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Manipulation of normal cells to produce a cancer-like mitotic phenotype
Title
Manipulation of normal cells to produce a cancer-like mitotic phenotype.
Creator
Luffman, Christina., Harriet L. Wilkes Honors College
Abstract/Description
Most tumors contain multiple karyotypes due to genomic instability gained through chromosomal segregational defects. The variability of genomic changes within a population makes it difficult to study specific processes without the existence of confounding mutations. My project is to create a model system for observation of mitotic defects, specifically multipolar spindles, in a normal cell line, where the genome is intact. Induction of centrosome amplification is required for formation of...
Show moreMost tumors contain multiple karyotypes due to genomic instability gained through chromosomal segregational defects. The variability of genomic changes within a population makes it difficult to study specific processes without the existence of confounding mutations. My project is to create a model system for observation of mitotic defects, specifically multipolar spindles, in a normal cell line, where the genome is intact. Induction of centrosome amplification is required for formation of multipolar spindles. Treatments with colcemid showed a 10% increase in abnormal centrosome numbers over control. However, treatment with hydroxyurea and transfection of hMPSl showed little increase. Extra centrosomes are insufficient to drive multipolarity, therefore, I am using siRNA-mediated knockdown of Nek2 or HSET to decluster the extra centrosomes. Successful declustering will preferably show an increase in multipolar frequency, allowing us to study the formation and resolution of these structres to better understand how they contribute to aneuploidy and tumor progression.
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Date Issued
2009
PURL
http://purl.flvc.org/FAU/3325079
Subject Headings
Cell division, Karyokinesis, Cancer, Genetic aspects, Genomics, Cellular signal transduction, Centrosomes
Format
Document (PDF)
Correlation between specific carcinogenic chemicals and specific mitotic defects and the restorative role of antioxidants
Title
Correlation between specific carcinogenic chemicals and specific mitotic defects and the restorative role of antioxidants.
Creator
Yates, Travis., Harriet L. Wilkes Honors College
Abstract/Description
The progression of cancerous cells towards a more aggressive tumor can be linked to external elements called carcinogens. The goal of this project is to examine the correlation between exposure to specific carcinogens and an increase of mitotic defects. These defects can manifest as lagging chromosomes, multipolar spindles, and anaphase bridges. Some of these instabilities are associated with the formation of reactive oxygen species (ROS), which are known to damage DNA. The potential for...
Show moreThe progression of cancerous cells towards a more aggressive tumor can be linked to external elements called carcinogens. The goal of this project is to examine the correlation between exposure to specific carcinogens and an increase of mitotic defects. These defects can manifest as lagging chromosomes, multipolar spindles, and anaphase bridges. Some of these instabilities are associated with the formation of reactive oxygen species (ROS), which are known to damage DNA. The potential for damage to the genome can be averted via antioxidants. Using the oral cancer cell line UPCI:SCC103, we established a baseline for the mitotic defects in the absence and presence of various ROS-inducing carcinogens using DAPI-stained fixed cells examined by immunofluorescent microscopy, The cells were treated with varying concentrations of the antioxidants, Vitamin C, (Sb(B-Carotene, and Vitamin E. The reactive oxygen scavengers significantly reduced the number of mitotic defects. A possible link between the carcinogens and lagging chromosomes was established.
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Date Issued
2009
PURL
http://purl.flvc.org/FAU/210007
Subject Headings
Cellular signal transduction, Genetic regulation, Antioxidants, Therapeutic use, Apoptosis, Molecular aspects, Cancer, Chemoprevention
Format
Document (PDF)
Understanding the role of transgenic catalase in T-cell development in murine-based studies
Title
Understanding the role of transgenic catalase in T-cell development in murine-based studies.
Creator
Smith, Richard M., Harriet L. Wilkes Honors College
Abstract/Description
The thymus provides a unique microenvironment that facilitates T lymphocytes differentiation and maturation. However, the thymus atrophies after puberty which leads to an overall expression of metabolism gene pathways and low gene expression of certain peroxide scavenger enzymes such as catalase in thymic stromal compartments. From this data, we postulate that thymic stromal cells are highly susceptible to oxidative damage. We utilized a transgenic mice model overexpressing human catalase...
Show moreThe thymus provides a unique microenvironment that facilitates T lymphocytes differentiation and maturation. However, the thymus atrophies after puberty which leads to an overall expression of metabolism gene pathways and low gene expression of certain peroxide scavenger enzymes such as catalase in thymic stromal compartments. From this data, we postulate that thymic stromal cells are highly susceptible to oxidative damage. We utilized a transgenic mice model overexpressing human catalase targeted to the mitochondria (mCat) to test our hypothesis that gerater oxidative protection should lower the degree of thymus atrophy. Our experiment focused on a direct comparison of organ weights (thymus, kidney, lymph nodes, spleen and heart), cellularity and histology between transgenic and wildtype mice. We found that mCat had selective increases in thymus size.
