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The Identification Of Lxr-Dependent Pathways In The Dorsal Root Ganglia In Models Of Obesity, Nadia Elshareif
The Identification Of Lxr-Dependent Pathways In The Dorsal Root Ganglia In Models Of Obesity, Nadia Elshareif
Master's Theses
Peripheral Neuropathy is characterized as injury to the peripheral nervous system. In terms of sensory neuropathy, metabolic syndrome is involved in chronic inflammation and ER stress pathways induced by lipid overload, leading to the structural and physiological damage of afferent sensory nerves. To protect the cell from lipid-induced ER stress, Liver X Receptors (LXRs) are sterol-activated nuclear transcription factors that are of particular interest due to its role in the regulation of lipid homeostasis, membrane phospholipids, and inflammation in metabolic tissues. Their role in the peripheral nervous system remains to be elucidated. LPCAT3, regulated by LXRs, has been shown to …
Characterizing A Novel Cocksackievirus B3 Protease Mutant And Its Response To Polyamine Depletion, Bridget Hulsebosch
Characterizing A Novel Cocksackievirus B3 Protease Mutant And Its Response To Polyamine Depletion, Bridget Hulsebosch
Master's Theses
Enteroviruses, including Coxsackievirus B3 (CVB3), are pervasive pathogens that cause significant disease, including cardiomyopathies. Unfortunately, no treatments or vaccines are available for infected individuals. We identified the host polyamine pathway as a potential drug target, as inhibiting polyamine biosynthesis significantly reduces enterovirus replication in vitro and in vivo. Here, we show that CVB3 is sensitive to polyamine depletion through the polyamine analog diethylnorspermidine (DENSpm) which enhances polyamine catabolism through induction of polyamine acetylation. We demonstrate that CVB3 acquires resistance to DENSpm via mutation of the 2A protease, which enhances proteolytic activity in the presence of DENSpm. Resistance to DENSpm occurred …
The Utilization And Optimization Of Omics Trait Prediction Models Within And Across Diverse Populations, Ashley Mulford
The Utilization And Optimization Of Omics Trait Prediction Models Within And Across Diverse Populations, Ashley Mulford
Master's Theses
Most cancer chemotherapeutic agents are ineffective in a subset of patients; thus, it is important to consider the role of genetic variation in drug response. Lymphoblastoid cell lines (LCLs) derived from 1000 Genomes Project populations of diverse ancestries are a useful model for determining how genetic factors impact variation in cytotoxicity. In our study, LCLs from three 1000 Genomes Project populations of diverse ancestries were previously treated with increasing concentrations of eight chemotherapeutic drugs and cell growth inhibition was measured at each dose with half-maximal inhibitory concentration (IC50) or area under the dose-response curve (AUC) as our phenotype for each …
Assessing The Role Of The Interaction Between Polyamines And Heparan Sulfate In Coxsackievirus B3 Viral Infection, Oreoluwa Omoba
Assessing The Role Of The Interaction Between Polyamines And Heparan Sulfate In Coxsackievirus B3 Viral Infection, Oreoluwa Omoba
Master's Theses
Non-polioenteroviruses are highly infectious viruses that typically cause mild asymptomatic cases but can cause severe disease such as aseptic meningitis and dilated cardiomyopathy. Coxsackievirus B3 (CVB3) is a member of this group and is prevalent in the United States and Eastern Asia. Viruses like CVB3 rely on the host cell for many molecules in order to replicate. One such set of molecules is the polyamines. Polyamines are small, positively charged molecules that play a role in a multitude of cellular processes including RNA/DNA stabilization, gene expression, translation, and regulating membrane fluidity. Previous studies have shown CVB3 relies on polyamines for …
Population-Matched Transcriptome Prediction Increases Discovery And Replication Rate In Twas, Elyse Geoffroy
Population-Matched Transcriptome Prediction Increases Discovery And Replication Rate In Twas, Elyse Geoffroy
Master's Theses
