Impact of KU80 in genomic stability, cancer and aging: a dissertation /

Li, Han.

January 2007

Dissertation (Ph.D.).--University of Texas Graduate School of Biomedical Sciences at San Antonio, 2007. / Vita. Includes bibliographical references.

The identification, establishment, and maintenance of genomic imprints

Kiefer, Christine Mione.

January 2005

Thesis (Ph.D.)--University of Florida, 2005. / Typescript. Title from title page of source document. Document formatted into pages; contains 137 pages. Includes Vita. Includes bibliographical references.

The genomic epidemiology of Campylobacter from the Republic of South Africa

van Rensburg, Melissa Jansen

January 2015

As the leading cause of bacterial gastroenteritis, Campylobacter represents a significant public health burden; however, our knowledge of its epidemiology in low- and middle-income countries remains limited. Recent studies have demonstrated the power of whole-genome sequencing (WGS) for public health microbiology. The primary aim of this thesis was to exploit WGS to improve our understanding of the epidemiology of Campylobacter from the Republic of South Africa, a middle-income country. In the first half of this thesis, in silico approaches were developed to evaluate diagnostic assays and methods of species identification. Large-scale analyses of publicly available WGS data identified a robust real-time PCR assay for the detection of Campylobacter jejuni and Campylobacter coli, the primary causes of human campylobacteriosis. Evaluation of in silico speciation methods demonstrated that the atpA gene and ribosomal multilocus sequence typing can be used to identify Campylobacter from WGS data. The second half of this thesis extended concepts developed in the first half to investigate the epidemiology of Campylobacter from animals and humans from South Africa. Isolates from a study of Campylobacter from free-range broiler carcasses belonged to the agriculture-associated ST-828 lineage, but were atypically homogenous and differed at only 46/1,513 (3%) loci, providing novel insights into clonal infections in chickens. Analyses of human disease isolates collected in Cape Town in 1991, 2011, and 2012 confirmed that the local epidemiology of Campylobacter is distinct from that of high-income countries: in addition to major agriculture-associated C. jejuni and C. coli lineages, a putative novel C. jejuni subsp. jejuni/C. jejuni subsp. doylei hybrid clade and genetically diverse C. jejuni subsp. doylei and C. upsaliensis isolates were identified. This work delivers further evidence of the utility of WGS for clinical microbiology, presents approaches that address general problems in Campylobacter diagnostics and public health microbiology, and provides insights into the epidemiology of this important group of pathogens in South Africa.

The identification of biologically important secondary structures in disease-causing RNA viruses.

Tanov, Emil Pavlov

January 2012

Magister Scientiae - MSc / Viral genomes consist of either deoxyribonucleic acid (DNA) or ribonucleic acid (RNA). The viral RNA molecules are responsible for two functions, firstly, their sequences contain the genetic code, which encodes the viral proteins, and secondly, they may form structural elements important in the regulation of the viral life-cycle. Using a host of computational and bioinformatics techniques we investigated how predicted secondary structure may influence the evolutionary dynamics of a group of single-stranded RNA viruses from the Picornaviridae family. We detected significant and marginally significant correlations between regions predicted to be structured and synonymous substitution constraints in these regions, suggesting that selection may be acting on those sites to maintain the integrity of certain structures. Additionally, coevolution analysis showed that nucleotides predicted to be base paired, tended to co-evolve with one another in a complimentary fashion in four out of the eleven species examined. Our analyses were then focused on individual structural elements within the genome-wide predicted structures. We ranked the predicted secondary structural elements according to their degree of evolutionary conservation, their associated synonymous substitution rates and the degree to which nucleotides predicted to be base paired coevolved with one another. Top ranking structures coincided with well characterized secondary structures that have been previously described in the literature. We also assessed the impact that genomic secondary structures had on the recombinational dynamics of picornavirus genomes, observing a strong tendency for recombination breakpoints to occur in non-coding regions. However, convincing evidence for the association between the distribution of predicted RNA structural elements and breakpoint clustering was not detected.