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Date Issued
2012
PURL
http://purl.flvc.org/FAU/3359325
Subject Headings
T cells, Differentiation, Developmental genetics, Gene expression, Human cell culture, Thymus, Physiology
Format
Document (PDF)
effect of mutated aconitase on yeast longevity
Title
The effect of mutated aconitase on yeast longevity.
Creator
Kwan, CJ., Harriet L. Wilkes Honors College
Abstract/Description
Aconitase is an important enzyme in the citric Acid Cycle, is needed for maintenance of mitochondrial DNA, is a key regulator of iron in the cell, and is very sensitive to oxidative stress. We have isolatd the yeast ACO1 gene, which codes for aconitase, and randomly mutated it to create a mutant library of cells each expressing a different version of ACO1. We will select for oxidative stress resistant aconitase in S. cerevisiae by subjecting strains to successive rounds of heat shock and...
Show moreAconitase is an important enzyme in the citric Acid Cycle, is needed for maintenance of mitochondrial DNA, is a key regulator of iron in the cell, and is very sensitive to oxidative stress. We have isolatd the yeast ACO1 gene, which codes for aconitase, and randomly mutated it to create a mutant library of cells each expressing a different version of ACO1. We will select for oxidative stress resistant aconitase in S. cerevisiae by subjecting strains to successive rounds of heat shock and competitive growth against other mutants. The "winner" of this competition will then be analyzed for which version of aconitase it is expressing, which may lead to increased longevity.
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Date Issued
2012
PURL
http://purl.flvc.org/FAU/3359310
Subject Headings
Yeast fungi, Research, Microbial genetics, Aging, Molecular aspects, Mutation (Biology), Cell metabolism
Format
Document (PDF)
Biological Computation: the development of a genomic analysis pipeline to identify cellular genes modulated by the transcription / splicing factor srsf1
Title
Biological Computation: the development of a genomic analysis pipeline to identify cellular genes modulated by the transcription / splicing factor srsf1.
Creator
Clark, Evan, Asghar, Waseem, Florida Atlantic University, College of Engineering and Computer Science, Department of Computer and Electrical Engineering and Computer Science
Abstract/Description
SRSF1 is a widely expressed mammalian protein with multiple functions in the regulation of gene expression through processes including transcription, mRNA splicing, and translation. Although much is known of SRSF1 role in alternative splicing of specific genes little is known about its functions as a transcription factor and its global effect on cellular gene expression. We utilized a RNA sequencing (RNA-¬‐Seq) approach to determine the impact of SRSF1 in on cellular gene expression and...
Show moreSRSF1 is a widely expressed mammalian protein with multiple functions in the regulation of gene expression through processes including transcription, mRNA splicing, and translation. Although much is known of SRSF1 role in alternative splicing of specific genes little is known about its functions as a transcription factor and its global effect on cellular gene expression. We utilized a RNA sequencing (RNA-¬‐Seq) approach to determine the impact of SRSF1 in on cellular gene expression and analyzed both the short term (12 hours) and long term (48 hours) effects of SRSF1 expression in a human cell line. Furthermore, we analyzed and compared the effect of the expression of a naturally occurring deletion mutant of SRSF1 (RRM12) to the full-¬‐length protein. Our analysis reveals that shortly after SRSF1 is over-¬‐expressed the transcription of several histone coding genes is down-¬‐regulated, allowing for a more relaxed chromatin state and efficient transcription by RNA Polymerase II. This effect is reversed at 48 hours. At the same time key genes for the immune pathways are activated, more notably Tumor Necrosis Factor-¬‐Alpha (TNF-¬‐α), suggesting a role for SRSF1 in T cell functions.
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Date Issued
2017
PURL
http://purl.flvc.org/fau/fd/FA00004858, http://purl.flvc.org/fau/fd/FA00004858
Subject Headings
Gene expression., Computational biology., Markov processes., Bioinformatics., Genetic engineering., Molecular biology.
Format
Document (PDF)
Characterization of SNAG-zinc finger protein (ZFP) transcription factors
Title
Characterization of SNAG-zinc finger protein (ZFP) transcription factors.
Creator
Chiang, Cindy Chung-Yue., Charles E. Schmidt College of Science, Department of Biological Sciences
Abstract/Description
Transcriptional regulation is an important area of research due to the fact that it leads to gene expression. Transcription factors associated with the regulation can either be activators or repressors of target genes, acting directly or with the aid of other factors. A majority of transcriptional repressors are zinc finger proteins (ZFPs) which bind to specific DNA sequences. The Snail/Gfi (SNAG) domain family, with members such as Slug, Smuc, Snail, and Scratch, are transcriptional...
