Global ETD Search

191	Genetic variation in fast-evolving East African cichlid fishes: an evolutionary perspective Loh, Yong-Hwee Eddie 23 June 2011 (has links) Cichlid fishes from the East African Rift lakes Victoria, Tanganyika and Malawi represent a preeminent example of replicated and rapid evolutionary radiation. In this single natural system, numerous morphological (eg. jaw and tooth shape, color patterns, visual sensitivity), behavioral (eg. bower-building) and physiological (eg. development, neural patterning) phenotypes have emerged, much akin to a mutagenic screen. This dissertation encompasses three studies that seek to decipher the underpinnings of such rapid evolutionary diversification, investigated via the genetic variation in East African cichlids. We generated a valuable cichlid genomic resource of five low-coverage Lake Malawi cichlid genomes, from which the general properties of the genome were characterized. Nucleotide diversity of Malawi cichlids was low at 0.26%, and a sample genotyping study found that biallelic polymorphisms segregate widely throughout the Malawi species flock, making each species a mosaic of ancestrally polymorphic genomes. A second genotyping study expanded our evolutionary analysis to cover the entire East African cichlid radiation, where we found that more than 40% of single nucleotide polymorphisms (SNPs) were ancestral polymorphisms shared across multiple lakes. Bayesian analysis of genetic structure in the data supported the hypothesis that riverine species had contributed significantly to the genomes of Malawi cichlids and that Lake Malawi cichlids are not monophyletic. Both genotyping studies also identified interesting loci involved in important sensory as well as developmental pathways that were well differentiated between species and lineages. We also investigated cichlid genetic variation in relation to the evolution of microRNA regulation, and found that divergent selection on miRNA target sites may have led to differential gene expression, which contributed to the diversification of cichlid species. Overall, the patterns of cichlid genetic variation seem to be dominated by the phenomena of extensive sharing of ancestral polymorphisms. We thus believe that standing genetic variation in the form of ancestrally inherited polymorphisms, as opposed to variations arising from new mutations, provides much of the genetic diversity on which selection acts, allowing for the rapid and repeated adaptive radiation of East African cichlids. Astatotilapia Genetic differentiation Ancestral polymorphism Evolution Evolution (Biology) Genetic polymorphisms Genetics Research Genetics
192	Single nucleotide polymorphism in human microsomal glutathione s-transferase gene and colorectal cancer / Liu, Shuk Ming. January 2003 (has links) Thesis (M. Phil.)--Hong Kong University of Science and Technology, 2003. / Includes bibliographical references (leaves 95-105). Also available in electronic version. Access restricted to campus users.
193	IL-10 polymorphisms in patients with HIV and HIV/HCV co-infection. Bull, Lara M. Hwang, Lu-Yu, Unknown Date (has links) Source: Dissertation Abstracts International, Volume: 68-11, Section: B, page: 7281. Adviser: Lu-Yu Hwang. Includes bibliographical references.
194	Pathogenetic aspects of helicobacter pylori infection in gastric cancer: a study on the role of inflammatorycytokine and gene methylation Huang, Fung-yu., 黃鳳如. January 2009 (has links) published_or_final_version / Medicine / Doctoral / Doctor of Philosophy Helicobacter pylori. Cytokines. DNA - Methylation. Genetic polymorphisms. Stomach - Cancer - Molecular aspects.
195	Genetic polymorphisms in blood and milk proteins of the cow. Hoogendoorn, Maarten Paulus. January 1968 (has links) No description available. Genetic polymorphisms Proteins Cattle -- Breeding Biology, Genetics. Biology, Animal Physiology. Chemistry, Biochemistry.
196	Genetic variation at the NPT2 locus : implications for hereditary hypophosphatemic rickets with hypercalciuria and osteoporosis Jones, Andrew Owain. January 2000 (has links) Recognising that NPT2 is the major Na/Pi cotransporter in the kidney, that hereditary hypophosphatemic rickets with hypercalciuria (HHRH) is caused by a renal Pi leak and, that Npt2 knockout mice demonstrate a biochemical phenotype similar to that of patients with HHRH, we sought to determine whether NPT2 was a candidate gene for this disorder. Using single-strand conformation polymorphsim (SSCP) analysis and sequencing in six unrelated pedigrees with the disease, we found no disease-causing mutations. Two polymorphisms were identified in the gene and used as markers to examine segregation of NPT2 with the disease. HHRH did not segregate with the gene markers. In addition, the impact of NPT2 on bone mineral density (BMD) was examined by genotyping a population of 104 individuals for which BMD data was available, and determining whether there was an association between NPT2 genotype and bone density. No significant association was found between NPT2 genotype and BMD. Genetic polymorphisms. Sodium cotransport systems. Hypophosphatemia, Familial. Rickets -- Genetic aspects. Hypercalciurea -- Genetic aspects. Osteoporosis -- Genetic aspects.
