Global ETD Search

21	Search for functional alleles in the human genome with focus on cardiovascular disease candidate genes Johnson, Andrew Danner 30 August 2007 (has links) No description available. allelic expression imbalance allele expression imbalance allele imbalance differential allelic expression AEI DAE SNP single nucleotide polymorphism polymorphism variants disease genetics case control association genome-wide association
22	Allele specific gene expression in the major histocompatibility complex Plant, Katharine January 2012 (has links) The Major Histocompatibility Complex (MHC) is a highly polymorphic region of the genome located on chromosome 6p21 in which genetic diversity has been associated with susceptibility to many autoimmune, infectious and other common diseases. Despite strong associations between disease and variation in the MHC that have been identified initially from serological testing and more recently by genome-wide association studies, functional insights into how specific variants may be altering disease susceptibility remain poorly understood in most cases. It is predicted that gene expression will play a significant role in the modulation of disease susceptibility and so further understanding of allele specific gene expression in the MHC will be necessary to help define the function of disease associated variants in this region. This thesis aimed to define allele specific gene expression in the MHC by characterising specific candidate genes together locus-wide approaches in order to try and resolve functional variants. Gene expression was analysed in both lymphoblastoid cell lines (LCLs) and primary human peripheral blood mononuclear cells (PBMCs). Data is presented validating a novel haplotype-specific MHC microarray and fine mapping putative local, likely cis-acting, regulatory variants. This was done by expression quantitative trait mapping for two cohorts of healthy volunteers. A transcription factor ZFP57, encoded in the MHC, was found to show significant differential allelic expression relating to specific single nucleotide polymorphisms (SNPs) and possession of HLA-type. This provided new insights into reported disease associations, notably HIV-1 infection and cancer. The function of ZFP57 was further investigated in terms of genome-wide DNA binding sites by ChIP-seq together with its binding co-factor KAP1. Allele-specific gene expression was also demonstrated for several classical HLA genes including the HLA-C and HLA-DQ genes, fine mapping specific putative regulatory variants. This provided new insights into disease association, notably variants of HLA-DQB1 and susceptibility to leprosy. The applicability and sensitivity of the technique of RNA sequencing (mRNA-seq) for allele-specific quantification of gene expression was investigated for different allelic ratios of RNA from LCLs homozygous for sequence across the MHC. Significant challenges were identified in successful application of this technique to MHC genes while high levels of accuracy were observed dependent on read depth in non-MHC genes. This thesis provides new insights into the extent and nature of allele-specific gene expression in the MHC, experimental approaches that can be used and insights gained into disease susceptibility for this important genomic region. 616.079
23	Mutagenized HLA DNA Constructs: Tools for Validating Molecular HLA Typing Methodologies Schulte, Kathleen Q. 05 1900 (has links) This study describes the development and validation of mutagenized cloned DNA constructs, which correspond to the polymorphic regions of the class II region of the HLA complex. The constructs were used to verify the allelic specificity of primers and probes in polymerase chain reaction (PCR)-based HLA typing assays such as Sequence Specific Primers (SSP) and Sequence Specific Oligonucleotide Probes (SSOP). The constructs consisted of the entire polymorphic region of exon 2 of class II HLA allele sequences that included primer annealing sites or probe hybridization sites. An HLA allele sequence was inserted into a plasmid, cloned, then mutagenized to match a specific HLA allele, and finally, the correct clone was verified by bidirectional sequencing of the insert. Thus, the construct created a cloned reference DNA sample for any specific allele, and can be used to validate the accuracy of various molecular methodologies. DNA analysis HLA allele sequences immunogenetics alleles HLA histocompatibility antigens. DNA -- Analysis. Immunogenetics.