Show moreTranscriptional regulation is an important area of research due to the fact that it leads to gene expression. Transcription factors associated with the regulation can either be activators or repressors of target genes, acting directly or with the aid of other factors. A majority of transcriptional repressors are zinc finger proteins (ZFPs) which bind to specific DNA sequences. The Snail/Gfi (SNAG) domain family, with members such as Slug, Smuc, Snail, and Scratch, are transcriptional repressors shown to play a role in various diseases such as cancer. The SNAG transcription factors contain a conserved SNAG repression domain and DNA binding domain zinc fingers. The specific DNA sequences to which each SNAG-ZFP binds, as well as a general consensus -TGCACCTGTCCGA, have been determined. Also, putative protein-protein interactions in which the Slug domain participates has been identified via binding assays. All these results contribute to better understanding of SNAG-ZFP functions.
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Date Issued
2009
PURL
http://purl.flvc.org/FAU/186676
Subject Headings
Zinc-finger proteins, Synthesis, Metalloproteins, Synthesis, Genetic transcription, Regulation, Cellular signal transduction, Gene expression
Format
Document (PDF)
Characterization of Group B Sox genes in the development of Drosophila nervous system.
Title
Characterization of Group B Sox genes in the development of Drosophila nervous system.
Creator
Singh, Shweta, Dawson-Scully, Ken, Florida Atlantic University, Charles E. Schmidt College of Science, Department of Biological Sciences
Abstract/Description
Sox proteins all contain a single ~70 amino acid High Mobility Group (HMG) DNA-binding domain with strong homology to that of Sry, the mammalian testisdetermining factor. In Drosophila melanogaster, there are four closely related members of the B group, Dichaete (D), Sox Neuro (Sox N), Sox 21a, and Sox 21b that each exhibit ~90% sequence identity within the HMG domain.The previous study has shown that Dichaete plays a major role in embryonic nervous system development and is expressed in...
Show moreSox proteins all contain a single ~70 amino acid High Mobility Group (HMG) DNA-binding domain with strong homology to that of Sry, the mammalian testisdetermining factor. In Drosophila melanogaster, there are four closely related members of the B group, Dichaete (D), Sox Neuro (Sox N), Sox 21a, and Sox 21b that each exhibit ~90% sequence identity within the HMG domain.The previous study has shown that Dichaete plays a major role in embryonic nervous system development and is expressed in several clusters of neurons in the brain, including intermingled olfactory LNs and central-complex neurons strongly expressed in local interneuron of the olfactory system. However, little is known about the possible expression and functions of the related group B Sox genes in the larval and adult brain. In particular, it is unclear if Sox N may function along with Dichaete in controlling the development or physiology of the adult olfactory system. Our data suggests Sox N potential role in the elaboration of the olfactory circuit formation.
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Date Issued
2017
PURL
http://purl.flvc.org/fau/fd/FA00004907, http://purl.flvc.org/fau/fd/FA00004907
Subject Headings
Drosophila melanogaster--Physiology., Transcription factors., Gene expression., Genetic transcription., Cell cycle., Neural stem cells.
Format
Document (PDF)
DISCOVERY OF GENES AND MOLECULAR PROCESSES THAT ARE IMPORTANT FOR THE PATHOGENESIS OF ALZHEIMER’S DISEASE
Title
DISCOVERY OF GENES AND MOLECULAR PROCESSES THAT ARE IMPORTANT FOR THE PATHOGENESIS OF ALZHEIMER’S DISEASE.
Creator
Kwakye, Alexander, Li, Zhongwei, Florida Atlantic University, Department of Biomedical Science, Charles E. Schmidt College of Medicine
Abstract/Description
Alzheimer’s Disease (AD) is a complex brain disorder that affects at least one in every ten persons aged 65 and above worldwide. The pathogenesis of this disorder remains elusive. In this work, we utilized a rich set of publicly available gene expression data to elucidate the genes and molecular processes that may underlie its pathogenesis. We developed a new ranking score to prioritize molecular pathways enriched in differentially expressed genes during AD. After applying our new ranking...
Show moreAlzheimer’s Disease (AD) is a complex brain disorder that affects at least one in every ten persons aged 65 and above worldwide. The pathogenesis of this disorder remains elusive. In this work, we utilized a rich set of publicly available gene expression data to elucidate the genes and molecular processes that may underlie its pathogenesis. We developed a new ranking score to prioritize molecular pathways enriched in differentially expressed genes during AD. After applying our new ranking score, GO categories such as cotranslational protein targeting to membrane, SRP-dependent cotranslational protein targeting to membrane, and spliceosomal snRNP assembly were found to be significantly associated with AD. We also confirm the protein-protein interaction between APP, NPAS4 and ARNT2 and explain that this interaction could be implicated in AD. This interaction could serve as a theoretical framework for further analyses into the role of NPAS4 and other immediate-early genes in AD pathogenesis.
