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Molecular genetic analysis of nucleotide excision repair genes in Dictyostelium discoideumLee, Sungkeun, January 1997 (has links)
Thesis (Ph. D.)--University of Missouri-Columbia, 1997. / Typescript. Vita. Includes bibliographical references (leaves 124-125). Also available on the Internet.
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The contribution of different mechanisms of viral sequence variation to the evolution of positive-sense single-stranded RNA virusesPickett, Brett E. January 2010 (has links) (PDF)
Thesis (Ph.D.)--University of Alabama at Birmingham, 2010. / Title from PDF title page (viewed on July 7, 2010). Includes bibliographical references.
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Novel genetic and molecular properties of meiotic recombination protein PRDM9Altemose, Nicolas Frank January 2015 (has links)
Meiotic recombination is a fundamental biological process in sexually reproducing organisms, enabling offspring to inherit novel combinations of mutations, and ensuring even segregation of chromosomes into gametes. Recombination is initiated by programmed Double Strand Breaks (DSBs), the genomic locations of which are determined in most mammals by PRDM9, a rapidly evolving DNA-binding protein. In crosses between different mouse subspecies, certain Prdm9 alleles cause infertility in hybrid males, implying a critical role in fertility and speciation. Upon binding to DNA, PRDM9 deposits a histone modification (H3K4me3) typically found in the promoters of expressed genes, suggesting that binding might alter the expression of nearby genes. Many other questions have remained about how PRDM9 initiates recombination, how it causes speciation, and why it evolves so rapidly. This body of work investigates these questions using complementary experimental and analytical methodologies. By generating a map of human PRDM9 binding sites and applying novel sequence analysis methods, I uncovered new DNA-binding modalities of PRDM9 and identified sequence-independent factors that predict binding and recombination outcomes. I also confirmed that PRDM9 can affect gene expression by binding to promoters, identifying candidate regulatory targets in meiosis. Furthermore, I showed that PRDM9âÃôs DNA-binding domain also mediates strong protein-protein interactions that produce PRDM9 multimers, which may play an important functional role. Finally, by generating high-resolution maps of PRDM9 binding in hybrid mice, I provide evidence for a mechanism to explain PRDM9-mediated speciation as a consequence of the joint evolution of PRDM9 and its binding targets. This work reveals that PRDM9 binding on one chromosome strongly impacts DSB formation and/or repair on the homologue, suggesting a novel role for PRDM9 in promoting efficient homology search and DSB repair, both critical for meiotic progression and fertility. One consequence is that PRDM9 may play a wider role in mammalian speciation.
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Generation of mammalian cell culture systems for the rapid and efficient production of recombinant proteinsKnowles, Christopher January 2016 (has links)
The overarching objective of this thesis was the development of an improved expression cell line for recombinant proteins, in which a transgene of interest can be inserted into a highly active gene locus using recombinase mediated cassette exchange. Random integration of transgenic DNA is a common route to achieve transgene expression. However, randomly integrated transgenes are susceptible to gene silencing over time, and do not show stable expression for extended periods in culture. Furthermore, every new cell clone generated requires regulatory approval. The improvement of expression strategies may significantly reduce the time required to bring novel recombinant protein products to the market. In order to identify a suitable expression locus for the integration of transgene expression cassettes, total protein samples were derived from the production cell lines HEK293 and CHO. Highly expressed proteins were isolated via 2D PAGE, and identified via peptide mass fingerprinting. Their promoter regions were then validated to express a recombinant transgene in HEK293 cells. The long term stability of these promoter regions was also assessed. Direct gene targeting of the highly active gene loci may or may not be possible in typical producer cell lines. Targeting of a murine homologue to these highly expressed CHO/HEK293 loci may be more efficient in a murine stem cell line. The transfer of a modified allele from HM1 murine embryonic stem cells, into a somatic cell line (HC11) was demonstrated in this thesis. These validated methods were then explored for the generation of viable HM1-HEK293 and HM1-CHO fusion hybrids. For these experiments, a fluorescence based fusion assay was generated, validated and used for in-situ monitoring of the cell fusion process. The random integration of transgenic DNA into mammalian genomes typically results in a highly unpredictable integration architecture. RMCE at such loci would be inefficient. However, a highly efficient RMCE reaction at (rare) single copy transgene integrations, may be possible under the correct conditions. RMCE at randomly integrated loci could therefore be more beneficial (for transgene expression) than random integration alone. This thesis explores this concept with the use of a randomly integrated RMCE platform, and subsequent selection of cell lines post RMCE attempts at these loci CRISPR/Cas9 technology was also applied to a highly expressed locus in HEK293 cells. A framework for successful direction of double strand breaks to a defined locus is demonstrated in this work. The methods used to achieve this can therefore be built upon for the homologous recombination of a transgenic cassette, into a highly expressed locus in HEK293 cells. Monoclonal antibodies have dominated the biologics market for over two decades, and mammalian expression systems are well suited to their production. The work in this thesis attempts to raise and verify antibody molecules against a potential tumour marker using hybridoma and phage display technologies.