Most genome-wide and transcriptome-wide association studies (GWAS, TWAS) focus on European populations; however, these results cannot always be accurately applied to non-European populations due to differences in genetic architecture. Using summary statistics from GWAS in the Population Architecture using Genomics and Epidemiology (PAGE) study, which comprises ~50,000 Hispanic/Latinos, African Americans, Asians, Native Hawaiians, and Native Americans, we perform transcriptome-wide association studies to determine gene-trait associations. Initially, we compared results using two transcriptome prediction models derived from the Multi-Ethnic Study of Atherosclerosis (MESA) populations: the African American (AFA) model and the Hispanic/Latino (HIS) model. We identified 141 unique genome-wide significant trait-associated …
Plasmodium Tlap-2 Is A Microtubule-Associated Protein With Microtubule Stabilization Properties, Grifin Berge
Plasmodium Tlap-2 Is A Microtubule-Associated Protein With Microtubule Stabilization Properties, Grifin Berge
Master's Theses
Microtubules facilitate major cellular and morphological changes in eukaryotic cells, including the protozoan parasite Plasmodium. Microtubule-associated proteins (MAPs), only very few of which have been characterized in the malaria parasite, regulate the highly dynamic microtubules. Thioredoxin-like associated protein 2 (TLAP2) is a MAP unique to the phylum apicomplexa, which in addition to Plasmodium includes the important human pathogen Toxoplasma. Here we report on the cloning and microtubule-binding activity of TLAP2 of the rodent malaria parasite Plasmodium berghei (PbTLAP2). PbTLAP2 is coded by a single exon gene and consists of 598 amino acids. The protein contains a putative C-terminal microtubule-binding domain. …
Function Of Mllt3 In Liver Metabolism, Grace Ann Hammack
Function Of Mllt3 In Liver Metabolism, Grace Ann Hammack
Master's Theses
The chromatin regulator MLLT3 recognizes target genes through the YEATS domain that identifies post-translationally modified histones, with preference for crotonyl and acetyl marks, and recruits different multiprotein effector complexes through its C-terminal domain to target genes. To study the role of MLLT3 in gene regulation, the Zeleznik-Le and Hemenway labs developed Mllt3 whole-body knockout (Mllt3;Rosa26-CreERT2) mice. These mice have a hematopoietic stem cell phenotype and an unexpected obesity and hepatic steatosis phenotype. It was unknown whether these phenotypes were from liver intrinsic effects or influenced by other parts of the body. To study this fatty liver phenotype further, Mllt3;Alb-Cre were …
Elucidating Regulatory Connections Between The Second Messenger Cyclic-Di-Gmp With Biofilm And Motility Phenotypes Of Vibrio Fischeri, Ali Razvi
Master's Theses
The symbiosis between the gram-negative marine bacterium Vibrio fischeri and its host Euprymna Scolopes occurs when the bacteria reaches and colonizes the light organ. This pathway to colonization begins in the outer marine environment and finishes within the deep crypts of the light organ, with states of biofilm formation and dispersal in between. This switch between biofilm formation to dispersal is important as the bacteria transitions from the surface on the light organ into a pore leading to the interior of the light organ. This dispersal is regulated by LAP system which is dependent on the second messenger c-di-GMP. Through …
Characterization Of Alcohol-Mediated Promotion Of Breast Cancer Stem Cells, Mckenna Below
Characterization Of Alcohol-Mediated Promotion Of Breast Cancer Stem Cells, Mckenna Below
Master's Theses
Breast cancer is the leading cause of cancer-related death in women globally, and one in eight women will be diagnosed with breast cancer at some point in her life. Alcohol consumption has been linked to increase breast cancer risk and increased risk of tumor recurrence. Understanding the molecular mechanisms of modifiable lifestyle factors such as alcohol consumption will help to lower these risks and design more effective therapeutic approaches. Estrogen Receptor positive (ER+) breast cancer comprises approximately 70% of all breast cancers, and these tumors are effectively targeted by endocrine therapy in the form of estrogen deprivation with aromatase inhibitors, …
Beta-Adrenergic Receptor Mediated Transcriptional Dysregulation In Hematopoeitc Stem And Progenitor Cells Leads To Bone Marrow Erythroid Suppresion In Multiple Myeloma Patients - Ex Vivo Investigations, Vimal Ravi Subramaniam
Beta-Adrenergic Receptor Mediated Transcriptional Dysregulation In Hematopoeitc Stem And Progenitor Cells Leads To Bone Marrow Erythroid Suppresion In Multiple Myeloma Patients - Ex Vivo Investigations, Vimal Ravi Subramaniam