24	Análise de frequências alélicas de 15 marcadores STR em alunos da Faculdade de Odontologia de Bauru / Not available Frederico, Paulo Renato de Paula 14 December 2015 (has links) Entre as muitas aplicações das tecnologias de identificação biológica humana, estão as finalidades forenses. O objetivo desta pesquisa foi verificar frequências alélicas de Short Tandem Repeat (STR) e os parâmetros estatísticos de interesse em genética de populações e forense para desenvolver o primeiro banco de dados populacional de DNA na Faculdade de Odontologia de Bauru, Universidade de São Paulo, (FOB/USP) para futuros usos forenses. Frequências alélicas de 15 locos autossômicos e do marcador de gênero amelogenina foram determinadas utilizando amostras de 200 μL de saliva doados por 296 alunos de graduação da FOB/USP, com idade ≥ 18 anos, após aprovação ética. Os testes laboratoriais foram feitos com kits comerciais. Resultados e parâmetros estatísticos foram obtidos por meio de programas clássicos: GeneMapper-ID-X, MS Excel 2002 versão 10.6871.6870, GenAlEx 6.5 e Arlequin 3.5, comparando quatro populações (brasileira, portuguesa, norte-americana e a população deste estudo). Os locos mais polimórficos foram D18S51 (17 alelos) e FGA (15 alelos), seguidos pelo D21S11 (13 alelos) e os menos polimórficos foram D16S539 e TH01 (7 alelos cada). A análise comparativa com amostra da população brasileira proveniente de estudos anteriores (n > 100.000) pelo teste goodness of fit X2 index não mostrou diferenças significativas entre estes grupos (p = 0,9999). Outros parâmetros estatísticos foram calculados comparando as populações: local (deste estudo), portuguesa e norte-americana. A análise de variância molecular (AMOVA) entre as três populações, entre as pessoas da mesma população e para cada pessoa de cada população mostrou que existe uma elevada variância individual (99%), que esta variância é mantida uniformemente entre as pessoas da mesma amostra/região (1%) e entre as três populações estudadas (0%). O estudo confirmou o elevado grau de polimorfismo e a alta heterozigosidade (96,5%) da população. Houve diferença significativa quanto ao gênero (79,7% mulheres) quando comparado à população brasileira em geral (50,4%), explicada pelas características do corpo discente da FOB/USP composto por 80,6% de pessoas do gênero feminino. Interessante foi a observação de uma microvariante alélica no loco D18S51, fora da escada padrão e da escala de abrangência do kit, correspondente ao alelo 29, ainda não definida na base de dados internacional (STRBase, atualizada em 07/08/2015). Esta microvariante deverá ser confirmada por testes familiares e sequenciamento de DNA para verificar a possibilidade de outra ocorrência familiar ou duplicação de nucleotídeos. No futuro, os dados obtidos neste estudo devem ser incorporados ao banco de dados da população brasileira e podem ser considerados como referência genética da população regional, ajudando a elucidar casos forenses. Após a confirmação, a potencial nova microvariante alélica contribuirá para a base de dados internacional STRBase. / There are many ways of applying biological human identification technologies, among these are forensic applications. The objective of this study was to verify allele frequencies for 15 autosomal short tandem repeat (STR) loci and develop the first human DNA population database at the Bauru School of Dentistry, University of São Paulo (FOB/USP), for future forensic uses. Allele frequencies for these STR loci and an amelogenin gender marker were determined using 200 μL samples of saliva donated by 296 undergraduates from FOB/USP who were ≥ 18 years old at the time of the sample collect after signing a consent form with ethical approval. For laboratory tests, commercial kits were used. Results and statistical parameters were obtained using the following software: GeneMapper IDX (version 1.5), MS Excel 2002 (version 10.6871.6870), GenAlEx (version 6.5) and Arlequin (version 3.5) to compare four populations (Brazil, Portugal, U.S. and this study population). Results indicated that the most polymorphic loci were D18S51 (17 alleles) and FGA (15 alleles), followed by D21S11 (13 alleles); the least polymorphic loci were D16S539 and TH01 (7 alleles each). Various Brazilian populations (n > 100,000) from other studies were compared with this studys Brazilian population using a goodness-of-fit chi-squared test, and no significant differences in these frequencies were observed between these two population groups (p = 0.9999). Other forensic and population genetic statistical parameters were calculated comparing this studys population with Portugal and U.S. populations. For example, an analysis of molecular variance (AMOVA) among all populations, among people of the same population and for each person for each population, showed that people have high individual variance (99%) and that this variance is maintained evenly between people of the same sample/region (1%) and among the three populations studied (0%). This study reinforced the conclusion of other allele frequency population studies for the 15 autosomal STR loci tested, confirming high polymorphic grade and high heterozygosity (96.5%). There were significantly more women in the study (79.7%) when compared to the general Brazilian population (50.4%) since the student body of FOB/USP is 80.6% female. Interestingly, an off-ladder D18S51 allele micro-variance corresponding to the allele 29, not yet identified, was found which should be confirmed using paternity and sequencing tests to verify the possibility of either familial occurrence or nucleotide duplication. In the future, due to the small differences found, the parameters obtained in this study should be incorporated into the Brazilian population database and be considered for a regional population genetic prototype database potentially aiding forensic cases with comparisons and calculations. After confirmation, the potentially new micro variant allele found could be included in the international STRBase. Allele frequency Banco de dados Database Frequência alélica Human identification Identificação humana STR STR