Bioinformatics techniques

Viral genomes

Genomic secondary structure

RNA viruses

Genomic and conventional evaluations for fertility traits in pigs

Fangmann, Anna Maria

06 November 2018

No description available.

630

genomic selection

pig

fertility

Land- und Forstwirtschaft (PPN621302791)

Mapping the Shh regulatory landscape

Anderson, Eve

January 2015

Sonic hedgehog (Shh) is an important signalling protein expressed extensively in development, throughout tissues of the central nervous system, gut and the posterior of the limb bud. The complicated expression pattern of Shh is regulated by a series of long-range enhancers located flanking and dispersed throughout a 1 Mb genomic desert. Disruption of SHH as a result of mutations within the gene or its enhancers has been implicated in two developmental conditions. These are Holoproencephaly (HPE3) a common developmental defect of the forebrain and frequently the mid-face in humans, and preaxial polydactyly (PPD), a congenital limb abnormality encompassing a varied phenotype affecting the digits on the anterior side of the hands and feet that has been attributed to misexpression of Shh. In order to investigate the Shh regulatory landscape and survey regulatory activity, a transposon-based chromosomal engineering strategy known as the local hopping enhancer detection (LHED) system was employed. Using this method a targeting vector containing a LacZ reporter gene as well as LoxP sites was inserted within the Shh region. The ‘hopping’ nature of the transposable element was then exploited to scatter it throughout the region. Tetraploid complementation embryos derived entirely from ES cells were generated and examined in order to gain an insight into enhancer activity. The region was found to be in an open conformation over its length and is generally susceptible to all Shh enhancers. Genes within the regulatory domain, such as the widely expressed Rnf32 gene, were found to resist Shh enhancer activities by a process of regulatory evasion by the promoter, a mechanism that may be common in large regulatory domains. Finally, at the boundaries of the region Shh activity was found to be lost incrementally at a number of genomic positions. Mouse lines were also generated to look at both enhancer activity and loss of function effects and three deletions of increasing size were generated between Shh and the furthest enhancer, the Zrs. These in turn, delete firstly a gut and pharyngeal epithelial enhancer, secondly the gut, pharyngeal enhancers as well an oral epithelial enhancer and finally all three epithelial enhancers as well as three forebrain enhancers. Reporter gene expression was found to be lost incrementally from those enhancers deleted without disrupting the rest of the region. Previously unidentified notochord enhancer(s) were found to lie within the region 100-530 kb upstream of Shh. Examination of the resultant phenotypes showed that gut and craniofacial defects were found to occur as a result of the loss of enhancers which drive expression within these tissues. Variable phenotypes were found to occur potentially as a result of temporal changes to Shh expression or as a result of threshold levels of HH being required for normal development. Other enhancers within the Shh region and outwith the deletions were not found to be disrupted by these modifications suggesting the enhancers within the region act independently of each other. The largest deletion resulted in bringing the Zrs (which drives Shh limb expression) within 170 kb of the gene, however limb development; was not, found to be affected suggesting distance is not required for Zrs function. Overall, the LHED transposon system has been utilised in order to examine the Shh region in more detail, allowing mapping of enhancer function by reporter gene expression and examination of phenotypes generated by deletion of enhancers.

572

Populačně-genomická analýza generalistického parazita - tasemnice \kur{Ligula intestinalis}

KOČOVÁ, Pavlína

January 2018

New insight to the population structure of the tapeworm Ligula intestinalis were obtained using genomic data by represented genomoc methods (ddRAD and high-throughput sequencing)

The Origins and Maintenance of Genomic Variation in the Threespine Stickleback (Gasterosteus aculeatus)