Master's Theses
The sympathetic nervous system (SNS) regulates our body’s involuntary response to stress or harm. Once activated, it releases hormones and neurotransmitters known as catecholamines throughout the body to mediate its recovery. The catecholamines bind to adrenergic receptors located on various cells in a process designated as adrenergic signaling to elicit this response. This process is not always to our benefit. Adverse symptoms such as anemia can result due to adrenergic signaling. Our laboratory previously showed that burn injury triggers adrenergic receptor stimulation resulting in anemia induced by diminished erythropoiesis. The development of anemia in these studies was found to be …
Characterizing A Putative Membrane Androgen Receptor In Glioma Cell Models, Emma Yuen
Characterizing A Putative Membrane Androgen Receptor In Glioma Cell Models, Emma Yuen
Master's Theses
The goal of this current research was to explore the role of a putative membraneandrogen receptor (AR) in modulating the viability of various models of glioma/astrocytoma, relative to normal (non-tumor) astrocytes. We hypothesized that binding to the membrane AR could enhance the sensitivity of glioma cells to toxic insult (i.e., the chemotherapeutic, Temozolomide, TMZ), while leaving “normal” astrocytes unscathed. Our data reveal that binding to the putative membrane AR sensitized C6 glioma cells to TMZ and the oxidative/metabolic insult, iodoacetic acid (IAA). And while there was some evidence that binding to the membrane AR could enhance the effect of TMZ …
Advancing Our Understanding Of Mechanosensitive Microtubule Acetylation In Neurons, Margaret Earl Utgaard
Advancing Our Understanding Of Mechanosensitive Microtubule Acetylation In Neurons, Margaret Earl Utgaard
Master's Theses
Stiffness is a signaling cue in the brain, and neuronal response to stiffness impacts development, injury and disease. Mechanotransduction is the process of cells interpreting and converting mechanical cues to biochemical signals. Tubulin acetylation increases microtubule stability and could be mechanosensitive. The impact of stiffness on tubulin acetylation and role of septins is the focus of this project.It was hypothesized that stiffer surfaces would increase tubulin acetylation. SH-SY5Y cells were plated on varying stiffness and the ratio of acetylated to alpha tubulin was measured using immunocytochemistry. This study found SH-SY5Y cells had the highest acetylation on hard surfaces. SH-SY5Y cells …
Anthropogenic Particle (Including Microplastic And Microfiber) Transport And Retention In Streams Under Varied Environmental Conditions, Elizabeth Marjorie Berg
Anthropogenic Particle (Including Microplastic And Microfiber) Transport And Retention In Streams Under Varied Environmental Conditions, Elizabeth Marjorie Berg
Master's Theses
Microplastics (plastic particles <5 mm) and other anthropogenic particles (i.e., synthetic, semi-synthetic and anthropogenically modified cellulose particles < 5mm) are pollutants of concern in aquatic ecosystems worldwide. Anthropogenic particles enter food chains, adsorb harmful chemical pollutants, and are ubiquitous in aquatic ecosystems. Streams are key sites of anthropogenic particle input, retention, and transport, and empirical measurements of particle movement in lotic ecosystems are needed to inform global budgets of anthropogenic particles and microplastics. However, factors that influence anthropogenic particle retention in lotic ecosystems are poorly understood. We demonstrate how environmental characteristics affect plastic transport and retention in streams in experimental and observational studies. In our experimental study, we used particle spiraling metrics to directly measure microplastic retention in outdoor, experimental streams at Notre Dame's Linked Experimental Ecosystem Facility (ND-LEEF). We tested the impact of stream discharge (i.e., high, low), benthic biofilms (i.e., well-established biofilms, reduced biofilms post-scouring), and benthic substrate type (i.e., cobble, pea gravel, sand, mixed substrate) on retention of microplastic fibers using pulsed releases and synchronized water sample collection at 3 sites downstream. We also collected benthic surface samples for biomass and microplastic density. Samples were filtered