Mitochondrial Roles In Developmentally Programmed Heart Disease,
2023
University of South Dakota
Mitochondrial Roles In Developmentally Programmed Heart Disease, Eli John Louwagie
Dissertations and Theses
Offspring of diabetic and obese mothers (ODOM) have greater risks of heart disease at birth and later in life. However, prevention is hindered because underlying mechanisms are poorly understood. Mounting studies in the Developmental Origins of Health and Disease field suggest that mitochondria play key roles in developmentally programmed heart disease similar to the roles they play in cardiomyopathy in adults with diabetes and obesity. However, whether mitochondria are responsible for the short[1]and long-term cardiac disease seen in ODOM remains unknown. Here, we sought to delineate the roles of mitochondria in the hearts of ODOM, determine whether mitochondria are playing …
Comparison Of In-Vitro 3d Human Embryoids With Current Models For Gastrulation,
2023
Washington University in St. Louis
Comparison Of In-Vitro 3d Human Embryoids With Current Models For Gastrulation, Jin Park
McKelvey School of Engineering Theses & Dissertations
Gastrulation is an early morphogenetic process that is conserved across most metazoans and lays out the future body plan through the formation and shaping of the three germ layers: endoderm, mesoderm, and ectoderm. Despite its importance, not much is known about the events surrounding human gastrulation that occurs in utero due to ethical and technical limitations on studying human embryos. Therefore, many researchers have devised protocols for creating in vitro models of gastrulation using embryonic stem cells. Initially starting with mouse embryonic stem cells, the field of in vitro embryo models has advanced rapidly, with protocols using human embryonic stem …
Therapies For Mitochondrial Disorders,
2022
Technological University of the Shannon: Midlands Midwest
Therapies For Mitochondrial Disorders, Kayli Sousa Smyth, Anne Mulvihill
SURE_J: Science Undergraduate Research Journal
Mitochondria are cytoplasmic, double-membrane organelles that synthesise adenosine triphosphate (ATP). Mitochondria contain their own genome, mitochondrial DNA (mtDNA), which is maternally inherited from the oocyte. Mitochondrial proteins are encoded by either nuclear DNA (nDNA) or mtDNA, and both code for proteins forming the mitochondrial oxidative phosphorylation (OXPHOS) complexes of the respiratory chain. These complexes form a chain that allows the passage of electrons down the electron transport chain (ETC) through a proton motive force, creating ATP from adenosine diphosphate (ADP). This study aims to explore current and prospective therapies for mitochondrial disorders (MTDS). MTDS are clinical syndromes coupled with abnormalities …
Bis-Indolyl Compounds And The Induction Of Apoptosis In T98g Glioblastoma Multiforme Cells,
2022
Seton Hall University
Bis-Indolyl Compounds And The Induction Of Apoptosis In T98g Glioblastoma Multiforme Cells, Margot C. Brown
Seton Hall University Dissertations and Theses (ETDs)
1,1-bis(3’idolyl)-1(aryl)methane compounds (BIM compounds) have been shown to have anti-cancer properties in colon cancer, bladder cancer, and leukemia cells. The purpose of this work was to determine if BIM compounds could be an effective treatment of glioblastoma multiforme. Sulforhodamine B (SRB) assays showed that 20µM of the BIM compounds could inhibit cellular proliferation of the T98G glioblastoma multiforme cell line over 72 hours. Then immunoblotting was used to analyze the molecular pathway induced by BIM compounds. An increase in the expression of both BAX and cleaved caspase 3 suggest BIM compounds activate programmed cell death, or apoptosis in glioblastoma cells. …
The Role Of Long Non-Coding Rna (Lncrna) In The Organization Of Nuclear Bodies,
2022
Department of Molecular and Cellular Biology, Kennesaw State University, Kennesaw, GA, United States.
The Role Of Long Non-Coding Rna (Lncrna) In The Organization Of Nuclear Bodies, Soobin An
Symposium of Student Scholars
Nuclear bodies (NBs) (e.g., the nucleolus, nuclear speckles, and others) are membraneless compartments within the eukaryotic cell nucleus that selectively accumulate and retain specific nuclear proteins. NBs have become a new interest in recent discoveries because of their potential involvement in cancer and neurological disorders. However, the regulation and function of NBs are still enigmatic. Our laboratory studies a specific type of NBs, called B-bodies, to understand how NBs are formed and regulated in the nucleus. We hypothesized that long non-coding RNA (lncRNA) functions as a structural scaffold of NBs.