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Genotipagem de Giardia duodenalis: detecção de infecções mistas e recombinações gênicas em amostras de origem humana / Genotyping of Giardia duodenalis: detection of mixed infection and genetic recombination in samples of human originJuliana Martins Aguiar 07 July 2015 (has links)
Giardia duodenalis é um protozoário de distribuição mundial responsável por causar infecções entéricas em uma grande variedade de mamíferos, incluindo os humanos. Mesmo apresentando pouca variação em sua morfologia, os isolados podem ser diferenciados, de acordo com análises de proteína e polimorfismo de DNA, em pelo menos oito agrupamentos genéticos distintos, denominados assemblages (A-H). Apenas os assemblages A e B têm sido reportados em humanos e outros mamíferos. Isolados de assemblage A podem, ainda, ser divididos em quatro sub-assemblages (AI, AII, AIII e AIV). Sequencias heterogêneas têm sido frequentemente identificadas em estudos de caracterização molecular envolvendo amostras contendo múltiplos cistos do parasita. Buscando estudar a ocorrência dos eventos de heterozigose de sequencia alélica (ASH) e recombinação gênica, o presente trabalho teve como objetivo isolar cistos de G. duodenalis empregando-se a técnica de micromanipulação e caracterizá-los molecularmente através da análise multilócus envolvendo os genes gdh, tpi, orfC4 e bg. Dez cistos foram individualizados e utilizados na pesquisa. Todos foram igualmente identificados por todos os genes, nove cistos caracterizados como assemblage AII e um cisto caracterizado como assemblage B. Os cromatogramas oriundos do cisto identificado como assemblages B apresentaram diversos sítios heterogêneos nos genes gdh, bg e orfC4, sendo que, nesses dois últimos, observaram-se sobreposições dos alelos AII e B no produto sequenciado (heterozigose inter assemblage). Os produtos de PCR foram clonados e as sequencias obtidas revelaram a ocorrência dos dois alelos neste único cisto. Os sítios polimórficos encontrados nas sequencias do gene gdh indicaram heterozigose intra assemblage B. Embora ASH já tenha sido relatada em cistos individualizados de G. duodenalis, estes são os primeiros resultados indicando a presença dos dois alelos, simultaneamente, em um único indivíduo. Esses resultados demonstram fortes evidências que ocorre troca genética entre indivíduos geneticamente distintos de G. duodenalis / Giardia duodenalis is a worldwide distribution enteric protozoan responsible for causing infections in a wide variety of mammals, including humans. Even showing little change in their morphology, isolates can be distinguished, according to the analysis of proteins and DNA polymorphisms in at least eight distinct genetic groups, known assemblages (A - H). Only assemblages A and B have been reported in humans and other mammals. Isolates of assemblage A also can be divided into four sub-assemblages (AI, AII, AIII and AIV). Heterogeneous sequences have been frequently identified in studies involving molecular characterization of samples containing multiple cysts of the parasite. Seeking to study the occurrence of allelic sequence heterozygosity (ASH) and genetic recombination events, the present study aimed to isolate G. duodenalis cysts employing the micromanipulation technique and characterize them molecularly through multilocus analysis involving gdh, tpi, orfC4 and bg genes. Ten cysts were individualized and used in the research. All cysts were equally identified for all genes; nine cysts were characterized as assemblage AII and one characterized as assemblage B. The chromatograms derived from the cyst identified as assemblage B presented many heterogeneous sites in gdh, bg and orfC4 genes, and in these last two, there were overlaps of alleles AII and B in the sequenced product (heterozygous inter assemblage). PCR products were cloned and the sequences obtained revealed the occurrence of two alleles at this single cyst. The polymorphic sites found in the sequences of the gdh gene indicated intra heterozygosity assemblage B. Although ASH has already been reported in G. duodenalis individualized cysts, these are the first results indicating the presence of two alleles simultaneously in a single individual. These results demonstrate strong evidence that genetic exchange occurs between individuals genetically distinct of G. duodenalis