197	Correlation of frequencies of apolipoprotein E mutations with heritage in midwest individuals Dang, Minhtam 15 December 2012 (has links) Apolipoprotein E (ApoE) is a plasma protein that plays a prominent role in lipid metabolism and cholesterol transport. The gene is polymorphic: three alleles, ε2, ε3, and ε4 code for three different protein isoforms, E2, E3, and E4 respectively, each of which has different genetic implications. Carriers of ε2 and ε4 alleles have shown greater susceptibility to diseases such as lipid metabolism problems, cardiovascular disease, and Alzheimer’s disease. Although ε4 is the ancestral form of the gene, the most common allele in the human population currently is the ε3 allele. The three isoforms of ApoE generally occur in all populations at different frequencies. However, the frequencies of the various alleles have not been examined in the Midwest. The purpose of this project was to determine if a correlation existed between frequencies of ApoE mutation and heritage in Midwest individuals by using real-time PCR. It was hypothesized that this method could be an alternative and cost effective method to sequence an individual’s genome for personalized healthcare purposes. In 2000, Dr. Vann and her research assistants collected saliva samples from approximately 300 anonymous volunteers participating in the UniverCity fair hosted by Ball State University. The samples were catalogued in an Excel database with their corresponding information (gender, self- reported lineage). From this database, 50 samples were randomly selected for this study and the DNA was screened by real-time PCR for isoforms of ApoE. A handful of individuals with altered alleles were identified. The specific number of each isoform and the genotype of each individual were determined. Only one of the 50 individuals resulted in a non-wild type haplotype. A confirmatory melt curve analysis of this major heritage group A individual resulted in a homozygous E4 genotype. Unfortunately, a correlation between frequencies of ApoE mutation and heritage in Midwest individuals could not be inferred based on one differing individual. Thus, we did not have sufficient non-wild type haplotypes to permit us to amplify the variable regions of maternally inherited mitochondrial DNA for sequencing. Those sequences could have been aligned with the Cambridge Reference Sequence (Mitomap 2006) to determine maternal lineage or haplotype, which could then be correlated with self-reported lineage, and the presence of specific isoforms of ApoE. / Department of Biology Apolipoprotein E gene Genetic polymorphisms -- Middle West Mutation (Biology) Polymerase chain reaction
198	Restriction fragment length polymorphism analysis of host-plant resistance to four maize pathogens Ming, Reiguang January 1995 (has links) Thesis (Ph. D.)--University of Hawaii at Manoa, 1995. / Includes bibliographical references (leaves 136-152). / Microfiche. / xiv, 152 leaves, bound ill. 29 cm Genetic polymorphisms Corn -- Genetics Plant genome mapping
199	Characterization and identification of transcription factors that bind to the tumor necrosis factor -308 polymorphism Woo, Andrew Jonghan January 2003 (has links) [Formulae and special characters can only be approximated. Please see the pdf version of this abstract for an accurate reproduction.] Tumor necrosis factor (TNF) is a pleiotropic cytokine that mediates a long list of immunological and pathophysiological processes. TNF is produced by a wide variety of cells including immune and non-immune cells, however in most cell types TNF is not expressed prior to stimulation. The function of TNF is mediated via its trimeric domain by binding to TNF receptors that are found on most types of cells, especially of the haematopoietic systems, hence transpiring its effects on a wide variety of cells and organ systems. The cytotoxic (apoptosis) and pro-inflammatory (differentiation, proliferation and activation) functions of TNF are protective but can also result in pathological or deleterious consequences. A biallelic G to A transition polymorphism in the promoter region of TNF at nucleotide position 308 from the transcription start site is suggested to be involved in differential transcriptional regulation of TNF expression. The high TNF producing 308A allele is associated with susceptibility to or worse outcome of many infectious diseases in addition to autoimmune and other pathophysiological conditions. A previous study in our laboratory observed a selective affinity towards the polymorphic 308A allele by an EMSA protein(s) complex, named E. Several other protein complexes were found along with complex E and one of them was identified as Sp1. The identification of complex E was unsuccessful but it was hypothesized to play a major role as transcriptional activator in 308A allele individuals hence transpiring its effect in various pathophysiological states. In this study, the EMSA