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Date Issued
2020
PURL
http://purl.flvc.org/fau/fd/FA00013541
Subject Headings
Alzheimer's disease, Alzheimer's disease--Genetic aspects, Alzheimer's disease--Molecular aspects, Alzheimer's disease--Pathogenesis
Format
Document (PDF)
DNA fingerprints of human oral microbiome: a first step towards early diagnosis of oral diseases
Title
DNA fingerprints of human oral microbiome: a first step towards early diagnosis of oral diseases.
Creator
Chakraborty, Shreyasee, Esiobu, Nwadiuto, Florida Atlantic University, Charles E. Schmidt College of Science, Department of Biological Sciences
Abstract/Description
This study evaluated the stability of oral bacteria in healthy subjects and documented community shifts in smokers and oral/periodontal disease by employing PCR-RFLP, DGGE and sequence analysis of the 16S rDNA gene from metagenomes and plate-wash (cultured) bacteria of oral wash from 15 participants,. A stable core of bacterial DNA fingerprint was detected within and between subjects and did not change over time when analyzed in smokers and healthy non-smokers. Signature bands in smokers, non...
Show moreThis study evaluated the stability of oral bacteria in healthy subjects and documented community shifts in smokers and oral/periodontal disease by employing PCR-RFLP, DGGE and sequence analysis of the 16S rDNA gene from metagenomes and plate-wash (cultured) bacteria of oral wash from 15 participants,. A stable core of bacterial DNA fingerprint was detected within and between subjects and did not change over time when analyzed in smokers and healthy non-smokers. Signature bands in smokers, non-smokers and periodontal disease subjects were evident suggesting the presence of potential indicators of health and poor oral health. Taxon diversity was higher in smokers including members of the genera Rothia, Synechococcus, Neisseria, Thiomargarita and Pyrobaculum but highest in periodontal disease. The two techniques successfully aligned the subjects within appropriate categories (based on their oral microbial genetic patterns)confirming their diagnostic suitability.
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Date Issued
2014
PURL
http://purl.flvc.org/fau/fd/FA00004184, http://purl.flvc.org/fau/fd/FA00004184
Subject Headings
Molecular microbiology., Mouth--Microbiology., Bacterial genetics., Cellular signal transduction., Microbial genomics.
Format
Document (PDF)
Chronic variable stress affects hippocampal neurotrophic factor gene expression in the novelty-seeking phenotype
Title
Chronic variable stress affects hippocampal neurotrophic factor gene expression in the novelty-seeking phenotype: epigenetic regulation.
Creator
Oztan, Ozge., Charles E. Schmidt College of Medicine
Abstract/Description
Experimentally naive rats exhibit varying degrees of novelty exploration. Some rats display high rates of locomotor reactivity to novelty (high responders; HR), and others display low rates (low responders; LR). The novelty-seeking phenotype (LRHR) is introduced as a model of stress responsiveness. In this thesis I examined effects of chronic variable physical and social stress or control handling on the levels of various neurotrophins in the hippocampus, and changes in mossy fibre terminal...
Show moreExperimentally naive rats exhibit varying degrees of novelty exploration. Some rats display high rates of locomotor reactivity to novelty (high responders; HR), and others display low rates (low responders; LR). The novelty-seeking phenotype (LRHR) is introduced as a model of stress responsiveness. In this thesis I examined effects of chronic variable physical and social stress or control handling on the levels of various neurotrophins in the hippocampus, and changes in mossy fibre terminal fields in LRHR rats. A positive correlation is seen between histone deacetylase 2 and brain-derived neurotrophic factor (BDNF) levels both of which are oppositely regulated in LRHR CA3 fields in response to chronic social stress. Increase in BDNF levels in CA3 field accompanied increase in supra-pyramidal mossy fibre terminal field size (SP-MF) in HRs, and decrease in BDNF levels accompanied decrease in SP-MF volume in LRs. Epigenetic regulation of neurotrophic support underlying these structural changes is discussed.
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Date Issued
2009
PURL
http://purl.flvc.org/FAU/215290
Subject Headings
Rats as laboratory animals, Cellular signal transduction, Gene expression, Hippocampus (Brain), Physiology, Neural transmission, Genetic regulation
Format
Document (PDF)
Developmental delays in methionine sulfoxide reductase mutants in Drosophila Melanogaster
Title
Developmental delays in methionine sulfoxide reductase mutants in Drosophila Melanogaster.
