Global ETD Search

101	Role of the Heterotrimeric Go Protein Alpha-subunit on the Cardiac Secretory Phenotype Roeske, Cassandra January 2013 (has links) Atrial natriuretic factor (ANF) is a polypeptide hormone produced in heart atria, stored in atrial secretory granules and released into the circulation in response to various stimuli. Proper sorting of ANF at the level of the trans-Golgi network (TGN) is required for the storage of ANF in these specific granules, and this sorting of hormones has been found to be associated with G-proteins. Specifically, the Go protein alpha-subunit (Gαo) was established to participate in the stretch-secretion coupling of ANF, but may also be involved in the transporting of ANF from the TGN into atrial granules for storage and maturation. Based on knowledge of Gαo involvement in hormone production in other endocrine tissues, protein-protein interactions of Gαo and proANF and their immunochemical co-localization in granules, the direct involvement of these two proteins in atrial granule biogenesis is probable. In this study, mice were created using the Cre/lox recombination system with a conditional Gαo knockout in cardiocytes to study and characterize ANF production, secretion and granule formation. Deletion of this gene was successful following standard breeding protocols. Characterization and validation of cellular and molecular content of the knockout mice through mRNA levels, protein expression, peptide content, electron microscopy, and electrocardiography determined that a significant phenotypic difference was observed in the abundance of atrial granules. However, Gαo knockout mice did not significantly alter the production and secretion of ANF and only partially prevented granule biogenesis, likely due to incomplete Gαo knockout. These studies demonstrate an involvement of Gαo in specific atrial granule formation. G alpha o cardiac secretory phenotype heterotrimeric g proteins atrial natriuretic factor cre/lox recombination transgenic animal model granule biogenesis atrial secretory granules
102	Usměrněná evoluce myšího polyomaviru / Directed evolution of mouse polyomavirus Váňová, Jana January 2016 (has links) The method of directed evolution represents a new approach to generate proteins with new or altered properties. The principle of directed evolution is random mutagenesis of the coding sequence for a protein of our interest followed by selection of generated mutants for the desired property. The aim of this pilot study was to investigate the possibility of utilization of directed evolution for alteration of mouse polyomavirus original tropism and virus retargeting to a model prostate cancer cell line. To generate randomly mutated gene encoding the major capsid protein of mouse polyomavirus, which is responsible for the interaction of the virus with cellular receptor for viral cell entry, error-prone PCR and DNA shuffling methods were used. Production of viruses composed of mutant major capsid protein was ensured by Cre/loxP site-specific recombination. The thesis also dealt with the design and characterization of the system for viral mutant selection. It was found that the prostate cancer cell lines markedly vary in their ability to bind and internalize particles derived from mouse polyomavirus. This knowledge can be used for the preparation of virus-like particles for prostate cancer diagnostics in the future. The study demonstrated that the method of directed evolution can be used for production...
103	Macromolecular Structure: from peptides to polyvalent proteins Stachowski, Kye January 2021 (has links) No description available. Biochemistry
104	Regulation of sodium iodide symporter expression/function and tissue-targeted gene transfer of sodium iodide symporter Lin, Xiaoqin January 2003 (has links) No description available. sodium iodide symporter untranslated region mouse NIS upstream enhancer tissue-targeted NIS gene transfer Cre/loxP system
105	Protein Function Study by NMR Spectroscopy Amero, Carlos D. 14 April 2008 (has links) No description available. Biochemistry Biophysics Molecular Biology NMR structure dynamics interaction with DNA Poliovirus 3C protein Cre recombinase RNase P protein Rpp21 Peptide Deformylase (PDF)