directly (water samples) or after peroxide digestion (benthic samples), and experimental microplastic fibers were enumerated visually using a dissecting microscope. Microplastic deposition rates were significantly higher with (1) higher discharge, (2) well established benthic biofilm (as opposed to bare substrate), and (3) larger and more homogeneous substrates. The observational study examined anthropogenic particles (including microplastics and microfibers) in the Milwaukee River during storm events. Lotic ecosystems are highly variable (e.g., seasonal changes, storm events), and most research assessing anthropogenic particle pollution extrapolates stream particle loads based on measurements during only one point in time. This limits the accuracy of anthropogenic particle and microplastic dynamics models in rivers, where frequent changes in discharge drives retention and transport of fine particles. In this study, we used automated samplers to collect water from the Milwaukee River during four distinct storm events in the spring and summer of 2018. We quantified anthropogenic particle abundance using standard methods and used nearby USGS gauges to determine discharge. Anthropogenic particle concentrations varied significantly among the four sampling periods, highlighting the temporal variability of anthropogenic particle transport across dates. When data from the sampling periods were pooled, there was a decrease in anthropogenic particle concentration in the water column after storm events, indicating that floods may "flush" microplastics from the river. Unexpectedly, anthropogenic particle concentrations were not correlated with other water quality metrics, including concentrations of total suspended solids, fecal coliform, chloride, nitrate, and sulfate, indicating that these metrics cannot be used to estimate microplastic concentrations and likely have distinct driving factors. These results provide novel insights into the environmental factors controlling anthropogenic particle and microplastic fate and are critical to understanding the role of lotic retention and transport in global plastic budgets.
Pseudomonas Aeruginosa Prophages And Engineered Temperate Phages, Genevieve Johnson
Pseudomonas Aeruginosa Prophages And Engineered Temperate Phages, Genevieve Johnson
Master's Theses
The rising rate of antibiotic-resistant bacteria is a global health concern, and the Pseudomonas aeruginosa is estimated to be a leader in serious threats. Bacteriophages, or viruses that infect bacteria, have gained renewed interest in Western Medicine as an alternative to antibiotics. Phage therapy of P. aeruginosa infections has primarily focused on obligately lytic phages. However, prophages, or phages in the lysogenic life cycle, are estimated to far outnumber obligately lytic phages. In theory, these prophages can be genetically modified to be obligately lytic and thus ideal candidates for phage therapy. To date there has not been a comprehensive analysis …
Lactobacillus Metabolite-Mediated Induction Of Bacteriophage, Taylor Miller-Ensminger
Lactobacillus Metabolite-Mediated Induction Of Bacteriophage, Taylor Miller-Ensminger
Master's Theses
Once considered sterile in the absence of an infection, the female urinary tract is home to a diverse community (microbiota) of bacterial species and bacteriophage (phage), viruses that infect bacteria A dominant member of the female urinary microbiota is the bacterial genus Lactobacillus. Several Lactobacillus species are even associated with urinary health. Phage infectious of bacteria in the urinary tract tend to replicate through one of two life cycles: the lytic (active) life cycle or the lysogenic (dormant) life cycle. Temperate phage can switch from the lysogenic life cycle to the lytic life cycle in the presence of an environmental …
The Effect Of Gonadal Steroids Following Repeat Mild Traumatic Brain Injury On Anxiety-Like Behaviors In Rats, Trevor Nykamp
The Effect Of Gonadal Steroids Following Repeat Mild Traumatic Brain Injury On Anxiety-Like Behaviors In Rats, Trevor Nykamp
Master's Theses