Creator
Hausman, William, Binninger, David, Florida Atlantic University, Charles E. Schmidt College of Science, Department of Biological Sciences
Abstract/Description
Aging is a biological process that has many detrimental effects due to the accumulation of oxidative damage to key biomolecules due to the action of free radicals. Methionine sulfoxide reductase (Msr) functions to repair oxidative damage to methionine residues. Msr comes in two forms, MsrA and MsrB, each form has been shown to reduce a specific enantiomer of bound and free oxidized methionine. Effects of Msr have yet to be studied in the major developmental stages of Drosophila melanogaster...
Show moreAging is a biological process that has many detrimental effects due to the accumulation of oxidative damage to key biomolecules due to the action of free radicals. Methionine sulfoxide reductase (Msr) functions to repair oxidative damage to methionine residues. Msr comes in two forms, MsrA and MsrB, each form has been shown to reduce a specific enantiomer of bound and free oxidized methionine. Effects of Msr have yet to be studied in the major developmental stages of Drosophila melanogaster despite the enzymes elevated expression during these stages. A developmental timeline was determined for MsrA mutant, MsrB mutant, and double null mutants against a wild type control. Results show that the Msr double mutant is delayed approximately 20 hours in the early/mid third instar stage while each of the single mutants showed no significant difference to the wild type. Data suggests that the reasoning of this phenomenon is due to an issue gaining mass.
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Date Issued
2014
PURL
http://purl.flvc.org/fau/fd/FA00004200, http://purl.flvc.org/fau/fd/FA00004200
Subject Headings
Aging -- Molecular aspects, Cellular signal transduction, Drosophila melanogaster -- Genetics, Mitochondrial pathology, Mutation (Biology), Oxidative stress
Format
Document (PDF)
Development of a novel assay for in vivo screening of neuromodulatory drugs and targeted disruption of cholinergic synaptic transmission in Drosophila melanogaster
Title
Development of a novel assay for in vivo screening of neuromodulatory drugs and targeted disruption of cholinergic synaptic transmission in Drosophila melanogaster.
Creator
Mejia, Monica, Charles E. Schmidt College of Science, Department of Biological Sciences
Abstract/Description
Finding novel compounds that affect neuronal or muscular function is of great interest, as they can serve as potential pharmacological agents for a variety of neurological disorders. For instance, conopeptides have been developed into powerful drugs like the painkiller PrialtTM. Most conopeptides, however, have yet to be characterized, revealing the need for a rapid and straightforward screening method. We have designed a novel bioassay, which allows for unbiased screening of biological...
Show moreFinding novel compounds that affect neuronal or muscular function is of great interest, as they can serve as potential pharmacological agents for a variety of neurological disorders. For instance, conopeptides have been developed into powerful drugs like the painkiller PrialtTM. Most conopeptides, however, have yet to be characterized, revealing the need for a rapid and straightforward screening method. We have designed a novel bioassay, which allows for unbiased screening of biological activity of compounds in vivo against numerous molecular targets on a wide variety of neurons and muscles in a rapid and straightforward manner. For this, we paired nanoinjection of compounds with electrophysiological recordings from the Giant Fiber System of Drosophila melanogaster, which mediates the escape response of the fly.
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Date Issued
2013
PURL
http://purl.flvc.org/fcla/dt/3362560
Subject Headings
Drosophila melanogaster, Genetics, Drosophila melanogaster, Life cycles, Insects, Physiology, Developmental neurobiology, Neural transmission, Cholinergic mechanisms
Format
Document (PDF)
Effects of stressors on differential gene expression and secondary metabolites by Axinella corrugata
Title
Effects of stressors on differential gene expression and secondary metabolites by Axinella corrugata.
Creator
Grima, Jennifer., Charles E. Schmidt College of Science, Department of Biological Sciences
Abstract/Description
Sponges are an important source of bioactive marine natural products, or secondary metabolites. The common Caribbean reef sponge, Axinella corrugata, produces an antitumor and antibacterial chemical, stevensine. This study determined whether environmental stressors, such as elevated temperature and exposure to Amphibalanus amphitrite larvae, affect the production of stevensine by A.corrugata and if the stressors caused A.corrugata to exhibit differential gene expression. Temperature stress...
Show moreSponges are an important source of bioactive marine natural products, or secondary metabolites. The common Caribbean reef sponge, Axinella corrugata, produces an antitumor and antibacterial chemical, stevensine. This study determined whether environmental stressors, such as elevated temperature and exposure to Amphibalanus amphitrite larvae, affect the production of stevensine by A.corrugata and if the stressors caused A.corrugata to exhibit differential gene expression. Temperature stress resulted in no significant change in the production of stevensine; only two genes were significantly differentially expressed, including hsp70. Larval stressed resulted in increased production of stevensine and significant differential gene expression (more than seventy genes). This study suggests that A.corrugata may be resilient to elevations in temperature and that one of stevensine's roles in nature is as an antifoulant.
