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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
101

Expressão de marcadores moleculares em espermatogônias / Expression of molecular markers in spermatogonia

Giassetti, Mariana Ianello 03 June 2015 (has links)
Em mamíferos, a espermatogênese é mantida pela autorrenovação e diferenciação das células-tronco espermatogoniais (SSC). Apesar da grande importância do SSC para a fertilidade masculina, em Bos taurus pouco se sabe sobre a sua identificação e biologia celular. Para roedores, mais de 30 marcadores para células germinativas indiferenciadas já foram descritos. No entanto, ainda não é conhecido um marcador específico apenas para SSC. Quase todos são também expressos por gonócitos, espermatogônias mais diferenciadas ou mesmo células somáticas. Yin Yang 2 (YY2) é um factor de transcrição expresso nas células com a morfologia de gonócitos e SSC, sendo um candidato a marcador de SSC. Assim, a identificação de novos marcadores para SSC e factores que afectam a sua expressão, tais como a idade, são fundamentais para o desenvolvimento da biotecnologia como transgenia e tratamento de infertilidade, nos quais as SSC poderiam ser ferramentas biológicos importantes. Assim, nesta tese temos duas hipóteses principais: 1) a idade do dador afeta a expressão de marcadores moleculares específicos de SSC bovinas assim como potencial de células-tronco dessas células e que as sequências de DNA em que se associa YY2 regulam a expressão génica de SSC em camundongos. Os objetivos específicos, organizados em 4 artigos científicos, foram: identificar a melhor plaqueamento diferencial para enriquecer SSC bovina (artigo 1), verificar se a expressão de marcadores moleculares de SSC bovina difere entre adultos pré-púberes (artigo 2 e 3), identificar novos marcadores específicos para SSC em Bos taurus (artigo 3), verificar que a idade afeta o potencial de célula-tronco de SSC bovinas (artigo 3), descrever YY2 como um marcador específico para SSC em camundongos e verificar se as sequências DNA associadas YY2 são loci de importância para SSC. Assim, definimos o melhor plaqueamento diferencial para o enriquecimento de SSC bovinas, que idade afeta a expressão marcadores já estabelecidos assim como genes específicos do transcriptoma de SSC bovinas e que idade também afeta o seu potencial de células-tronco (ensaio de repopulação). Concluímos também que YY2 é um marcador para SSC de camundongo em cultivo, em animais adultos e que as sequências do genoma que se associam YY2 possivelmente tem capacidade de regulação génica em SSC murina. / Mammalian spermatogenesis is sustained by self-renewal and differentiation of spermatogonial stem cells (SSC). Despite the importance of the SSC for male fertility, in Bos taurus líttle is known about their identification identity and cell biology. For rodents, more than thirty markers for undifferentiated germ cells have already been described. However, none of these represents a marker specific for SSC, as most are also expressed in gonocytes, differentiated spermatogonia or even somatic cells. Yin Yang 2 (YY2) is a transcription factor specifically expressed in cells with the morphology of gonocytes and SSC in the mouse, being a candidate marker for SSC. For the use of SSC as an important biological tool in the development of biotechnology such as transgenesis and the treatment of infertility, it is important to identify new markers for SSC and factors that affect their expression, such as the age of donors. Therefore, the experimental work described in this thesis was based on two main hypothesis: (1) the donor age affects the expression of specific molecular markers in SSC as well their potential as stem cells and 2) YY2 exerts important functions in SSC and genomic targets correspond to loci relevant for gene regulation or genome management in SSC. The specific goals have been organized in 4 manuscripts as follows: optimization of differential plating to enrich for bovine SSC (Article 1), check if the expression of molecular markers of bovine SSCs differs between prepubertal and adult donors (Article 2 and 3), identify new markers specific for SSC in Bos taurus (Article 3), continuation of the initial description of YY2 as a specific marker for SSC in mice and check if sequences bound by YY2 in vivo harbor the capacity to influence gene expression in SSC. As conclusions, we present an optimized differential plating protocol for the enrichment of bovine SSC, we conclude that age effects the expression of SSC markers, the expression of specific genes of bovine SSC and that age also affects their potential as stem cells (measured in repopulation assays). We also contribute to the description of the restricted expression of YY2 in prepuberal and adult SSC in mice and we show that YY2 binding sites represent genomic sequences relevant for control of gene expression.
102