Nelson, Thomas

06 September 2017

Genetic variation is the raw material of evolution. The sources of this variation within a population, and its maintenance within a species, have been mysterious since the birth of the field of evolutionary genetics. In this work, I study divergently adapted freshwater and marine populations of the threespine stickleback (Gasterosteus aculeatus) as an evolutionary model to track the origin of adaptive genetic variation and to describe the evolutionary processes maintaining variation across the genome. The stickleback is a small fish with a large geographic range encompassing the northern half of the Northern Hemisphere and composed of coastal marine habitats, freshwater lakes, and river systems. Populations of stickleback adapt rapidly to changes in habitat, and fossil evidence suggests that similar adaptive transitions have been ongoing in this lineage for at least ten million years. In this work, I develop a significant extension of restriction site-associated DNA sequencing (RAD-seq) to generate phased haplotype information to estimate gene tree topologies and divergence times at thousands of loci simultaneously. I find anciently derived clades of variation associated with marine and freshwater habitats in genomic regions involved in recent adaptive divergence; some divergence times extend to over ten million years ago. This history of adaptive divergence has had profound effects on genetic variation elsewhere in the genome: chromosomes harboring freshwater-adaptive variants retain anciently derived variation in linked genomic regions, while marine chromosomes have much more recent ancestry. I present a conceptual model of asymmetric selective and demographic processes to explain this result, which will form a nucleus for future research in this species. Lastly, by incorporating genome-wide recombination rates estimated from multiple genetic maps, I describe a recombination landscape that is favorable to the maintenance of marine-freshwater genomic divergence. Low recombination rates in key chromosomal regions condense widespread divergence of the physical genome, encompassing many megabases, into a small number of Mendelian loci. Combined, my results demonstrate the interconnectedness of evolutionary processes taking place on ecological and geological timescales. The genetic variation available for adaptive evolution today is a product of the long-term evolutionary history of a species.

Adaptation

Genomic architecture

Genomics

Molecular evolution

Recombination

Speciation

Estudo genômico do nível de infecção por Babesia bovis em bovinos da raça angus / Genomic study of the level of infection by Babesia bovis in angus cattle

Santana, Clarissa Helena [UNESP]

26 February 2016

Submitted by CLARISSA HELENA SANTANA null (santana.chs@gmail.com) on 2016-03-21T18:17:24Z No. of bitstreams: 1 Dissertação_Clarissa_Helena_Santana.pdf: 1159982 bytes, checksum: 1160868d6c0bff2c67119202847275c7 (MD5) / Approved for entry into archive by Ana Paula Grisoto (grisotoana@reitoria.unesp.br) on 2016-03-22T17:26:26Z (GMT) No. of bitstreams: 1 santana_ch_me_jabo.pdf: 1159982 bytes, checksum: 1160868d6c0bff2c67119202847275c7 (MD5) / Made available in DSpace on 2016-03-22T17:26:26Z (GMT). No. of bitstreams: 1 santana_ch_me_jabo.pdf: 1159982 bytes, checksum: 1160868d6c0bff2c67119202847275c7 (MD5) Previous issue date: 2016-02-26 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES) / A bovinocultura é um setor com importante destaque no agronegócio brasileiro. O carrapato Ripicephalus (Boophilus) microplus é responsável por perdas econômicas significativas aos pecuaristas e é vetor de hemoparasitoses como Anaplasma spp e Babesia spp. Sabe-se que os bovinos Bos taurus taurus são mais susceptíveis à infestação por carrapatos do que Bos taurus indicus. Acredita-se que o mesmo ocorra para a infecção por Babesia bovis. Neste trabalho, foram avaliados, em duas colheitas, 355 bovinos da raça Angus, pertencentes a uma fazenda de Uruguaiana-RS, nos quais foram realizadas contagens de carrapatos e colheitas de amostras de sangue para quantificação de B. bovis, pela técnica de qPCR, e genotipagem com chip de 150.000 marcadores SNP. Para qPCR utilizaram-se sequências iniciadoras que flanqueiam um fragmento do gene do citocromo B (mt-cytB), como oligonucleotídeos iniciadores. Após genotipagem dos bovinos com o chip Gene Seek Genomic Profiler™ (GGP-HD) da Illumina Infinium®, foi realizado imputação de genótipos, para recuperação de genótipos faltantes, e controle de qualidade. Foi realizada análise de associação genômica ampla (GWAS), para cada uma das características, infecção por B. bovis e resistência a carrapatos, através do método denominado “Single Step Genomic BLUP” (ssGBLUP). Todos os animais apresentaram infestação por carrapatos e infecção por B. bovis, determinada pela qPCR, e altos valores médios para ambas as características. Algumas regiões cromossômicas foram identificadas como significativas para as características estudadas, sendo que, sete dos cromossomos identificados no presente estudo já haviam sido descritos em outros trabalhos. Neste sentido, o presente estudo corrobora com outros resultados indicando que a técnica de qPCR é um método sensível de detecção de B. bovis em animais Angus e que as regiões genômicas identificadas como significativas podem ser importantes para a variação das características estudadas. / The cattle industry is a sector with importance in the Brazilian agribusiness. The Ripicephalus (Boophilus) microplus is responsible for economic losses and is a vector for hemoparasitoses, such as Anaplasma spp and Babesia spp. It is known that the Bos tauros animals are more susceptible to infestation by ticks when compared with infestation in Bos indicus animals. It is believed that the same behavior keeps for infection by Babesia bovis. They were evaluated, in two collections, 355 Angus cattle, from a farm in Uruguaiana city, estate of Rio Grande do Sul, where were performed tick counts, quantification of B. bovis by qPCR and genotyping with a 150K chip. Were used as primers, in the qPCR, sequences that flanking the fragment of the cytochrome b gene. The technique was standardized and optimized using specimens of isolates of B. bovis. After genotyping, imputation was carried out, for recovery of missing genotypes, and quality control. Genome association analysis was performed (GWAS), to each of the characteristics, through the method called "Single Step Genomic BLUP" (ssGBLUP). All animals showed tick infestation and infection by B. bovis and high average values for both characteristics. Some regions on chromosomes were identified as significant to the characteristics tick infestation and infection by B. bovis, and seven chromosomes, identified in the present study, were already described in other studies. The present study agrees with other results indicating that the qPCR technique is a sensitive method to detecting B. bovis in Angus and genomic regions identified may be significant for the variation of these characteristics.