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Date Issued
2013
PURL
http://purl.flvc.org/fcla/dt/3360781
Subject Headings
Axinellida, Sponges, Marine pharmacology, Adaptation (Biology), Gene expression, Genetic regulation, Stress (Physiology), Ecophysiology
Format
Document (PDF)
Effects of gene selection and data sampling on prediction of breast cancer treatments
Title
Effects of gene selection and data sampling on prediction of breast cancer treatments.
Creator
Heredia, Brian, Khoshgoftaar, Taghi M., Florida Atlantic University, College of Engineering and Computer Science, Department of Computer and Electrical Engineering and Computer Science
Abstract/Description
In recent years more and more researchers have begun to use data mining and machine learning tools to analyze gene microarray data. In this thesis we have collected a selection of datasets revolving around prediction of patient response in the specific area of breast cancer treatment. The datasets collected in this paper are all obtained from gene chips, which have become the industry standard in measurement of gene expression. In this thesis we will discuss the methods and procedures used in...
Show moreIn recent years more and more researchers have begun to use data mining and machine learning tools to analyze gene microarray data. In this thesis we have collected a selection of datasets revolving around prediction of patient response in the specific area of breast cancer treatment. The datasets collected in this paper are all obtained from gene chips, which have become the industry standard in measurement of gene expression. In this thesis we will discuss the methods and procedures used in the studies to analyze the datasets and their effects on treatment prediction with a particular interest in the selection of genes for predicting patient response. We will also analyze the datasets on our own in a uniform manner to determine the validity of these datasets in terms of learning potential and provide strategies for future work which explore how to best identify gene signatures.
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Date Issued
2014
PURL
http://purl.flvc.org/fau/fd/FA00004292, http://purl.flvc.org/fau/fd/FA00004292
Subject Headings
Antineoplastic agents -- Development, Breast -- Cancer -- Treatment, Cancer -- Genetic aspects, DNA mircroarrays, Estimation theory, Gene expression
Format
Document (PDF)
Genetic Connectivity and Phenotypic Plasticity of Shallow and Mesophotic Coral Ecosystems in the Gulf of Mexico
Title
Genetic Connectivity and Phenotypic Plasticity of Shallow and Mesophotic Coral Ecosystems in the Gulf of Mexico.
Creator
Studivan, Michael, Voss, Joshua, Florida Atlantic University, Charles E. Schmidt College of Science, Department of Biological Sciences
Abstract/Description
Coral reef ecosystems worldwide are facing increasing degradation due to disease, anthropogenic damage, and climate change, particularly in the Tropical Western Atlantic. Mesophotic coral ecosystems (MCEs) have been recently gaining attention through increased characterization as continuations of shallow reefs below traditional SCUBA depths (>30 m). As MCEs appear to be sheltered from many stressors affecting shallow reefs, MCEs may act as a coral refuge and provide larvae to nearby shallow...
Show moreCoral reef ecosystems worldwide are facing increasing degradation due to disease, anthropogenic damage, and climate change, particularly in the Tropical Western Atlantic. Mesophotic coral ecosystems (MCEs) have been recently gaining attention through increased characterization as continuations of shallow reefs below traditional SCUBA depths (>30 m). As MCEs appear to be sheltered from many stressors affecting shallow reefs, MCEs may act as a coral refuge and provide larvae to nearby shallow reefs. The Deep Reef Refugia Hypothesis (DRRH) posits that shallow and mesophotic reefs may be genetically connected and that some coral species are equally compatible in both habitats. The research presented here addresses key questions that underlie this theory and advances our knowledge of coral connectivity and MCE ecology using the depth-generalist coral Montastraea cavernosa. Chapter 1 presents an overview of the DRRH, a description of MCEs in the Gulf of Mexico (GOM), and the framework of research questions within existing reef management infrastructure in the GOM. Through microsatellite genotyping, Chapter 2 identifies high connectivity among shallow and mesophotic reefs in the northwest GOM and evidence for relative isolation between depth zones in Belize and the southeast GOM. Historical migration and vertical connectivity models estimate Gulf-wide population panmixia. Chapter 3 focuses on population structure within the northwest GOM, identifying a lack of significant population structure. Dominant migration patterns estimate population panmixia, suggesting mesophotic populations currently considered for National Marine Sanctuary protection benefit the Flower Garden Banks. Chapter 4 quantifies the level of morphological variation between shallow and mesophotic M. cavernosa, revealing two distinct morphotypes possibly representing adaptive tradeoffs. Chapter 5 examines the transcriptomic mechanisms behind coral plasticity between depth zones, discovering a consistent response to mesophotic conditions across regions. Additionally, variable plasticity of mesophotic corals resulting from transplantation to shallow depths and potential differences in bleaching resilience between shallow and mesophotic corals are identified. The dissertation concludes with a synthesis of the results as they pertain to connectivity of shallow and mesophotic corals in the Gulf of Mexico and suggests future research that will aid in further understanding of MCE ecology and connectivity.
