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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.
191

Análise do perfil de expressão de serina/treonina fosfatases e prospecção da função biológica para algumas dessas enzimas em Dictyostelium discoideum / Analysis of serine/threonine phosphatases expression profile and biological function prospection for some of these enzymes in Dictyostelium discoideum

Layla Farage Martins 13 December 2010 (has links)
A fosforilação reversível de proteínas em resíduos de serina e treonina, catalisada por quinases e fosfatases desempenha papel chave na regulação do crescimento e na diferenciação celular em eucariotos. As serina/treonina proteínas fosfatases (PSTPs) são atualmente divididas em três famílias denominadas PPP (PhosphoProtein Phosphatase), PPM (Phosphoprotein Phosphatase Magnesium-dependent) e FCP/SCP (RNA polymerase II CTD phosphatase), sendo que os membros da família PPP são, frequentemente, holoenzimas compostas de uma subunidade catalítica associada a uma ou mais subunidades reguladoras, as quais definem a função, localização e especificidade ao substrato da fosfatase. Neste trabalho, analisamos, através de RT-qPCR, o perfil de expressão dos genes codificadores de subunidades catalíticas de PPPs de Dictyostelium discoideum (PP1c, PP2Ac, PP4c, PP4c-like, PP6c e PP5c) e de 16 potenciais parceiros moleculares de algumas destas subunidades catalíticas, tais como DdI-2 e DdI-3, sabidamente inibidores da PP1c. Em resposta ao estresse térmico de células da fase de crescimento, detectamos o aumento dos níveis de transcritos de PP4c e PP6c e também de DdI-2, DdI-3 e DDB_G0292194, esta última, uma proteína de função desconhecida que interage com a PP1c em ensaios de duplo-híbrido em leveduras. Por outro lado, durante o estresse hiper-osmótico observamos a diminuição dos níveis de transcritos de quase todos os genes analisados com exceção de DdI-2 e DDB_G0292194. O nível de expressão de DdPP1c, DdI-2, DdI-3 e DDB_G0292194 também foi analisado em resposta ao estresse oxidativo e apenas o DDB_G0292194 foi induzido nesta condição. Os genes de PP1c, PP4, PP5c e PP6c são expressos durante todo o ciclo de vida de D. discoideum, mas a expressão de alguns dos genes analisados aumenta em uma fase definida do ciclo de desenvolvimento como é o caso de DDB_G0292194 que tem níveis de transcritos aumentados na fase de agregação. Este gene codifica uma proteína hipotética de 559 aminoácidos, que apresenta um domínio FHA (ForkHead-Associated) em sua região aminoterminal, além de uma sequência similar ao motivo consenso de ligação à PP1c. Ensaios no sistema de duplo-híbrido em leveduras confirmaram que a interação entre DDB_G0292194 e DdPP1c independe do domínio FHA. Verificamos, também, que o mutante nocaute de DDB_G0292194 apresenta uma morfologia alterada em condições padrões de cultivo, tanto na fase de crescimento como durante o desenvolvimento, além de uma maior sensibilidade ao estresse oxidativo causado pelo peróxido de hidrogênio quando comparado à linhagem selvagem. Em conjunto, nossos resultados evidenciam a importância das PPPs na resposta a diferentes tipos de estresse e para o crescimento e desenvolvimento de D. discoideum. / Reversible phosphorylation of proteins on serine and threonine residues, catalyzed by kinases and phosphatases plays a key role in growth and cell differentiation regulation in eukaryotes. Protein serine/threonine phosphatases (PSTPs) are currently divided into three families named PPP (Phosphoprotein Phosphatase), PPM (Phosphoprotein Phosphatase Magnesium-dependent) and FCP/SCP (RNA polymerase II CTD phosphatase). The PPP family members are often holoenzymes composed of a catalytic subunit associated with one or more regulatory subunits, which define function, localization and substrate specificity of the phosphatase. In this work, we have examined, by RT-qPCR, the expression profile of genes encoding PPP catalytic subunits of Dictyostelium discoideum (PP1c, PP2Ac, PP4c, PP4c-like, PP6c and PP5c) and 16 potential molecular partners for some of these catalytic subunits, such as DdI-2 and DdI-3, both known as PP1c inhibitors. In response to heat stress of growth phase cells, we detected increased levels of transcripts of PP4c and PP6c as well as of DdI-2, DdI-3, and DDB_G0292194, the latter a protein of unknown function that interacts with PP1c in yeast two-hybrid assays. Moreover, during the hyperosmotic stress we observed decreased transcript levels of nearly all genes examined except DdI-2 and DDB_G0292194. The expression level of DdPP1c, DdI-2, DdI-3 and DDB_G0292194 was also analyzed in response to oxidative stress and only DDB_G0292194 was induced in this condition. PP1c, PP4c, PP5c and PP6c genes are expressed throughout growth and development of D. discoideum while transcript levels of some the analysed genes were increased at a defined stage of the developmental cycle as in the case of DDB_G0292194, which increased during aggregation. This gene encodes a hypothetical protein of 559 amino acids bearing a FHA (ForkHead-Associated) domain in its aminoterminal region and a sequence matching the PP1c binding consensus motif. Yeast two-hybrid assays confirmed that DDB_G0292194 and DdPP1c interaction does not depend on FHA domain. We also found that DDB_G0292194 knockout mutant exibits an altered morphology on standard growth and developmental conditions and shows an increased sensitivity to oxidative stress induced by hydrogen peroxide in comparison to the wild type strain. Taken together, our results highlight the importance of PPPs in the response to different types of stress and for growth and development of D. discoideum.
192