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Genetic Analysis And Biochemical Activities Of β Protein : A Component Of Bacteriophage λ General Genetic RecombinationErraguntla, Mythili 07 1900 (has links) (PDF)
No description available.
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Expression, Purification And Functional Characterization Of RecA Protein Of Mycobacterium Tuberculosis : Implications For Allele Exchange In MycobacteriaVaze, Moreshwar Bhanudas 07 1900 (has links) (PDF)
No description available.
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FLP-mediated conditional loss of an essential gene to facilitate complementation assaysGanesan, Savita 12 1900 (has links)
Commonly, when it is desirable to replace an essential gene with an allelic series of mutated genes, or genes with altered expression patterns, the complementing constructs are introduced into heterozygous plants, followed by the selection of homozygous null segregants. To overcome this laborious and time-consuming step, the newly developed two-component system utilizes a site-specific recombinase to excise a wild-type copy of the gene of interest from transformed tissues. In the first component (the first vector), a wild-type version of the gene is placed between target sequences recognized by FLP recombinase from the yeast 2 μm plasmid. This construct is transformed into a plant heterozygous for a null mutation at the endogenous locus, and progeny plants carrying the excisable complementing gene and segregating homozygous knockout at the endogenous locus are selected. The second component (the second vector) carries the experimental gene along with the FLP gene. When this construct is introduced, FLP recombinase excises the complementing gene, leaving the experimental gene as the only functional copy. The FLP gene is driven by an egg apparatus specific enhancer (EASE) to ensure excision of the complementing cDNA in the egg cell and zygote following floral-dip transformation. The utility of this system is being tested using various experimental derivatives of the essential sucrose-proton symporter, AtSUC2, which is required for photoassimilate transport.
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Recombinação ectópica e redistribuição do conteúdo de genes variantes em amostras de campo de Plasmodium falciparum. / Ectopic recombination of chromosomes and gene variants redistribution of field isolates of Plasmodium falciparum.Catarina Maria dos Santos Castineiras 22 February 2011 (has links)
Entre cepas diferentes de P. falciparum existe uma grande variação entre as sequências das famílias de genes variantes. Um motivo para esta grande variedade é o fato que a maioria dos genes variantes se encontra em regiões subteloméricas e que o parasita é capaz de recombinar telômeros heterólogos durante a meiose (recombinação ectópica), levando a uma nova distribuição e a criação de novos genes variantes. Além desse fenômeno que ocorre durante a fase sexual do parasita, foi considerado que recombinações também podem ocorrer durante a fase mitótica na fase assexuada sanguínea. Neste estudo, procuramos monitorar a importância desta recombinação ectópica na geração de novos genes var em amostras de campo da Amazônia brasileira. Em experimentos paralelos elucidamos se existe recombinação ectópica também durante divisões puramente mitóticas. Observamos que muitos genes var que são compartilhados entre isolados mudam raramente ou não mudam de posição cromossômica. Observamos que no caso de mudança de posição cromossômica muitas vezes ocorreu duplicação do lócus. Muitos dos genes var compartilhados se encontraram em cromossomos 5-6 e 9-7. Por monitoramento de clones de 3D7 após 180 gerações não observamos nenhuma translocação de genes var subtelomérico