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Date Issued
2018
PURL
http://purl.flvc.org/fau/fd/FA00005961
Subject Headings
Coral reef ecology--Mexico, Gulf of, Phenotypic plasticity, Montastraea, Ecological genetics
Format
Document (PDF)
Activators and repressors of transcription
Title
Activators and repressors of transcription: using bioinformatics approaches to analyze and group human transcription factors.
Creator
Savitskaya, Ala., Charles E. Schmidt College of Science, Department of Biological Sciences
Abstract/Description
Transcription factors are macromolecules that are involved in transcriptional regulation by interacting with specific DNA regions, and they can cause activation or silencing of their target genes. Gene regulation by transcriptional control explains different biological processes such as development, function, and disease. Even though transcriptional control has been of great interest for molecular biology, much still remains unknown. This study was designed to generate the most current list...
Show moreTranscription factors are macromolecules that are involved in transcriptional regulation by interacting with specific DNA regions, and they can cause activation or silencing of their target genes. Gene regulation by transcriptional control explains different biological processes such as development, function, and disease. Even though transcriptional control has been of great interest for molecular biology, much still remains unknown. This study was designed to generate the most current list of human transcription factor genes. Unique entries of transcription factor genes were collected and entered into Microsoft Office 2007 Access Database along with information about each gene. Microsoft Office 2007 Access tools were used to analyze and group collected entries according to different properties such as activator or repressor record, or presence of certain protein domains. Furthermore, protein sequence alignments of members of different groups were performed, and phylogenetic trees were used to analyze relationship between different members of each group. This work contributes to the existing knowledge of transcriptional regulation in humans.
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Date Issued
2010
PURL
http://purl.flvc.org/FAU/1930495
Subject Headings
Transcription factors, Genetic transcription, Regulation, Cellular signal transduction, DNA microarrays, Bioinformatics
Format
Document (PDF)
Influence of sex hormones and genetic predisposition in dry eye in Sjèogren's syndrome
Title
Influence of sex hormones and genetic predisposition in dry eye in Sjèogren's syndrome: a new clue to the immunopathogenesis of dry eye disease.
Creator
Mostafa, Safinaz, Charles E. Schmidt College of Medicine, Department of Biological Sciences
Abstract/Description
Sjèogren's syndrome (S) is a chronic autoimmune disease characterized by ocular and oral dryness and primarily affects post menopausal women. In the present study we investigated the time course of lymphocytic infiltration, apoptosis, caspase-3 activity and different cytokines levels in the lacrimal glands of both genetically predisposed and control mice to elucidate immunopathological mechanism leading to dry eye. The results of our experiments showed that ovariectomy accelerated...
Show moreSjèogren's syndrome (S) is a chronic autoimmune disease characterized by ocular and oral dryness and primarily affects post menopausal women. In the present study we investigated the time course of lymphocytic infiltration, apoptosis, caspase-3 activity and different cytokines levels in the lacrimal glands of both genetically predisposed and control mice to elucidate immunopathological mechanism leading to dry eye. The results of our experiments showed that ovariectomy accelerated pathological findings of SS by increasing lympocytic infiltration, cytokine production, lacrimal gland cell death and cleaved caspase-3 activity, and these effects were more pronounced and persistent in the genetically predisposed mouse model of SS. In addition, we observed that lymphocytic infiltration occurred earlier compared to apoptosis which may perpetuate immune mediated destruction of lacrimal epithelial cells. Furthermore, treatment with physioloigical doses of 17-B Estradiol (E2) or DIhydrotestosterone (DHT) prevented all these pathological events observed after ovariectomy.
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Date Issued
2011
PURL
http://purl.flvc.org/FAU/3353086
Subject Headings
Dry eye syndromes, Immunological aspects, Sjèogren's syndrome, Immunological aspects, Disease susceptibility, Human genome, Medical genetics
Format
Document (PDF)
Genetic differentiation among populations of bald eagles, Haliaeetus leucocephalus
Title
Genetic differentiation among populations of bald eagles, Haliaeetus leucocephalus.
Creator
Helmick, Ericka Elizabeth., Charles E. Schmidt College of Science, Department of Biological Sciences
Abstract/Description
The bald eagle, Haliaeetus leucocephalus, population declined dramatically in the early 20th century reducing the population from tens of thousands of birds within the lower 48 states, to
Show moreThe bald eagle, Haliaeetus leucocephalus, population declined dramatically in the early 20th century reducing the population from tens of thousands of birds within the lower 48 states, to <450 pairs of birds, effectively inducing a population bottleneck. The overall population has recovered and was removed from the endangered species list in 2007. This study investigates whether such overall population statistics are appropriate descriptors for this widespread species. I investigated the genetic differentiation between three populations of bald eagles from Alaska, North Florida and Florida Bay using both mitochondrial and nuclear DNA loci to determine whether discrete subpopulations comprise the broad range. Significant FST values, for both mtDNA and microsatellites, were found between both Florida populations and Alaska, but not within Florida populations. Results indicate that there is strong population structure, rejecting the null hypothesis of a panmictic population. Future conservation efforts should focus on subpopulations rather than the overall population.