Traumatic brain injury (TBI) affects millions of people in the U.S. each year. This thesis worked to address anxiety, a common emotional symptom following TBI, by utilizing a five-hit repeat mild TBI (rmTBI) experimental model. First, changes in gonadal status following injury and the severity of anxiety symptoms experienced were investigated. Our data revealed that suppressed testosterone levels following rmTBI resulted in significantly more anxiety-like behaviors across several observational variables. Even more, some of these behaviors were reduced by providing testosterone supplementation immediately following injury.Another goal of this work was to investigate the role of mitochondrial dysfunction, measured by COX4i1 …
Characterizing Galectin And Lysosomal Rupture's Role In Spreading Parkinson Disease Pathology, Kevin Burbidge
Characterizing Galectin And Lysosomal Rupture's Role In Spreading Parkinson Disease Pathology, Kevin Burbidge
Dissertations
The misfolding and subsequent accumulation of alpha-synuclein (α-syn) is central to the pathogenesis of Parkinson's disease (PD). Several lines of evidence suggest pathological α-syn spread cell-to-cell via a "prion-like" mechanism. Furthermore, this pathological α-syn is capable of "seeding" further misfolding of non-pathological α-syn, converting them to the pathological form. While a vast body of both genetic and experimental evidence indicates that α-syn is critical to PD development, how α-syn induces progressive neuronal dysfunction and cell death remains unclear.Autophagy, conventional for macroautophagy, is the primary degradation pathway for α-syn aggregates. Autophagy also influences the unconventional secretion of both pathological and non-pathological …
Investigating The Roles Of Lipids In Staphylococcus Aureus Infection, Xi Chen
Investigating The Roles Of Lipids In Staphylococcus Aureus Infection, Xi Chen
Dissertations
The Gram-positive bacterium Staphylococcus aureus is a major threat to public health and causes a multitude of infections, ranging from mild skin and soft infection, to more severe diseases including sepsis, osteomyelitis and infective endocarditis. As a successful pathogen, S. aureus employs various mechanisms to invade host tissues, evade immune responses, and survive in the host environment. One critical adaptive trait of S. aureus that promotes virulence and survival is the ability to maintain membrane homeostasis via flexible modifications to its lipid composition in response to the surrounding lipid environment. Phospholipids are the major component of the bacterial membrane and …
Il-27 Signaling In The Maintenance Of Intestinal Barrier Following Ethanol Intoxication And Burn Injury, Marisa Luck
Il-27 Signaling In The Maintenance Of Intestinal Barrier Following Ethanol Intoxication And Burn Injury, Marisa Luck
Dissertations
Roughly half of burn patients that are hospitalized in the United States each year have detectable blood alcohol levels. Alcohol intoxication at the time of burn injury leads to worse outcomes, including longer hospital stays, increased rates of infection, and death. One of the severe consequences of intoxication and burn injury is the disruption of the gastrointestinal (GI) tract, which houses the largest reservoir of bacteria in the human body. Leakiness of the gut barrier can contribute to inflammation, infection, or sepsis from gut-derived microbes. Interleukin-27 (IL-27) is a cytokine that has shown some beneficial effects in other models of …
Understanding The Role Of Lipids Derived From The Gut Microbes In A Mouse Model Of Obesity-Induced Peripheral Pain, Raiza Rafael-Bonomo Hardy
Understanding The Role Of Lipids Derived From The Gut Microbes In A Mouse Model Of Obesity-Induced Peripheral Pain, Raiza Rafael-Bonomo Hardy
Dissertations
The increase in obesity has been accompanied by a rise in the prevalence of painful peripheral neuropathy. Recently, studies have suggested a role for gut microbiome in the development of some peripheral pain, including chemotherapy- induced pain and fibromyalgia. In the present dissertation, we showed that modulation of gut microbiome in obese mice alleviated neuropathic indices, concurrent with changes in immune cell profile within the peripheral nerve system. We demonstrated that fecal transplantation from lean to obese mice decreased obesity-induced pain and restored nerve density in the skin. These improvements were accompanied by changes in peripheral nerve system gene expression, …
F Plasmids In Escherichia Coli Decrease Permissivity To Coliphage, Cesar Eber Montelongo Hernandez
F Plasmids In Escherichia Coli Decrease Permissivity To Coliphage, Cesar Eber Montelongo Hernandez
Dissertations