25	Quantifying Ascertainment Bias and Determining Proxy Ancestral Alleles in Human Genome-Wide Polymorphic Data for Use in the Determination of Human Demographic History Croteau-Chonka, Damien January 2007 (has links) Thesis advisor: Gabor T. Marth / Thesis advisor: Eric F. Tsung / My work is part of an effort in Dr. Gabor Marth's population genetics lab to extend the work of Marth's 2004 Genetics paper "The allele frequency spectrum in genome-wide human variation data reveals signals of differential demographic history in three large world populations" by applying its methods to new datasets. My contribution toward this end has been to create computer code (in Perl and Bash) to quantify ascertainment bias and determine proxy ancestral alleles in human genome-wide polymorphic data for post-doctoral fellow Dr. Eric Tsung's use in the determination of human demographic history. The final results of my efforts will be part of a poster by Dr. Tsung (with myself as a second author) displayed at the 2007 Biology of Genomes Symposium at Cold Spring Harbor Laboratory in Cold Spring Harbor, New York. Our goal is to turn that poster into a paper (on which I will be an author) for submission for publication in a major scientific research periodical and which will also be available in the future at http://bioinformatics.bc.edu/marthlab/ascertainmentancestral/. / Thesis (BS) — Boston College, 2007. / Submitted to: Boston College. College of Arts and Sciences. / Discipline: Biology. / Discipline: College Honors Program. Biology, Genetics ascertainment bias bioinformatics population genetics demographic history ancestral allele single nucleotide polymorphisms
26	Did bowhead whales (Balaena mysticetus) from the Bering-Chukchi-Beaufort Seas undergo a genetic bottleneck? A test using nuclear microsatellite loci Hunter, Devra Denise 01 November 2005 (has links) This study reexamines the nuclear microsatellite analysis by Rooney et al. (1999a) of Bering-Chukchi-Beaufort Seas bowhead whales (Balaena mysticetus) to determine if this population underwent a genetic bottleneck as a result of 19th and early 20th Century commercial whaling. This investigation used more accurate laboratory techniques to score alleles, had a larger sample size that was divided into two groups (mainland Alaska and St. Lawrence Island (SLI)), and used a moderately different set of microsatellite loci which are more variable and thus, more informative. The results corroborate the findings of Rooney et al. (1999a) for mainland Alaska showing no evidence of a genetic bottleneck. However, the SLI data analyses provide conflicting conclusions. The Wilcoxon test is significant for a heterozygote excess (p = 0.042) suggesting that a genetic bottleneck has occurred. This is not substantiated by the exact tests of each locus or the table-wide sign test. There is a possibility that a bottleneck has occurred, but due to the small sample size this is not a definitive conclusion and warrants reanalysis with a larger sample size. bowhead whale Balaena mysticetus genetic bottleneck microsatellite loci heterozygosity excess allele frequency
27	The ESR1 gene is associated with risk for canine mammary tumours Borge, Kaja Sverdrup, Melin, Malin, Rivera, Patricio, Thoresen, Stein Istre, Webster, Matthew Thomas, von Euler, Henrik, Lindblad-Toh, Kerstin, Lingaas, Frode January 2013 (has links) Background: The limited within-breed genetic heterogeneity and an enrichment of disease-predisposing alleles have made the dog a very suitable model for the identification of genes associated with risk for specific diseases. Canine mammary cancer is an example of such a disease. However, the underlying inherited risk factors for canine mammary tumours (CMTs) are still largely unknown. In this study, 52 single nucleotide polymorphisms (SNPs) in ten human cancer-associated genes were genotyped in two different datasets in order to identify genes/alleles associated with the development of CMTs. The first dataset consisted of English Springer Spaniel (ESS) CMT cases and controls. ESS is a dog breed known to be at increased risk of developing CMTs. In the second dataset, dogs from breeds known to have a high frequency of CMTs were compared to dogs from breeds with a lower occurrence of these tumours. Results: We found significant associations to CMT for SNPs and haplotypes in the estrogen receptor 1 (ESR1) gene in the ESS material (best P-Bonf = 0.021). A large number of SNPs, among them several SNPs in ESR1, showed significantly different allele frequencies between the high and low risk breed groups (best P-Bonf = 8.8E-32, best P-BPerm = 0.076). Conclusions: The identification of CMT-associated SNPs in ESR1 in two independent datasets suggests that this gene might be involved in CMT development. These findings also support that CMT may serve as a good model for human breast cancer research. Dog Single nucleotide polymorphism Allele frequency Risk Association Mammary tumour Estrogen receptor
