a protein or between two proteins inside the correct intracellular compartment of living cells. The successful achievement of this goal will allow us to obtain high-resolution structural information from a protein, one key step towards high-resolution structural biology of proteins inside the living cell.

To achieve this goal, we will apply the fluorescence resonance energy transfer (FRET) technique to the specifically labeled proteins inside the cells. Our rationale is to specifically label the protein(s) of …

Modes And Mechanisms Of Hfq Mediated Stress Regulation In Bacteria, Nilshad Nilam Salim

Wayne State University Dissertations

To survive bacteria must be able to respond to its ever-changing environmental conditions. sRNAs have been implicated in a variety of stress-response pathways that help bacterial systems modulate gene expression. The RNA binding protein Hfq facilities this process by, helping sRNA to base pair with its target mRNAs to initiate gene regulation. A common feature of Hfq-mediated gene regulation is the network-based organization where a single sRNA can control multiple messages to promote integrated response to stress. Current mechanistic models that are present to describe Hfq functions cannot explain the complexity at which Hfq performs gene regulation. In this work …

Prevalence And Physiological Significance Of Gene Looping In Saccharomyces Cerevisiae, Banupriya Mukundan

Wayne State University Dissertations

My Ph.D. dissertation work is focused on studying the role of promoter-bound transcription initiation factors involved in gene looping. In this study we showed that the RNAP II subunit Rpb4 has a significant effect on termination of transcription. Gene looping is disrupted in the absence of Rpb4. Rpb4 shows a strong physical interaction with the Mediator subunit Srb5. Mediator subunit Srb5 crosslinked to the 5' and 3' ends of INO1 and CHA1 genes and is required for proper termination of transcription of these genes. Srb5 affected termination of transcription through its interaction with the CF1 complex. Srb5 interaction with the …

Genetic And Biochemical Studies Of Human Apobec Family Of Proteins, Priyanga Wijesinghe

Wayne State University Dissertations

The AID/APOBEC family of proteins in higher vertebrates converts cytosines in DNA or RNA into uracil. These proteins have essential roles in either innate immunity or adaptive immunity. Recently, AID has also been implicated in DNA demethylation in the context of early embryogenesis in mammals. This is partly based on the reported ability of AID to deaminate 5-methyl cytosine to thymine (5mC to T). I reexamined this proposed new role of AID (5mC deamination) with two members of the APOBEC family in a novel Escherichia coli based genetic system. My results confirmed that while all three enzymes are strong cytosine …