The urinary tract contains a community of bacteria called the urinary microbiota (urobiota) thatmay be relevant to health; the genomic component of the urobiota is the urinary microbiome (urobiome). Urinary bacteria have been associated with both asymptomatic states and disease conditions, such as urinary tract infection (UTI), overactive bladder (OAB), and urge urinary incontinence (UUI). Some bacteria, such as E. coli, are considered urinary pathogens (uropathogens) but also can be commensals. Bacteriophage (phage) are ubiquitous in nature and likely shape bacterial populations in every niche; thus, phage may be one factor that modulates the urobiota. Phages have a specific host …
Comparative Studies On Biochemical And Pharmacological Profiles Of Unfractionated Heparins & Their Depolymerized Derivatives From Bovine, Ovine And Porcine Origins, Ahmed Kouta
Dissertations
Heparin and heparin related drugs have remained the anticoagulant of choice for medical and surgical indications. These drugs are comprised of poly-component sulfated chains of varying length and biophysical structure with direct and indirect pharmacological effects. Heparins produce their therapeutic effects by multiple mechanisms involving both the cellular and humoral targets. These drugs represent natural products which are isolated from mammalian tissue rich in mast cells. Currently used heparin and LMWHs are obtained from porcine mucosal tissue. Other animal sources including bovine and ovine tissues also provide additional sources for the manufacturing of heparins. While there may be microchemical and …
Investigating The Effects Of Tgf-Β On T Cell Activation-Induced Cell Death, Christina Rose Cunha
Investigating The Effects Of Tgf-Β On T Cell Activation-Induced Cell Death, Christina Rose Cunha
Dissertations
Achieving immune homeostasis requires the functions and numbers of suppressive regulatory T cells (Tregs) and effector conventional T cells (conv T) to be balanced and precisely controlled. A decrease in Treg numbers is associated with autoimmune diseases such as type I diabetes and multiple sclerosis, while Treg numbers are increased in the tumor microenvironment. Conversely, an increase in conv inflammatory T cells in the tumor microenvironment is associated with better outcomes for cancer patients. Thus, maintaining the appropriate balance between Treg and conventional T cell populations is essential for controlling immune responses against non-self and self-antigens, as well as tumor …
Molecular Determinants Of Fetal Tolerance And The Transition To Adult Immunity, Yi Wei Lim
Molecular Determinants Of Fetal Tolerance And The Transition To Adult Immunity, Yi Wei Lim
Dissertations
The perinatal immune system is highly tolerogenic and is phenotypically and functionally distinct from the adult immune system. This tolerogenic nature is a double-edged sword for newborns. While it is beneficial to prevent excessive inflammation against the vast array of foreign antigens encountered after birth, it also causes a lack of immune responses to life-threatening infections. My dissertation research aims to investigate the mechanisms by which perinatal T cells contribute to immune tolerance in infants. A deeper understanding of the nature of the perinatal immune system will provide pivotal knowledge to develop safe and effective strategies to protect infants from …
The Role Of The Co-Chaperone Protein Bcl-2-Associated Athanogene 3 (Bag3) At The Cardiomyocyte Sarcomere, Thomas Gwynn Martin
The Role Of The Co-Chaperone Protein Bcl-2-Associated Athanogene 3 (Bag3) At The Cardiomyocyte Sarcomere, Thomas Gwynn Martin
Dissertations
The co-chaperone protein Bcl-2-associated athanogene-3 (BAG3) is a central mediator of cellular protein quality control through autophagy. In the heart, decreased BAG3 activity through mutation or decreased expression are linked to dilated cardiomyopathy (DCM). Unfortunately, though clinical data indicates BAG3 mutations are a definitive cause of DCM, few mechanistic studies had been performed to decipher the fundamental role of BAG3 in cardiomyocytes. However, several studies suggested BAG3 was involved in maintenance of the sarcomere, the molecular contractile structure in muscle cells. The goals of this dissertation were to: 1. Determine the functional significance of BAG3 for the sarcomere, 2. Identify …