Cell cycle checkpoints in Caenorhabditis elegans: the 14-3-3 gene par-5 is required for germline development and DNA damage response / Checkpoints del ciclo celular en Caenorhabditis elegans: el gen 14-3-3, par-5, es necesario para el desarrollo y respuesta al daño genómico de la línea germinal

Aristizábal Corrales, David 13 June 2012 (has links)
14-3-3 proteins have been extensively studied from yeast to mammals, and are associated with multiple roles ranging from fundamental processes such as cell cycle, apoptosis and stress response to diseases such as neurodegeneration and cancer. Indeed, 14-3-3 proteins have been suggested as possible therapeutic targets in cancer treatment. There are seven 14-3-3 genes in mammals, whereas there are only two in Caenorhabditis elegans, ftt-2 and par-5. The ftt-2 gene is expressed only in somatic lineages, whereas par-5 expression is detected in both soma and germline. Although it is known that par-5 inactivation results in sterility, the role of this gene in germline development is poorly characterized. In the present study, we use a par-5 mutation and RNA interference to characterize par-5 functions in the germline. The lack of par-5 in germ cells causes cell cycle deregulation, the accumulation of endogenous DNA damage and genomic instability. Moreover, par-5 is required for checkpoint-induced cell cycle arrest in response to DNA-damaging agents. We propose a model whereby PAR-5 regulates CDK-1 phosphorylation to prevent premature mitotic entry. Even though mammalian 14-3-3 homologs have diverged into seven genes, we verified that the basic functions of 14-3-3 in cell cycle control have been conserved in C. elegans. Therefore, this study opens a new path to investigate molecular mechanisms of 14-3-3 proteins and establishes C. elegans as a suitable system to screen for genes (RNAi libraries or mutagenesis), and drugs which can modify 14-3-3 functions. / Las proteínas 14-3-3 han sido ampliamente estudiadas desde levadura hasta mamíferos y han sido asociadas con múltiples roles en procesos como ciclo celular, apoptosis y la respuesta al estrés. Así mismo estas proteínas se han visto involucradas en enfermedades neurodegenerativas y cáncer. De hecho, las proteínas 14-3-3 han sido propuestas como posibles agentes terapéuticos en el tratamiento contra el cáncer. En mamíferos existen 7 genes que codifican para proteínas 14-3-3, mientras en Caenorhabditis elegans solo hay dos, ftt-2 and par-5. El gen ftt-2 sólo es expresado en células somáticas, mientras par-5 se expresa tanto en células somáticas como en la línea germinal. Aunque se sabe que la inactivación de par-5 puede producir esterilidad, el rol de este gen en el desarrollo de la línea germinal no ha sido caracterizado. En este estudio, se usó una mutación de par-5 y RNA interferente para caracterizar la función de par-5 en la línea germinal. La falta de par-5 en la línea germinal causa una desregulación del ciclo celular, acumulación de daño genómico e inestabilidad genómica. Además, par-5 es requerido para el arresto celular inducido por el checkpoint en respuesta a los agentes que dañan el genoma. A partir de los resultados obtenidos, se propone un modelo según el cual PAR-5 regula la fosforilación de CDK-1 para prevenir la entrada prematura en mitosis. Aunque los homólogos de 14-3-3 en humanos han divergido en 7 genes, este estudio permitió verificar que las funciones básicas de las proteínas 14-3-3 en el control ciclo celular están conservadas en C. elegans. Por lo tanto, este estudio abre un nuevo camino para estudiar las funciones moleculares de las proteínas 14-3-3 y establece C. elegans como un modelo adecuado para la búsqueda de genes y/o drogas que modifiquen la función de las proteínas 14-3-3.
103

Development of an in vitro test system for assessment of male, reproductive toxicity.