The small GTPases Ras and Rap1 bind to and control TORC2 activity

Khanna, Ankita, Lotfi, Pouya, Chavan, Anita J., Montaño, Nieves M., Bolourani, Parvin, Weeks, Gerald, Shen, Zhouxin, Briggs, Steven P., Pots, Henderikus, Van Haastert, Peter J. M., Kortholt, Arjan, Charest, Pascale G. 13 May 2016 (has links)
Target of Rapamycin Complex 2 (TORC2) has conserved roles in regulating cytoskeleton dynamics and cell migration and has been linked to cancer metastasis. However, little is known about the mechanisms regulating TORC2 activity and function in any system. In Dictyostelium, TORC2 functions at the front of migrating cells downstream of the Ras protein RasC, controlling F-actin dynamics and cAMP production. Here, we report the identification of the small GTPase Rap1 as a conserved binding partner of the TORC2 component RIP3/SIN1, and that Rap1 positively regulates the RasC-mediated activation of TORC2 in Dictyostelium. Moreover, we show that active RasC binds to the catalytic domain of TOR, suggesting a mechanism of TORC2 activation that is similar to Rheb activation of TOR complex 1. Dual Ras/Rap1 regulation of TORC2 may allow for integration of Ras and Rap1 signaling pathways in directed cell migration.
193

Structural and Functional Characterization of the Soluble Cell Adhesion Molecule DdCAD-1in Dictyostelium discoideum

Sriskanthadevan, Shrivani 31 August 2011 (has links)
The cadA gene in Dictyostelium encodes a unique Ca2+-dependent cell adhesion molecule DdCAD-1. It is synthesized as a soluble protein in the cytoplasm and then transported to the plasma membrane by contractile vacuoles. The solution structures of Ca2+-free and Ca2+-bound DdCAD-1 reveals that it contains two β-sandwich domains, belonging to the βγ-crystallin and immunoglobulin fold classes, respectively. Whereas the N-terminal domain has a major role in homophilic binding, the C-terminal domain tethers the protein to the cell membrane. Although hydrophobic interactions constitute the major force for adhesion, electrostatic interactions may act as a ‘switch’ to regulate the homophilic binding by a change in electrostatic potential caused by the binding of Ca2+ to the three binding sites. To further investigate DdCAD-1 transport, DdCAD-1-GFP fusion proteins were expressed in cadA-null cells. Time-lapse microscopy revealed that DdCAD-1 was imported by invagination of the contractile vacuole membrane. The N-terminal, C-terminal domains, and two of the three Ca2+-binding site mutant forms of DdCAD-1 failed to enter the contractile vacuole, suggesting that Ca2+-binding and the integrity of DdCAD-1 are required for import. Indeed, proteins with altered conformation failed to enter the contractile vacuole, indicating that the import signal is integrated in the three-dimensional structure of DdCAD-1. Finally, we describe how the cadA gene acts as a single-gene green beard. In chimera experiments, cells expressing DdCAD-1 were more likely to form fruiting bodies than cadA-null cells on soil plates. Here cadA behaved as a single gene green beard. However, cadA exhibited anti-green beard behaviour on non-nutrient agar plates. Wild-type cells differentiated mostly into prestalk cells and eventually died, whereas the cadA-null cells survived as spores. DdCAD-1 was enriched in cell-cell contact regions of anterior cells, while it was mostly localized in the cytoplasm of posterior cells. The presence of DdCAD-1 on the cell surface of prestalk cells is crucial for cell sorting, which in turn explain the anti-green beard effect observed in chimeras containing cadA+ and cadA- cells. These observations demonstrate that DdCAD-1 plays a direct role in cell sorting through differential cell-cell adhesion which results from the differential distribution of DdCAD-1.
194

Structural and Functional Characterization of the Soluble Cell Adhesion Molecule DdCAD-1in Dictyostelium discoideum