106	Étude du rôle de Pax6 dans la gliogenèse Cannizzaro, Enrica 08 1900 (has links) Les astrocytes sont des cellules gliales présentes dans le système nerveux central, qui exercent de nombreuses fonctions physiologiques essentielles et sont impliquées dans la réponse aux lésions et dans plusieurs pathologies du cerveau. Les astrocytes sont générés par les cellules de la glie radiale, les précurseurs communs de la plupart des cellules neuronales et gliales du cerveau, après le début de la production des neurones. Le passage de la neurogenèse à la gliogenèse est le résultat de mécanismes moléculaires complexes induits par des signaux intrinsèques et extrinsèques responsables du changement de propriété des précurseurs et de leur spécification. Le gène Pax6 code pour un facteur de transcription hautement conservé, impliqué dans plusieurs aspects du développement du système nerveux central, tels que la régionalisation et la neurogenèse. Il est exprimé à partir des stades les plus précoces dans les cellules neuroépithéliales (les cellules souches neurales) et dans la glie radiale, dérivant de la différenciation de ces cellules. L’objectif de cette étude est d’analyser le rôle de Pax6 dans la différenciation et dans le développement des astrocytes. À travers l’utilisation d’un modèle murin mutant nul pour Pax6, nous avons obtenu des résultats suggérant que la suppression de ce gène cause l'augmentation de la prolifération et de la capacité d'auto-renouvellement des cellules souches neurales embryonnaires. In vitro, les cellules mutantes prolifèrent de façon aberrante et sous-expriment les gènes p57Kip2, p16Ink4a, p19Arf et p21Cip1, qui inhibent la progression du le cycle cellulaire. De plus, Pax6 promeut la différenciation astrocytaire des cellules souches neurales embryonnaires et est requis pour la différenciation des astrocytes dans la moëlle épinière. Les mutants nuls pour Pax6 meurent après la naissance à cause de graves défauts développementaux dus aux fonctions essentielles de ce gène dans le développement embryonnaire de plusieurs organes. En utilisant un modèle murin conditionnel basé sur le système CRE/ loxP (hGFAP-CRE/ Pax6flox/flox) qui présente l’inactivation de Pax6 dans les cellules de la glie radiale, viable après la naissance, nous avons montré que Pax6 est impliqué dans la maturation et dans le développement post-natal des astrocytes. Le cortex cérébral des souris mutantes conditionnelles ne présente pas d’astrocytes matures à l’âge de 16 jours et une très faible quantité d’astrocytes immatures à l’âge de trois mois, suggérant que Pax6 promeut la différenciation et la maturation des astrocytes. De plus, Pax6 semble jouer un rôle même dans le processus de différenciation et de maturation de cellules gliales rétiniennes. L’étude des gènes et des mécanismes moléculaires impliqués dans la génération des astrocytes est crucial pour mieux comprendre le rôle physiologique et les altérations pathologiques des ces cellules. / Astrocytes, a subtype of glial cells present in the central nervous system, have multiple physiological functions and are involved in the response to lesions and in several brain pathologies. Astrocytes are generated by radial glia cells, the common precursors of most neural and glial cells of the brain, after the beginning of neurons production. The transition from neurogenesis to gliogenesis is the result of complex molecular mechanisms induced by both intrinsic and extrinsic signals responsible for the change of precursors properties and commitment. The Pax6 gene encodes a highly conserved transcription factor, involved in several aspects of central nervous system development, such as regionalization and neurogenesis. It is expressed from the earliest stages in the neuroepithelial cells (neural stem cells) and in their more differentiated radial glia progeny. The aim of this study was to analyze the role of Pax6 in the differentiation and development of astrocytes. By using a Pax6 null mutant mouse, we obtained results suggesting that the suppression of this gene increases the proliferation and the self-renewal ability of embryonic neural stem cells. In vitro mutant cells overproliferate and overexpress p57Kip2, p16Ink4a, p19Arf et p21Cip1 genes, which inhibit the cell cycle progression. Moreover Pax6 promotes astrocytic differentiation of embryonic neural stem cells and is required for astrocyte differentiation in spinal cord. Pax6 null mutants die after birth because of severe developmental defects, due to the essential functions of this gene in embryonic development of several organs. Using a conditional mutant mouse of Pax6 in radial glia (hGFAP-CRE/ Pax6flox/flox, based on site-specific Cre/loxP-mediated gene excision), which is viable after birth, we obtained evidences showing that Pax6 is involved in astrocyte maturation and postnatal development. The cerebral cortex of sixteen-day-old conditional mutant mice doesn’t present mature astrocytes, and the three-month-old mice cortex presents only few immature astrocytes, suggesting that Pax6 promotes astrocyte differentiation and maturation. Moreover Pax6 seems to play a role also in the maturation and differentiation of retinal glial cells. The identification of genes and molecular pathways involved in the generation of astrocytes is crucial to better understand the physiological function and pathological alterations of these cells. Astrocytes Astrocytes Gliogènese Gliogenesis Développement Development Système nerveux central Central nervous system Cellules souches neurales Neural stem cells Pax6 Pax6 Facteur de transcription Transcription factor Souris mutante nulle Nul mutant mouse Souris mutante conditionnelle Conditional mutant mouse Système CRE/ loxP CRE/ loxP system