Cardioprotective Extracellular Vesicles Derived-Micrornas: Sorting Mechanisms And Functions, Anh P. Phan
Cardioprotective Extracellular Vesicles Derived-Micrornas: Sorting Mechanisms And Functions, Anh P. Phan
Dissertations
Extracellular vesicles (EVs) are nano-size membrane bound vesicles that are derived from the fusion of multivesicular endosomes with the plasma membranes. EVs have important roles in intercellular communication through the transfer of their unique cargoes including RNA, DNA and protein molecules to recipient cells. Mesenchymal stem cell (MSC)-derived EVs have been shown to reduce infarct size and reduce the progress of heart failure after cardiac ischemia/reperfusion (I/R) injury in animal models. Small non-coding RNAs such as microRNA (miRNA) have been indicated as one of the active components that mediate the beneficial effects of MSC-derived EVs. However, the selective packaging mechanisms …
Analysis Of Regulatory Mechanisms For T Cell Activation, Aleksandra Vuchkovska
Analysis Of Regulatory Mechanisms For T Cell Activation, Aleksandra Vuchkovska
Dissertations
The primary function of the immune system is to seek and eliminate altered or unhealthy cells. T cells are a major component of the immune response and mediate their functions by recognizing specific antigens that allow elimination of infected or neoplastic cells. To avoid inappropriate activation and subsequent immune injuries, T cells have evolved strategies to discriminate self from non-self, or healthy from altered and infected. These strategies rely on the activation of receptors that restrict the T cell response. CD33rSiglecs are a family of mostly inhibitory receptors that bind to sialic acids. Siglecs respond to specific sialic acid patterns …
Identification And Characterization Of Calcium As A Biofilm Promoting Signal By Vibrio Fischeri, Alice Hannah Tischler
Identification And Characterization Of Calcium As A Biofilm Promoting Signal By Vibrio Fischeri, Alice Hannah Tischler
Dissertations
The marine bacterium, V. fischeri actively engages in an exclusive partnership in the light organ of its squid host, Euprymna scolopes. A critical step in this colonization process is the formation of a bacterial aggregate, or biofilm, which is a community of bacteria embedded within a protective extracellular matrix. While V. fischeri readily forms biofilms in nature, genetic overexpression must be utilized to achieve biofilm formation in the laboratory. Recent work investigating media composition led myself and others to evaluate how seawater salts impacted growth and biofilm formation in a number of mutant backgrounds, leading to the identification of calcium …
A Role For Notch Signaling In Drosophila Spermatogenesis, Adrianna Soriano
A Role For Notch Signaling In Drosophila Spermatogenesis, Adrianna Soriano
Master's Theses
The Notch signaling pathway has diverse functions in male and female gonad development. In Drosophila male embryos, Notch specifies hub cell fate in somatic gonadal precursor cells (SGPs), which are important for maintaining germline stem cells and somatic cyst stem cells throughout the lifetime of adult flies. However, a role for Notch signaling in adult males has only started to emerge recently. Nonetheless, we still don’t understand how the Notch pathway functions to regulate spermatogenesis. Notch has been established to be important for the fertility of multiple systems, including mammals, and must be properly regulated for proper spermatogenesis, but the …
The Evolutionary And Morphological Diversification Of The Subtribe Papionina, Sophie B. Labelle
The Evolutionary And Morphological Diversification Of The Subtribe Papionina, Sophie B. Labelle
Master's Theses
Analysis of variation is critical in understanding evolutionary processes. The subtribe Papionina, defined commonly as baboons and their closest relatives, is a highly morphologically diverse group of primates that is useful for the examination of the relationship between variation and evolution. The subtribe is also a valuable behavioral, ecological, and morphological analogy for hominins. This study uses landmark-based cranial geometric morphometric data and multivariate analysis to test whether the pattern of morphological diversification present in Papionina is consistent with genetic drift and/or selection. The study sample consists of six extant genera of Papionin, represented by ~500 individuals collected by Michelle …