ou telomérico indicando que a recombinação ectópica em mitoses é de fato um evento raro. / Different strains of the causative agent of malaria, Plasmodium falciparum, possess greatly varying repertoires of variant antigen encoding gene families. One reason for this variety lies in the fact that most of the variant gene families are found in subtelomeric regions. The parasite is able to recombine heterologous telomers during meiosis through a process coined ectopic recombination, potentially leading to a new distribution and creation of variant genes. Due to morphological similarities of chromosome end clustering in sexual as well as in asexual forms, it was hypothesized that ectopic recombination may also occur in mitotic asexual blood stage parasites. Herein we monitor the occurrence of ectopic recombination in field samples from the Brazilian Amazon. In parallel, we elucidated whether ectopic recombination also takes place in purely mitotic divisions. We observed that many var genes which are shared among isolates rarely change their chromosomal position. When a change occurred, we often observed chromosomal locus duplication and many of the shared genes were found on chromosomes 5-9 or 5-10. After outgrowth of the 3D7 strain for 200 generations with intermittent cloning we did not observe any translocation of telomeric or subtelomeric var genes, indicating that ectopic recombination in mitosis is a rare event.
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Diversidade genética em populações de Plasmodium vivax: análise de marcadores genéticos neutros e de genes potencialmente associados à resistência a drogas. / Genetic diversity of Plasmodium vivax populations: analysis of neutral genetic markers and genes potentially associated with drug resistance.Pamela Orjuela Sanchez 30 July 2010 (has links)
Através da análise de microssatélites e SNPs, incluindo tanto marcadores neutros como sujeitos a seleção, neste trabalho se demonstrou que: 1) As populações brasileiras de P. vivax (Pv) são mais diversas que as populações simpátricas de P. falciparum (Pf), porém ambas apresentam desequilíbrio de ligação. 2) Os polimorfismos neutros apresentam alta variabilidade ao longo do tempo em ambas as espécies, em contraste com a estabilidade observada nos marcadores sob seleção. 3) As altas taxas de recorrências por Pv na Amazônia brasileira são causadas, em sua maioria, por parasitas geneticamente não relacionados. 4) A recombinação não meiótica contribui substancialmente à diversidade dos domínios repetitivos de PvCSP. 5) Os SNPs nos genes pvmdr1 e pvcrt-o de isolados de Pv resistentes à cloroquina não se associam ao seu fenótipo in vivo. Finalmente, através da genotipagem de 57 SNPs do cromossomo 8 de Pv em 234 isolados do Brasil e da Ásia observou-se que, em Pv, a diversidade e a recombinação mitótica não se associam aos níveis de endemicidade como acontece em Pf e que Pv apresenta estrutura populacional continental e subcontinental no Brasil. / Through the analysis of microsatellites and SNPs, including both neutral and under selection markers, this work showed that: 1) The Brazilian populations of P. vivax (Pv) are more diverse than sympatric P. falciparum (Pf) populations, but both exhibit linkage disequilibrium. 2) For both species, neutral polymorphisms showed high variability over time, contrasting with the stability of under markers under selection. 3) The high rate of Pv recurrences in the Brazilian Amazon region is mostly due to genetically unrelated parasites. 4) Non-meiotic recombination substantially contributes to PvCSP repetitive domain diversity. 5) SNPs at pvmdr1 and pvcrt-o genes of chloroquine resistant isolates of Pv are not associated with the in vivo phenotype. Finally, 57 SNP genotyping of chromosome 8 of Pv among 234 isolates from Brazil and Asia showed that, in Pv, diversity and mitotic recombination are not associated with levels of endemicity as in Pf and that Pv presents continental population structure and subcontinental structure in Brazil.
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