107	Étude du rôle de Pax6 dans la gliogenèse Cannizzaro, Enrica 08 1900 (has links) Les astrocytes sont des cellules gliales présentes dans le système nerveux central, qui exercent de nombreuses fonctions physiologiques essentielles et sont impliquées dans la réponse aux lésions et dans plusieurs pathologies du cerveau. Les astrocytes sont générés par les cellules de la glie radiale, les précurseurs communs de la plupart des cellules neuronales et gliales du cerveau, après le début de la production des neurones. Le passage de la neurogenèse à la gliogenèse est le résultat de mécanismes moléculaires complexes induits par des signaux intrinsèques et extrinsèques responsables du changement de propriété des précurseurs et de leur spécification. Le gène Pax6 code pour un facteur de transcription hautement conservé, impliqué dans plusieurs aspects du développement du système nerveux central, tels que la régionalisation et la neurogenèse. Il est exprimé à partir des stades les plus précoces dans les cellules neuroépithéliales (les cellules souches neurales) et dans la glie radiale, dérivant de la différenciation de ces cellules. L’objectif de cette étude est d’analyser le rôle de Pax6 dans la différenciation et dans le développement des astrocytes. À travers l’utilisation d’un modèle murin mutant nul pour Pax6, nous avons obtenu des résultats suggérant que la suppression de ce gène cause l'augmentation de la prolifération et de la capacité d'auto-renouvellement des cellules souches neurales embryonnaires. In vitro, les cellules mutantes prolifèrent de façon aberrante et sous-expriment les gènes p57Kip2, p16Ink4a, p19Arf et p21Cip1, qui inhibent la progression du le cycle cellulaire. De plus, Pax6 promeut la différenciation astrocytaire des cellules souches neurales embryonnaires et est requis pour la différenciation des astrocytes dans la moëlle épinière. Les mutants nuls pour Pax6 meurent après la naissance à cause de graves défauts développementaux dus aux fonctions essentielles de ce gène dans le développement embryonnaire de plusieurs organes. En utilisant un modèle murin conditionnel basé sur le système CRE/ loxP (hGFAP-CRE/ Pax6flox/flox) qui présente l’inactivation de Pax6 dans les cellules de la glie radiale, viable après la naissance, nous avons montré que Pax6 est impliqué dans la maturation et dans le développement post-natal des astrocytes. Le cortex cérébral des souris mutantes conditionnelles ne présente pas d’astrocytes matures à l’âge de 16 jours et une très faible quantité d’astrocytes immatures à l’âge de trois mois, suggérant que Pax6 promeut la différenciation et la maturation des astrocytes. De plus, Pax6 semble jouer un rôle même dans le processus de différenciation et de maturation de cellules gliales rétiniennes. L’étude des gènes et des mécanismes moléculaires impliqués dans la génération des astrocytes est crucial pour mieux comprendre le rôle physiologique et les altérations pathologiques des ces cellules. / Astrocytes, a subtype of glial cells present in the central nervous system, have multiple physiological functions and are involved in the response to lesions and in several brain pathologies. Astrocytes are generated by radial glia cells, the common precursors of most neural and glial cells of the brain, after the beginning of neurons production. The transition from neurogenesis to gliogenesis is the result of complex molecular mechanisms induced by both intrinsic and extrinsic signals responsible for the change of precursors properties and commitment. The Pax6 gene encodes a highly conserved transcription factor, involved in several aspects of central nervous system development, such as regionalization and neurogenesis. It is expressed from the earliest stages in the neuroepithelial cells (neural stem cells) and in their more differentiated radial glia progeny. The aim of this study was to analyze the role of Pax6 in the differentiation and development of astrocytes. By using a Pax6 null mutant mouse, we obtained