Sriskanthadevan, Shrivani 31 August 2011 (has links)
The cadA gene in Dictyostelium encodes a unique Ca2+-dependent cell adhesion molecule DdCAD-1. It is synthesized as a soluble protein in the cytoplasm and then transported to the plasma membrane by contractile vacuoles. The solution structures of Ca2+-free and Ca2+-bound DdCAD-1 reveals that it contains two β-sandwich domains, belonging to the βγ-crystallin and immunoglobulin fold classes, respectively. Whereas the N-terminal domain has a major role in homophilic binding, the C-terminal domain tethers the protein to the cell membrane. Although hydrophobic interactions constitute the major force for adhesion, electrostatic interactions may act as a ‘switch’ to regulate the homophilic binding by a change in electrostatic potential caused by the binding of Ca2+ to the three binding sites. To further investigate DdCAD-1 transport, DdCAD-1-GFP fusion proteins were expressed in cadA-null cells. Time-lapse microscopy revealed that DdCAD-1 was imported by invagination of the contractile vacuole membrane. The N-terminal, C-terminal domains, and two of the three Ca2+-binding site mutant forms of DdCAD-1 failed to enter the contractile vacuole, suggesting that Ca2+-binding and the integrity of DdCAD-1 are required for import. Indeed, proteins with altered conformation failed to enter the contractile vacuole, indicating that the import signal is integrated in the three-dimensional structure of DdCAD-1. Finally, we describe how the cadA gene acts as a single-gene green beard. In chimera experiments, cells expressing DdCAD-1 were more likely to form fruiting bodies than cadA-null cells on soil plates. Here cadA behaved as a single gene green beard. However, cadA exhibited anti-green beard behaviour on non-nutrient agar plates. Wild-type cells differentiated mostly into prestalk cells and eventually died, whereas the cadA-null cells survived as spores. DdCAD-1 was enriched in cell-cell contact regions of anterior cells, while it was mostly localized in the cytoplasm of posterior cells. The presence of DdCAD-1 on the cell surface of prestalk cells is crucial for cell sorting, which in turn explain the anti-green beard effect observed in chimeras containing cadA+ and cadA- cells. These observations demonstrate that DdCAD-1 plays a direct role in cell sorting through differential cell-cell adhesion which results from the differential distribution of DdCAD-1.
195

Etalement de Dictyostelium discoideum et rôle des protéines Phg2, PKD2 et TPC dans la motilité.

Keller, Sébastien 18 October 2007 (has links) (PDF)
L'amibe Dictyostelium discoideum est un eucaryote unicellulaire capable de se déplacer et de se nourrir par phagocytose. Cet organisme est très utilisé pour décrypter les mécanismes moléculaires du chimiotactisme et de la motilité cellulaire. Les travaux de S.Fache au laboratoire ont notamment montré que la motilité de Dictyostelium est stimulée par une contrainte mécanique, et que la vitesse atteinte dépend du calcium extracellulaire. <br />Dans ce travail, nous avons étudié l'étalement de Dictyostelium sur un substrat, processus qui peut être apparenté à certaines étapes de la motilité cellulaire. Nous avons montré que l'étalement de Dictyostelium est un processus quasi-linéaire et anisotrope. De plus, nous avons mis en évidence des variations périodiques de l'aire gagnée par les cellules dont nous n'avons pu identifier l'origine moléculaire. <br />Ces travaux sur l'étalement cellulaire nous ont permis de caractériser le rôle de la protéine Phg2 dans la motilité cellulaire. Phg2 est une kinase connue pour être impliquée dans la phagocytose et la motilité. Nous avons établi que Phg2 contrôle la polarisation cellulaire via son domaine de liaison aux protéines de type Ras, et joue également un rôle dans la polymérisation locale de l'actine via son domaine kinase. <br />Enfin, nous avons inactivé deux gènes codant pour des canaux calciques chez Dictyostelium, et les études préliminaires menées semblent indiquer qu'ils ne participent pas à la réponse calcique de la motilité induite par une contrainte.
196

Sélection d'anticorps recombinants dirigés contre des matériaux inorganiques pour des applications en nanosciences