The B-body is a recently discovered NB expressed in the …
Assessing Selective Export Of Fluorescent Ssa4 Reporters,
2022
Belmont University
Assessing Selective Export Of Fluorescent Ssa4 Reporters, Caroline Firmin, Rebecca Adams
Science University Research Symposium (SURS)
The process of creating proteins from mRNA is necessary for cell viability. Importantly, the proteins that are generated are differentially regulated so that the cell makes specific proteins in response to its environment. For example, mRNA is selectively exported during stress conditions to allow response to this stress. During heat shock at 42°C, in which proteins are denatured, the gene SSA4 encodes a selectively transported protein chaperone that allows refolding of denatured proteins. This study sought to explore the mechanisms of this selective export. To do this, I analyzed the expression of a fluorescent reporter wherein GFP is expressed with …
Role Of Parp1 And Nad+ Bioavailability In Base Excision And Single-Strand Break Repair,
2022
University of South Alabama
Role Of Parp1 And Nad+ Bioavailability In Base Excision And Single-Strand Break Repair, Kate M. Saville
Theses and Dissertations
High-grade gliomas (HGGs) are malignant, highly metabolically active brain tumors. HGGs are associated with poor patient outcome, attributed to resistance to current therapies, with a survival rate between 12 to 15 months. Gliomas are highly complex tumors, making targeted therapy difficult, highlighting the need for novel approaches and new treatment options. In addition, a large percentage of HGGs are comprised of glioma stem cells (GSCs) that further contribute to therapeutic resistance. Notable characteristics of GSCs are a heightened DNA damage response (DDR) and elevated replication stress that could provide opportunities for therapeutic targeting. A notable feature of many glioma tumors …
Investigations Into Prg-2 And Its Involvement In Developing Gallus Gallus Retinal Neurons,
2022
Winthrop University
Investigations Into Prg-2 And Its Involvement In Developing Gallus Gallus Retinal Neurons, Jeffrey Parham
Graduate Theses
I am interested in the development of the nervous system, especially since during development nerves grow and extend, but in adults, they do not regenerate if damaged. We are specifically interested in the molecules that guide nerves to the correct target during their development. Lysophosphatidic acid (LPA) is a bioactive molecule that has been shown to play a role in neural development. LPA, through repeated studies, has been shown to stop neurons from growing by causing a physical change in a neuron’s growth cone (a structure used for navigation and growth). Recently, a novel set of genes, called PRGs, have …
A Novel Transmembrane Ligand Inhibits T Cell Receptor Activation,
2022
University of Tennessee, Knoxville
A Novel Transmembrane Ligand Inhibits T Cell Receptor Activation, Yujie Ye
Doctoral Dissertations
T lymphocytes (T cells) play essential roles in the adaptive immune system. Each mature T cell expresses one type of functional T cell receptor (TCR). The TCR recognizes antigens bound to the major histocompatibility complex (MHC) in antigen presenting cells. The resulting stimulation signal crosses the transmembrane domain of TCR and initiates downstream signaling cascades. The human immune system relies on TCRs to recognize a variety of pathogens. Normally, TCR can distinguish the self-antigens from pathogenic antigens. However, dysfunction or aberrant expression of TCRs causes different inflammatory and autoimmune diseases, which afflict millions of people annually (Chapter I). Current treatments …
The Effects Of Deleting Lrb E3 Ligase Region 2 On Red Light Responses In Arabidopsis Thaliana,
2022
Grand Valley State University
The Effects Of Deleting Lrb E3 Ligase Region 2 On Red Light Responses In Arabidopsis Thaliana, Sabina Liskey
Masters Theses
The ability of plants to absorb light through photoreceptors is essential for successful plant development. Phytochromes are important plant photoreceptors that detect and absorb red and far-red light and must function properly for plant survival. The Light Response BTB proteins (LRB) play an important role in a plant’s response to red light by degrading phytochrome B (PhyB) via the ubiquitin proteasome system (UPS). Although there has been a successful investigation into understanding the function of the LRBs, the function of a few regions within LRB proteins remains unknown, including a portion located on the N-terminal end of the protein, termed …