Habas, Khaled, Anderson, Diana, Brinkworth, Martin H. January 2014 (has links)
There is a need for improved reproductive toxicology assays that do not require large numbers of animals but are sensitive and informative. Therefore, Staput velocity-sedimentation separation followed by culture of specific mouse testicular cells was used as such a system. The specificity of separation was assessed using immunocytochemistry to identify spermatids, spermatocytes and spermatogonia. The efficacy of the system to detect toxicity was then evaluated by analysing the effects of hydrogen peroxide (H2O2) by the terminal uridine-deoxynucleotide end-labelling (TUNEL) assay to show the rate of apoptosis induced among the different types of germ cells. We found that 2 h of treatment at both 1¿M and 10¿M induced increases of over ~10-fold in the percentage of apoptotic cells (p¿0.001), confirming that testicular germ cells are prone to apoptosis at very low concentrations of H2O2. It was also demonstrated for the first time for this compound that spermatogonia are significantly more susceptible than spermatocytes, which are more affected than spermatids. This reflects the proportion of actively dividing cells in these cell types, suggesting a mechanism for the differential sensitivity. The approach should thus form the basis of a useful test system for reproductive and genetic toxicology in the future.
104

The pumilio proteins PUF-5 and PUF-6/7/10 are necessary for repression of C. Elegans notch/glp-1 during late oogenesis (or not all that glitters is GLD-1) /

Lublin, Alex Louis. January 2005 (has links)
Thesis (Ph.D. in Cell and Developmental Biology) -- University of Colorado at Denver and Health Sciences Center, 2005. / Typescript. Includes bibliographical references (leaves 82-86). Free to UCDHSC affiliates. Online version available via ProQuest Digital Dissertations;
105

Effet de la metformine, un modulateur du métabolisme sur le développement gonadique : utilisation de deux modèles expérimentaux / No title available

Faure, Mélanie 29 November 2016 (has links)
La metformine est utilisée chez les patients et patientes atteints du diabète de type II. Elle est également administrée lors d’une infertilité liée à une insulino-résistance ou à un désordre métabolique. Mon projet de recherche a été d’analyser les effets de cet antidiabétique sur la fonction gonadique administré au stade foetal ou à la puberté. Nous avons montré par une approche in vivo sur deux modèles animaux: 1) qu'une administration orale de metformine à des poulets pré-pubères entraine un retard de puberté. Il se caractérise par une réduction du poids testiculaire, du diamètre des tubes séminifères et par une baisse de la testostérone sérique. 2) qu’une exposition des foetus mâles à de la metformine, chez la souris, conduit une fois adulte a une diminution de la taille des portées de 30%. Ce dysfonctionnement est associé à des marques épigénétiques sur l’ADN et des anomalies morphologiques de la tête des spermatozoïdes. Des techniques à haut débit (protéomique et métabolomique) réalisées sur des cultures de cellules de Sertoli immatures traitées ou non à la metformine ont permis de démontrer : 1) que le traitement mène à un métabolisme cellulaire de type Warburglike. 2) que des protéines présentent des différences d’abondance entre les deux conditions et qu’elles sont impliquées dans l’organisation du cytosquelette, de l’adhésion cellulaire, de la compaction de l’ADN, de la régulation de la réponse cellulaire à l’hypoxie et de l’immunité. Les résultats obtenus suggèrent que les grandes fonctions de sécrétion, de support et de protection des cellules de Sertoli sont modifiées par cet antidiabétique et qu’une exposition in utero à la metformine pourrait agir sur la fertilité et sur le métabolisme. / Metformin is used to treat patients with type II diabetes, it could be also administered to improve infertility associated to insulin-resistance or metabolic disorder. My research project was to analyse the consequence of a metformin exposure on gonad function from fetal to adult period. We showed by an in vivo approach on two animal models: 1) that oral administration of metformin to young chickens delay the puberty. It is characterized by a reduction in the testis weight, diameter of seminiferous tubule and decrease in testosterone level. 2) that mice, exposed in utero with metformin leads at adulte age to a lower fertility. This dysfunction is associated with morphological abnormalities of the sperm head and epigenetic marks on DNA. The second approach used proteomic and metabolomic strategy on cultured Sertoli cells treated or not with metformin. We demonstrated : 1) that the treatment leads to Warburg-like cellular metabolism. 2) that proteins present differences of abundances are involved in cytoskeleton organization, cell adhesion, DNA compaction, reponsiveness to hypoxia and immunity. The results suggest that the main function of secretion, support and protection of germ cell by Sertoli cells are modified by this antidiabetic, and that in utero exposure to metformin could act on the fertility and metabolism.
106