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Date Issued
2011
PURL
http://purl.flvc.org/FAU/3171395
Subject Headings
Wildlife conservation, Birds, Molecular genetics, Gene targeting, Developmental biology, Biochemical markers
Format
Document (PDF)
Inflammatory response in stress and the role of autophagy in breast cancer
Title
Inflammatory response in stress and the role of autophagy in breast cancer.
Creator
Onwuha-Ekpete, Lillian C., Charles E. Schmidt College of Medicine, Department of Biomedical Science
Abstract/Description
We attempted to understand the molecular regulators that impact inflammation using a rat model of human sensation-seeking/risk-taking trait for drug and stress vulnerability, based on their exploratory behavior displaying high rates (HRs) or low rates of locomotor reactivity (LRs) to environmental stress. We found that HRs have a pro-inflammatory phenotype as indicated by increased protein expression of the inflammatory cytokine TNF-(Sa(B. Furthermore, we found that HRs have a lower gene...
Show moreWe attempted to understand the molecular regulators that impact inflammation using a rat model of human sensation-seeking/risk-taking trait for drug and stress vulnerability, based on their exploratory behavior displaying high rates (HRs) or low rates of locomotor reactivity (LRs) to environmental stress. We found that HRs have a pro-inflammatory phenotype as indicated by increased protein expression of the inflammatory cytokine TNF-(Sa(B. Furthermore, we found that HRs have a lower gene expression of the glucocorticoid receptor and histone deacetylase 2 which are known to play an immunosuppressive role. Autophagy (macroautophagy) is a homeostatic process needed for cell maintenance, growth and proliferation and known to assist in tumor survival. FYVE and coiled-coil domain containing 1 (FYCO1) is a novel protein implicated to assist in the plus-end directed trafficking and fusion of autophagosomes. In these studies, we show that FYCO1 gene expression among human breast cell lines of varying degrees of malignancy.
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Date Issued
2012
PURL
http://purl.flvc.org/fcla/dt/3362042
Subject Headings
Breast, Cancer, Genetic aspects, Cancer, Molecular aspects, Carcinogenesis, Cellular signal transduction, Stress (Physiology)
Format
Document (PDF)
comprehensive study of mammalian SNAG transcription family members
Title
A comprehensive study of mammalian SNAG transcription family members.
Creator
Chiang, Cindy Chung-Yue., Charles E. Schmidt College of Science, Department of Biological Sciences
Abstract/Description
Transcriptional regulation by the family of SNAG (Snail/Gfi-1) zinc fingers has been shown to play a role in various developmental states and diseases. These transcriptional repressors have function in both DNA- and protein-binding, allowing for multiple interactions by a single family member. This work aims to characterize the SNAG members Slug, Smuc, Snail, Scratch, Gfi-1, Gfi-1B, and IA-1 in terms of both DNA-protein and protein-protein interactions. The specific DNA sequences to which the...
Show moreTranscriptional regulation by the family of SNAG (Snail/Gfi-1) zinc fingers has been shown to play a role in various developmental states and diseases. These transcriptional repressors have function in both DNA- and protein-binding, allowing for multiple interactions by a single family member. This work aims to characterize the SNAG members Slug, Smuc, Snail, Scratch, Gfi-1, Gfi-1B, and IA-1 in terms of both DNA-protein and protein-protein interactions. The specific DNA sequences to which the zinc finger regions bind were determined for each member, and a general consensus of TGCACCTGTCCGA, was developed for four of the members. Via these studies, we also reveal thebinding affinities of E-box (CANNTG) sequences to the members, since this core is found for multiple members' binding sites. Additionally, protein-protein interactions of SNAG members to other biological molecules were investigated. The Slug domain and Scratch domain have unknown function, yet through yeast two-hybrid screening, we were able to determine protein interaction partners for them as well as for other full length SNAG members. These protein-interacting partners have suggested function as corepressors during transcriptional repression. The comprehensive information determined from these studies allow for a better understanding of the functional relationship between SNAG-ZFPs and other genes. The collected data not only creates a new profile for each member investigated, but it also allows for further studies to be initiated from the results.
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Date Issued
2012
PURL
http://purl.flvc.org/fcla/dt/3342041
Subject Headings
Cellular signal transduction, Zinc-finger proteins, Synthesis, Metalloproteins, Synthesis, Genetic transcription, Regulation
Format
Document (PDF)

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