Chromatin Regulation By Rb-Interacting Proteins In Cellular Immune Functions,
2022
The University of Western Ontario
Chromatin Regulation By Rb-Interacting Proteins In Cellular Immune Functions, Seung June Kim
Electronic Thesis and Dissertation Repository
The retinoblastoma protein (RB) is historically known for its function in cell cycle control. However, mice carrying targeted Rb1 mutations have revealed that RB serves various non-cell cycle control roles. Notably, RB acts as a scaffold that recruits chromatin regulatory proteins, condensin II and enhancer of zeste homolog 2 (EZH2). These complexes protect the genome integrity through maintaining proper chromosome condensation, long range contacts, and transcriptionally repressive histone modification. This thesis explores the mechanistic links that regulate such RB-condensin II complex or that are leveraged upon pharmacological inhibition of the RB-EZH2 complex. First, I identified potential phosphorylation sites in the …
Regulation Of Hedgehog And Wnt Signaling In Neural Differentiation Of P19 Embryonal Carcinoma Cells,
2022
The University of Western Ontario
Regulation Of Hedgehog And Wnt Signaling In Neural Differentiation Of P19 Embryonal Carcinoma Cells, Danielle Margaret Spice
Electronic Thesis and Dissertation Repository
The Hedgehog (Hh) and Wnt protein signaling pathways are essential in the differentiation of neurons and astrocytes. As there are many known and new players involved in regulating these pathways, the role of the regulators Suppressor of Fused (SUFU) and Never in Mitosis Kinase 2 (Nek2) have either not been previously reported or have not been thoroughly explored. To address this shortfall CRISPR gene editing was used to target SUFU and Nek2 in the mouse P19 embryonal carcinoma cell model of neural differentiation. Hh and Wnt signaling were explored in normal P19 neural differentiation, which occurs in the presence of …
Canalization And Other Design Principles Of Gene Regulatory Networks,
2022
Illinois State University
Canalization And Other Design Principles Of Gene Regulatory Networks, Claus Kadelka
Annual Symposium on Biomathematics and Ecology Education and Research
No abstract provided.
Principles Of Aaa+ Proteases,
2022
University of Massachusetts Amherst
Principles Of Aaa+ Proteases, Samar Mahmoud
Doctoral Dissertations
ATPases associated with diverse cellular activities (AAA+) proteases in bacteria help maintain protein homeostasis by degrading misfolded and regulatory proteins. While a handful of protein targets for these proteases have been identified in Caulobacter crescentus and other organisms, more research is needed to elucidate mechanisms that govern substrate specificity. In the second chapter of this thesis, I will elaborate on how AAA+ substrate specificity is less rigid than previous work has suggested and how limiting ATP or mutations can alter substrate preferences of the ClpXP protease. In the third chapter, I will highlight our efforts to use a quantitative proteomics …
Art And Illustration Resource For Cell And Molecular Biology: What We Know & How We Found Out,
2022
University of Wisconsin - Milwaukee
Art And Illustration Resource For Cell And Molecular Biology: What We Know & How We Found Out, Gerald Bergtrom
Cell and Molecular Biology 5e: What We Know and How We Found Out - All Versions
This Art & Illustration Resource contains the figures (photographs, illustrations etc.) in the 5th edition Cell and Molecular Biology; What We Know AND How We Found Out (all versions). The images are high-resolution JPG files, sufficient for projection in large size classrooms, and thus useful for creating or supplementing PowerPoint or similar presentations to support classroom, online teaching and learning, and/or to support in-class or homework assignments. Just download and extract the zipped folder to access the chapter-by-chapter numbered figure files. The images are also Open Access (either public domain, CC-licensed, or equivalent). The Chapter-by-Chapter folders come with a …
Leaf Phenology And Freeze Tolerance Of The Invasive Tree Pyrus Calleryana (Roseaceae) And Potential Native Competitors,
2022
University of Dayton
Leaf Phenology And Freeze Tolerance Of The Invasive Tree Pyrus Calleryana (Roseaceae) And Potential Native Competitors, Margaret E. Maloney, Abby Hay, Eric B. Borth, Ryan W. Mcewan
Biology Faculty Publications