Role of small RNAs and chromatin in transposable element silencing during global demethylation

Berrens, Rebecca V. January 2017 (has links)
DNA methylation entails the addition of a methyl group to the 5-carbon of the cytosine base of the DNA. This modification is important during many biological processes such as imprinting, X-chromosome inactivation, cell differentiation as well as silencing of transposable elements (TEs). DNA methylation is dynamic during early mammalian development, despite being a more static mark in somatic cells. Global hypomethylation is a hallmark of epigenetic reprogramming in mammalian primordial germ cells (PGCs), the early embryo and in naïve embryonic stem cells (ESCs). Genome integrity is crucial during early development, as the germline DNA needs to be protected for future generations. Therefore, epigenetic reprogramming presents a critical phase for TE defence since presumably alternative silencing pathways need to be employed to limit their activity. In this thesis, I investigate the role of small RNAs to control TEs during global waves of DNA demethylation in cellular reprogramming, naïve pluripotency as well as early mammalian development. Following an introduction to the research questions, in chapter 3 I investigate the mechanism of TE regulation in an in vitro model of Dnmt1 deletion in mouse ES cells to recapitulate in vivo epigenetic reprogramming. I find that certain classes of TEs become transcriptionally upregulated and subsequently resilenced by a mechanism independent of DNA methylation. I identify ARGONAUTE 2 (AGO2) bound siRNAs as the prominent mechanism to control certain classes of TEs, while others appear to be regulated by redistribution of repressive histone modifications. In chapter 4, I construct Dicer constitutive and conditional KO ESCs in the background of the Dnmt1f l/f l ESCs using CRISPR-Cas9. I dissect the role of DNA methylation and of DICER dependent small RNAs on transcriptional changes of ESCs. Additionally, I find that DICER dependent small interfering RNAs (siRNAs) re-silence transcriptionally active TE classes. Finally, in chapter 5, I examine the role of small RNAs in TE silencing in different models of global hypomethylation in vivo and in vitro PGCs, during iPSC reprogramming and in a transition from serum to 2i culturing of mouse ESCs.
107

Efeito letal dominante da radiacao gama de sup(60)Co em Biomphalaria glabrata (Say, 1818)

TALLARICO, LENITA de F. 09 October 2014 (has links)
Made available in DSpace on 2014-10-09T12:48:34Z (GMT). No. of bitstreams: 0 / Made available in DSpace on 2014-10-09T13:59:59Z (GMT). No. of bitstreams: 1 09247.pdf: 4937789 bytes, checksum: 5b8fd693e620f9b98224e5ae5b5dcc07 (MD5) / Dissertacao (Mestrado) / IPEN/D / Instituto de Pesquisas Energeticas e Nucleares - IPEN/CNEN-SP
108

Efeito letal dominante da radiacao gama de sup(60)Co em Biomphalaria glabrata (Say, 1818)

TALLARICO, LENITA de F. 09 October 2014 (has links)
Made available in DSpace on 2014-10-09T12:48:34Z (GMT). No. of bitstreams: 0 / Made available in DSpace on 2014-10-09T13:59:59Z (GMT). No. of bitstreams: 1 09247.pdf: 4937789 bytes, checksum: 5b8fd693e620f9b98224e5ae5b5dcc07 (MD5) / Dissertacao (Mestrado) / IPEN/D / Instituto de Pesquisas Energeticas e Nucleares - IPEN/CNEN-SP
109