Jain, Purvi 27 September 2012 (has links) (PDF)
Les matériaux inorganiques ont des propriétés uniques à l'échelle nanométrique. Ces propriétés ont généré beaucoup d'intérêt pour fabriquer des nouveaux matériaux utilisant des nano-objets comme unité de construction. Nous avons suivi une approche biomimétique pour la fabrication de dispositifs à base de nanoparticules afin d'améliorer les méthodes actuelles de fabrication top-down et bottom-up. Certaines protéines naturelles se lient en effet spécifiquement à des matériaux inorganiques, et déclenchent notamment la croissance de cristaux inorganiques. Une première étape dans cette approche biomimétique est de comprendre comment des protéines se lient spécifiquement à des nanomatériaux inorganiques. Nous avons exploré ce mécanisme de reconnaissance en sélectionnant des anticorps (les protéines de notre système immunitaire spécialisées dans les interactions avec de nombreuses cibles) contre des matériaux inorganiques par la méthode combinatoire biotechnologique appelée "phage display". Cette technique permet d'obtenir la séquence génétique codante des anticorps sélectionnés se liant à leur cible à partir d'une banque aléatoire d'anticorps. L'analyse statistique des séquences des anticorps sélectionnés fournit de nouvelles informations sur les interactions protéines/matériaux inorganiques. Notre principale conclusion est l'identification de l'acide aminé arginine en tant que contributeur majeur dans les interactions protéine/or. L'ingénierie génétique des anticorps permet de fonctionnaliser ces nouvelles sondes de matériaux inorganiques en vue de leur utilisation pour des applications dans le domaine des nanomatériaux. Les anticorps recombinants sélectionnés et leurs dérivés fonctionnalisés peuvent être exprimés par sécrétion à l'aide d'un hôte eucaryote (Dictyostelium discoideum) mis au point au cours de cette thèse.
197

Analysis of the response of nucleotide excision repair genes in Dictyostelium discoideum /

Yu, Sung-Lim, January 1997 (has links)
Thesis (Ph. D.)--University of Missouri-Columbia, 1997. / Typescript. Vita. Includes bibliographical references (leaves 109-130). Also available on the Internet.
198

Analysis of the response of nucleotide excision repair genes in Dictyostelium discoideum

Yu, Sung-Lim, January 1997 (has links)
Thesis (Ph. D.)--University of Missouri-Columbia, 1997. / Typescript. Vita. Includes bibliographical references (leaves 109-130). Also available on the Internet.
199

Function of Argonaute proteins in Dictyostelium discoideum

Mazurek, Aleksander Józef January 2024 (has links)
Argonaute proteins play substantial roles in post-transcriptional regulation of gene expression within RNA interference (RNAi) pathways, making them crucial subjects for research, aimed at understanding their interactions with small non-coding RNAs (ncRNAs) and other RNAi components. This study focuses on investigating these properties of Argonaute proteins, particularly Argonaute protein A (AgnA), in the social amoeba Dictyostelium discoideum that is renowned for its broad genetic toolbox and unique life cycle. While previous studies have examined the disruption of three Argonaute genes (agnB, agnC, agnE) and their effect on mRNA levels and small ncRNA expression, this study extends to agnA gene, which remains less studied. Key questions surrounding the influence of AgnA on the cellular processes such as the cell growth rate, development, gene expression, as well as potential targets and small ncRNA binding, remain unanswered. A well-established approach that could provide the necessary answers is the disruption of the gene through traditional homologous recombination, by insertion of a drug-resistance cassette flanked by homology arms complementary to the target locus. However, the emerging CRISPR/Cas9 gene editing tool on contrary offers straightforward protocols for disruption of gene expression through efficient induction of genomic knockouts, point mutations and deletions. In this study, both approaches were applied in parallel to knockout the agnA gene, enabling comparison of knockout efficiency and further study of the growth rate, development and gene expression in the knockout strains. Moreover, important information regarding the growth patterns of both wild-type and agnE knockout strains were also elucidated, complementing the previous growth rate analyses. The obtained data from this research could provide valuable insights for future studies ofthe RNAi machinery components and particularly the function of Argonaute proteins in D. discoideum.
200

Footprint Analysis of the Transcriptional Control of Glycogen Phosphorylase 2 in Dictyostelium Discoideum

Col, Bekir 07 January 1998 (has links)
Glycogen phosphorylase 2 (gp-2) is a key enzyme during the development of Dictyostelium discoideum. The gp-2 enzyme breaks down glycogen into glucose monomers that are subsequently used to synthesize the terminal end products of cellular differentiation. This gene is an ideal candidate for studying the process of selective gene expression because its product figures so prominently in the development of this organism, implying a dependable control mechanism responsible for its developmentally regulated expression. I present in this thesis the identification of several putative cis-acting elements of gp-2 as revealed through footprint analysis. Due to the extreme AT-bias characteristic of Dictyostelium promoters, footprinting conditions required intensive optimization with respect to template, nonspecific competitor, source of protein extract and DNase I digestion. Using an endlabeled fragment containing seven repeated sequences (3 TA boxes [TAATTATA], 2 TAG boxes [TAAAAATGGT] and 2 C boxes [ACCCACT]), purified replication protein A and several developmental nuclear extracts were tested for DNA binding activity. Small footprints were observed on the TAG and C boxes of the promoter for both protein sources. However, using a more sensitive footprinting strategy involving multiple rounds of primer extension, larger footprints spanning the same promoter regions were detected. In both cases, the appearance of the footprints coincided with the documented transcriptional activity of the gene. It can be concluded from the data obtained that the TAG and C boxes are very likely cis-acting elements involved in the regulation of gp-2 expression. / Master of Science

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