complexes observed in the TNF promoter region between nucleotides 322 to 283, encompassing the 308 polymorphism, is characterized. EMSA using mutated oligonucleotides mapped the binding sites of complexes B, C, D and E. TRANSFAC database search in addition to previous work revealed the identity of complex C as Sp1 but the rest of complexes remained unknown. Moreover, in contrast to our previous study, the protein(s) in the complex E was found to preferentially bind 308G nucleotide hence posing as a transcriptional repressor, resulting in decreased production state of TNF in 308G allele individuals than 308A allele individuals. In order to characterize putative transcription factors binding to the promoter region, first the biochemical characteristics such as the effects of temperature, salts and cations on DNA binding ability of EMSA complexes were studied. EMSA complexes B, C, DI and E required cations, probably Zn+2, to bind DNA. By optimizing a technique that couples EMSA with SDS-PAGE, the molecular weight of C, DI and E was determined. A novel technique that couples EMSA with IEF determined the pI of complexes B, C, D, DI and E. Although a commonly used technique of identifying unknown DNA-binding protein of interest, Yeast One-Hybrid assay, did not identify complex E, the novel identification method involving chromatography, two-dimensional electrophoresis, EMSA, mass spectrometry and database interrogation successfully identified TNF EMSA complex E as transcription factor Ying Yang 1 (YY1). Supershift EMSA confirmed complex E as YY1. In addition, the supershift assay showed presence of Sp1 and Sp3 in complex C. Similarly, complex DI is identified as Sp3. The novel method in identifying DNA-binding proteins is particularly useful as this technique allows identification of protein seen in EMSA without the need of extensive identification process. YY1 binds to a 6 base pair sequence, 5? TTGAGG 3?, from nt 295 to 290 of TNF promoter. The loss of affinity in 308A allele is caused by transition of underlined G nucleotide to A. The determined and described molecular weight of YY1 in literature is 60 kDa while the theoretical weight is 45 kDa. Both the determined and theoretical pI of YY1 is 5.8. YY1 is a multifunctional transcription factor implicated in both positive and negative regulation of gene expression as well as in initiation of transcription. It is ubiquitously expressed in growing, differentiated, and growth-arrested cells. Although future experiment is yet to establish in vivo presence of YY1 in TNF promoter, our study so far provides convincing evidence that the putative transcription factor that has selective affinity towards 308G allele is indeed YY1. Tumor necrosis factor Genetic transcription -- Regulation Transcription factors Genetic polymorphisms Proteomics Promoters (Genetics) Gene expression
200	Duplication and polymorphism with particular reference to regulators of complement activation McLure, Craig Anthony January 2005 (has links) [Truncated abstract] For the convenience of the reader, detailed figures and tables have been enlarged and compiled in Appendix 2, at the end of this thesis. This thesis is presented as an approach to identify, annotate and detect genomic duplication and polymorphism within large genomic regions. To demonstrate this, I have used as a model, the genomic region known as the Regulators of Complement Activation (RCA). The RCA complex is located on the long arm of chromosome 1 at position 1q32 and is a reservoir of complement regulatory proteins. The genes of the RCA share many similarities implying that all have arisen through multiple complex duplication events. My analysis of this region in the following chapters demonstrates the complexity of this duplication and identifies the many functional units within the RCA. It was my aim at the beginning of these studies to demonstrate an approach that could define the Ancestral Haplotypes (AHs) of the RCA gene cluster. To do this, extensive genomic analysis was required and the ever-increasing availability of genomic sequence has made this thesis possible. Each of the chapters serves to address the following aims set out at the beginning of this thesis: 1. Further characterise the relationship between the genes (Complement Control proteins-CCPs) and domains of the Regulators of Complement Activation (RCA). 2. Identify and examine the duplicated elements within the RCA. - 6 - 3. Examine the effects of retroviruses and other insertions and deletions (indels) in generating the divergence of duplicated genes. 4. Investigate the applicability of the Genomic Matching Technique (GMT) to define AH within the region. 5. Examine association of AHs with CCP implicated diseases. 6. Determine the GMT applicability in non-human species Genomics Genetic polymorphisms Complement activation Duplication Evolution Complement control proteins Polymorphism Polymorphic frozen blocks

Search results