Roles Of A Nuclear Hormone Receptor During C. Elegans Germline Development

Gracida Canales, Xicotencatl 07 February 2012 (has links)
Two fundamental problems of developmental biology are the understanding of cell fate specification, and the integration of broader environmental contexts into developmental programs. While cell fate specification is largely achieved by differential gene expression programs, environmental integration relies on cellular receptors. A predominant mechanism to mediate both processes utilizes nuclear hormone receptors (NHRs). However, it remains unclear how diverse the NHR’s modes of action are in regulating gene expression. This thesis utilizes the development of the C. elegans germ line as a model system to study a novel link that integrates cell fate specification and the nutritional environment. In C. elegans, germ cell fate specification is chiefly controlled by posttranscriptional mechanisms. Furthermore, overall germline development is influenced by the animal’s nutritional status. However, it remains unknown whether germline posttranscriptional control mechanisms and germ cell fate decisions are linked to nutrition, and if so, how this link may operate in molecular terms. This thesis reports the characterization of the nuclear hormone receptor nhr-114 and its crucial functions for germline development and fertility. Depending on the tissue of expression, nhr-114 regulates overall germline organization, germ cell proliferation and oogenesis. Importantly, all aspects of nhr-114 function are linked to diet. Feeding nhr-114 mutants with a specific E. coli strain, or a tryptophan-supplemented diet significantly reduces germline development defects and sterility. Based on mutant analysis, nhr-114 was found to have overlapping functions with gld-4 cytoplasmic poly(A) polymerase (cytoPAP). This thesis provides evidence that nhr-114 may function in germ cells in a posttranscriptional manner linked to gld-4 cytoPAP. Further evidence shows that NHR-114 interacts with GLD-4 cytoPAP. Together these findings suggest that NHR-114 may control gene expression by transcriptional and posttranscriptional mechanisms in a tissue-specific manner. This thesis proposes that NHR-114 ensures the input of tryptophan to allow germline development; and that this function integrates nutritional information into the germline gene expression programs according to the environment of the worm. Therefore, NHR-114 potentially provides a direct molecular link to how a developmental program is coordinated with the nutritional status of an animal.
110

Developmental roles of DDX3 helicase LAF-1

Szczepaniak, Krzysztof 01 March 2021 (has links)
Germ cells are a pool of cells that serve as a link between generations. These cells are separated from the somatic cells by specialized type of cytoplasm, called the germ plasm. Germ plasm contains, membraneless, electron dense subcellular structures, termed germplasm granules that contain numerous components of mRNA metabolism pathway. One of the most prominent protein families, commonly found in germplasm granules are DEAD-box helicases. While this protein family is currently heavily investigated, surprisingly little is known about their functions in germ plasm granules and the mechanisms of their association with the granules. This work identified novel biological and molecular roles of C. elegans’ LAF-1 in both somatic and germ cells. It reveals strong dependency of animal’s somatic, embryonic and post-embryonic development on LAF-1 activity, resulting in high penetrance developmental arrest phenotype. Moreover, this work documents requirement of LAF-1 for the fertility of the animal. Analysis of germ cells in the absence of LAF-1 activity reveals multilayered defects occurring at all stages of germ cell development and maturation. LAF-1 appears to be involved in the maintenance of proliferating potential of the germline stem cell pool and loss of LAF-1 significantly expands the region occupied by mitotic cells. Furthermore, loss of LAF-1 significantly affects expression of GLD-1, REC-8 and H3-S10P, implying that mitosis-to-meiosis boundary cannot be established correctly in the absence of LAF-1. This work solidifies previous conclusions that LAF-1 is a component of P granules, both in the adult germ cells and embryonic germ cell precursors and reveals that LAF-1 is required for correct assembly and dynamic behavior of P granules. Intrinsically disordered regions present in LAF-1 are indispensable for LAF-1’s association with P granules and its role in recruiting granule components. Lastly, LAF-1 associates with RNPs containing cytoplasmic polyA polymerases, indicating that LAF-1 might be involved in translational regulation. Altogether, the collected data describes biological functions of LAF-1 and elucidates the molecular mechanisms underlying these functions.

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