28	Syntheses and DNA Interactions of Acridine and Phenothiazine Based Photosensitizers Wilson, Beth 04 December 2006 (has links) Photosensitizing molecules and/or metal complexes that interact with DNA via intercalation and groove binding have potential applications as molecular structural probes, as footprinting reagents and in photodynamic therapeutics. To this regard, small molecules that bind to DNA and the energetics involved in these interactions, acridine-based therapeutics, photosensitization, photodynamic therapy, phenothiazine-mediated photosensitization, DNA photocleavage reaction mechanisms and photosensitizing metal complexes are introduced in Chapter I. Next, in Chapter II, the synthesis of a photonuclease consisting of a 3,6-acridinediamine chromophore attached to four metal-coordinating imidazole rings is described. The DNA photocleavage yields, emission quantum yields, and thermal denaturation studies by this acridine-imadazole conjugate in the presence of 16 metal salts are also reported. In Chapter III is the synthesis of a bisacridine covalently tethered to a copper(II)-binding pyridine linker. Additionally, DNA photocleavage studies as well as DNA binding affinity and binding mode(s) of this bisacridine incorporating the copper(II)-binding pyridine linker are examined. The syntheses, characterization, DNA photocleavage studies, DNA thermal denaturation, and viscometric measurements of three new phenothiazinium photosensitizers are described in Chapters IV and V. Collectively, markedly enhanced DNA photocleavage yields are observed in the presence of metals (Chapters II-III) or in comparison to a parent molecule, Chapters II and IV. DNA melting isotherms show higher levels of duplex stabilization with the acridines, specifically in the presence of several metals (Chapter II-III) as well as with the phenothiazine-based ligands (Chapters IV-V). Moreover, different DNA binding modes were observed depending on metal complexation (Chapter III) and nucleic acid structure (Chapter IV). Finally, Chapter VI describes a small project implemented as a National Science Foundation pedagogical laboratory exercise in which a non-invasive procedure for DNA isolation from human cheek cells was utilized with the polymerase chain reaction to amplify alleles encoding a single nucleotide polymorphism involved in normal human color vision. acridine DNA photosensitization metal-assisted photocleavage phenothiazine photodynamic therapy Chemistry
29	Did bowhead whales (Balaena mysticetus) from the Bering-Chukchi-Beaufort Seas undergo a genetic bottleneck? A test using nuclear microsatellite loci Hunter, Devra Denise 01 November 2005 (has links) This study reexamines the nuclear microsatellite analysis by Rooney et al. (1999a) of Bering-Chukchi-Beaufort Seas bowhead whales (Balaena mysticetus) to determine if this population underwent a genetic bottleneck as a result of 19th and early 20th Century commercial whaling. This investigation used more accurate laboratory techniques to score alleles, had a larger sample size that was divided into two groups (mainland Alaska and St. Lawrence Island (SLI)), and used a moderately different set of microsatellite loci which are more variable and thus, more informative. The results corroborate the findings of Rooney et al. (1999a) for mainland Alaska showing no evidence of a genetic bottleneck. However, the SLI data analyses provide conflicting conclusions. The Wilcoxon test is significant for a heterozygote excess (p = 0.042) suggesting that a genetic bottleneck has occurred. This is not substantiated by the exact tests of each locus or the table-wide sign test. There is a possibility that a bottleneck has occurred, but due to the small sample size this is not a definitive conclusion and warrants reanalysis with a larger sample size. bowhead whale Balaena mysticetus genetic bottleneck microsatellite loci heterozygosity excess allele frequency
30	Functional Analysis of the Ovarian Cancer Susceptibility Locus at 9p22.2 Reveals a Transcription Regulatory Network Mediated by BNC2 in Ovarian Cells Buckley, Melissa 01 January 2015 (has links) GWAS have identified several chromosomal loci associated with ovarian cancer risk. However, the mechanism underlying these associations remains elusive. We identify candidate functional Single Nucleotide Polymorphisms (SNPs) at the 9p22.2 ovarian cancer susceptibility locus, several of which map to transcriptional regulatory elements active in ovarian cells identified by FAIRE-seq (Formaldehyde assisted isolation of regulatory elements followed by sequencing) and ChIP-seq (Chromatin Immunoprecipitation followed by sequencing) in relevant cell types. Reporter and electrophoretic mobility shift assays (EMSA) determined the extent to which candidate SNPs had allele specific effects. Chromosome conformation capture (3C) reveals a physical association between Basonuclin 2 (BNC2) and SNPs with functional properties. This establishes BNC2 as a major target of four candidate functional SNPs in at least two distinct elements. BNC2 codes for a putative transcription regulator containing three pairs of zinc finger (ZF) domains. Furthermore, bnc2 mutation in zebrafish leads to developmental defects including dysmorphic ovaries and sterility, clearly implicating this protein in cellular processes associated with ovarian development. We show that BNC2 is a transcriptional regulator with a specific DNA recognition sequence of targets enriched in genes involved in cell communication through DNA binding assays, ChIP-seq, and expression analysis. This study reveals a comprehensive regulatory landscape at the 9p22.2 locus and indicates that a likely mechanism of susceptibility to ovarian cancer may include multiple allele-specific changes in DNA regulatory elements some of which alter BNC2 expression. This study begins to identify the underlying mechanisms of the 9p22.2 locus association with ovarian cancer and aims to provide data to support advances in care based on one’s genetic composition. Allele Genome Wide Association Studies Single Nucleotide Polymorphism Transcription Zinc Finger Domain Biology Genetics Molecular Biology

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