Pyrus calleryana is one of the most problematic invasive species in the eastern United States. The mechanisms that enable Py. calleryana to establish and outcompete native plants are not fully understood but likely include a profile of advantageous traits. Extended leaf phenology is a characteristic noted in many woody invasive plants. Leaf phenology of Py. calleryana and two native woody species, Populus deltoides and Platanus occidentalis, was observed in natural areas near Dayton, OH from December 2019 to November 2020. A frost event in May also gave us the serendipitous opportunity to assess frost tolerance of these species. We …
Determining The Roles Of The Oligomerization And C-Terminal Domains In Mutant P53 Gain-Of-Function Activities,
2022
The Graduate Center, City University of New York
Determining The Roles Of The Oligomerization And C-Terminal Domains In Mutant P53 Gain-Of-Function Activities, George K. Annor
Dissertations, Theses, and Capstone Projects
The tumor suppressor p53 (TP53) gene is often mutated in cancer, with missense mutations found in the central DNA binding domain, and less often in the oligomerization domain (OD) and C-terminal domain (CTD). The OD and CTD have been found to be critical for the tumor suppressor functionality of wild-type p53 (wtp53). Specific missense mutations in the DNA binding domain have been found to confer new gain-of-function (GOF) activities. Mutations that destabilize tetramer formation, or deletion of key lysine residues within the CTD, downregulate the ability of wtp53 to transactivate (increase the rate of transcription of) its target …
Telomerase Reverse Transcriptase Marks A Novel Population Of Adult Stem Cells In The Mouse Brain That Respond To Metabolic Interventions By Modulating Adult Brain Plasticity,
2022
University of Maine
Telomerase Reverse Transcriptase Marks A Novel Population Of Adult Stem Cells In The Mouse Brain That Respond To Metabolic Interventions By Modulating Adult Brain Plasticity, Gabriel S. Jensen
Electronic Theses and Dissertations
Telomerase reverse transcriptase (TERT) is expressed by quiescent adult stem cells (qASC) in numerous adult murine and human tissues but has never been explored in the adult brain. Here, these data demonstrate that TERT+ cells in the adult mouse brain represent a novel population of multipotent qASCs. TERT+ cells were localized to numerous classical neuro/gliogenic niches including the ventricular-subventricular zone, hypothalamus and olfactory bulb, as well as newly discovered regions of adult tissue plasticity such as the meninges and choroid plexus. TERT+ cells expressed neural stem cell markers such as Nestin and Sox2, but not markers of activated stem/progenitor cells, …
Mechanisms And Roles Of Dynamic Actin Assembly Around Dysfunctional Mitochondria,
2022
Dartmouth College
Mechanisms And Roles Of Dynamic Actin Assembly Around Dysfunctional Mitochondria, Tak Shun Fung
Dartmouth College Ph.D Dissertations
Possessing the ability to efficiently generate ATP required to sustain cellular functions, mitochondria are often considered the ‘powerhouses of the cell’. However, our understanding of mitochondria in cell biology was further expanded when we recognized that communication between this unique organelle and the rest of the cell regulates cellular bioenergetics, metabolism and signaling processes such as mitophagy and apoptosis. Here, I investigate signaling between mitochondria and the actin cytoskeleton, and how this signaling regulates mitochondrial dynamics and cellular function. Specifically, I find that, upon mitochondrial dysfunction, actin polymerizes rapidly around the dysfunctional organelle, which we term ‘acute damage-induced actin’ (ADA). …
Establishing The Freestyle 293 Expression System As A Tool To Generate Recombinant Apolipoprotein E In Mammalian Cells,
2022
Bridgewater State University
Establishing The Freestyle 293 Expression System As A Tool To Generate Recombinant Apolipoprotein E In Mammalian Cells, Michaela Cunningham
Honors Program Theses and Projects
Alzheimer’s disease (AD) is a devastating form of dementia with 5 million people suffering from the disease in the United States alone. Thus, there is a need to understand the cause of AD so that therapeutics can be developed to treat it. The greatest risk factor for AD is the APOE gene, which encodes the apolipoprotein Eprotein. Three predominant APOE alleles exist humans, which give rise to three isoforms, called apoE2, E3, and E4. Individuals with apoE4 are ten times more likely to develop AD. In contrast, the apoE2 isoform has a neuroprotective effect and is associated with a 2-fold …