Angus

Babesia bovis

Rhipicephalus (Boophilus) microplus

Seleção genômica

Genomic selection

Genomic selection and association mapping for wheat processing and end-use quality

Battenfield, Sarah

January 1900

Doctor of Philosophy / Genetics Interdepartmental Program / Allan K. Fritz / Globally, wheat (Triticum aestivum L.) is the second most widely grown cereal grain and is primarily used as a food crop. To meet the demands for human consumption, cultivars must possess suitable end-use quality for release and acceptability. However, breeding for quality traits is often considered a secondary goal, largely due to amount of seed needed and overall expense of such testing. Without testing and selection, many undesirable materials tend to be advanced. Here we demonstrate two methods, mega-genome-wide association mapping and genomic selection, to enhance selection accuracy for quality traits in the CIMMYT bread wheat breeding program. The methods were developed using high-density SNPs detected from genotyping-by-sequencing and processing and end-use quality evaluations from unbalanced yield trial entries (n = 4,095) during 2009 to 2014, at Ciudad Obregon, Sonora, Mexico. Genome-wide association mapping, with covariates for population structure and kinship, was applied for each trait to each site-year individually and results were combined across years in a mega-analysis using an inverse variance, fixed effect model in JMP-Genomics. This method presents a new way to detect genes of interest within a breeding program and develop markers for selection of these traits, which can then be used in earlier generations. Genomic selection prediction models were developed using ridge regression, Gaussian kernel, partial least squares, elastic net, and random forest models in R. With these predictions genomic selection (GS) can be applied at earlier stages and undesirable materials culled before implementing expensive yield and quality screenings. In general, prediction accuracy increased over time as more data was available to train the model. Based on these prediction accuracies, we conclude that genomic selection can be a useful tool to facilitate earlier generation selection for end-use quality in CIMMYT bread wheat breeding. Genomic selection was conducted for processing and end-use quality traits in the Kansas hard red winter wheat breeding unit. Genomic predictions demonstrate increases in accuracy with added data over time. These data demonstrate that current genomic selection models will need more data to continue improvement in prediction accuracy.

Wheat

Genomic selection

Prediction

Genetics

Wheat quality

Bread making