results suggesting that the suppression of this gene increases the proliferation and the self-renewal ability of embryonic neural stem cells. In vitro mutant cells overproliferate and overexpress p57Kip2, p16Ink4a, p19Arf et p21Cip1 genes, which inhibit the cell cycle progression. Moreover Pax6 promotes astrocytic differentiation of embryonic neural stem cells and is required for astrocyte differentiation in spinal cord. Pax6 null mutants die after birth because of severe developmental defects, due to the essential functions of this gene in embryonic development of several organs. Using a conditional mutant mouse of Pax6 in radial glia (hGFAP-CRE/ Pax6flox/flox, based on site-specific Cre/loxP-mediated gene excision), which is viable after birth, we obtained evidences showing that Pax6 is involved in astrocyte maturation and postnatal development. The cerebral cortex of sixteen-day-old conditional mutant mice doesn’t present mature astrocytes, and the three-month-old mice cortex presents only few immature astrocytes, suggesting that Pax6 promotes astrocyte differentiation and maturation. Moreover Pax6 seems to play a role also in the maturation and differentiation of retinal glial cells. The identification of genes and molecular pathways involved in the generation of astrocytes is crucial to better understand the physiological function and pathological alterations of these cells. Astrocytes Astrocytes Gliogènese Gliogenesis Développement Development Système nerveux central Central nervous system Cellules souches neurales Neural stem cells Pax6 Pax6 Facteur de transcription Transcription factor Souris mutante nulle Nul mutant mouse Souris mutante conditionnelle Conditional mutant mouse Système CRE/ loxP CRE/ loxP system
108	Bases moléculaires et cellulaires d’un trouble neurodéveloppemental causé par l’haploinsuffisance de SYNGAP1 Berryer, Martin, H 12 1900 (has links) No description available. SYNGAP1 interneurones GABAergiques innervation périsomatique inhibitrice souris Tg(Nkx2.1-Cre);Syngap1flox/+ neurotransmission GABAergique comportement et cognition Non-syndromic intellectual deficiency SYNGAP1 inhibitory perisomatic innervation Tg(Nkx2.1-Cre);Syngap1flox/+ mouse GABAergic neurotransmission behavior and cognition parvalbumin
109	Differential functions of Interleukin-10 derived from different cell types in the regulation of immune responses Surianarayanan, Sangeetha 16 December 2011 (has links) Interleukin-10 (IL-10) is an important regulator of immune responses secreted by different cell types. Previous results from our group suggested that the biological effects of this cytokine critically depend on its cellular source. Recent studies reported IL-10 dependent immunosuppressive functions of a specialized subset of regulatory B cells and mast cells. These results relied on adoptive cell transfers, a technique which can potentially introduce artifacts. Therefore, we aimed to readdress these questions in independent models using IL-10 transcriptional reporter mice and various conditional IL-10 mutant mice. Findings in IL-10 reporter system suggested prominent IL-10 transcription in regulatory B cells upon LPS administration. Exposure of mice to contact allergen revealed robust reporter expression in CD8 T cells, moderate to mild reporter expression in CD4 T cells and dendritic cells (DC) respectively, and lack of reporter expression in B cells, mast cells and NK cells in allergen challenged ears. We generated cell-type specific IL-10 mutants by Cre/LoxP-mediated conditional gene inactivation. Efficiency and specificity of Cre-mediated recombination was demonstrated by Southern blot and PCR methods. Various immunogenic challenges in conditional IL-10 mutants did not reveal a role for B cell-derived IL-10 in restraining innate TLR or T cell-dependent inflammatory responses. Likewise, mice with selective inactivation of the il10 gene in mast cells exhibited normal CHS responses and unaltered immune response to CpG oligodeoxynucleotides. On the other hand, DC-specific IL-10 mutants developed excessive inflammatory responses to contact allergens, while innate responses to TLR ligands were not altered. This indicates a non-redundant role for DC-derived IL-10 in contact allergy. Thus, the conditional IL-10 ‘‘knockout’’ mice combined with the novel transcriptional IL-10 reporter system can serve as ideal tools to understand the cell-type specific contributions to IL-10-mediated immune regulation. info:eu-repo/classification/ddc/610 ddc:610
110	Assessing Student Perceptions in Short Research Experiences and Course Research Experiences in Undergraduate Biology Laboratories Alberts, Arland Dulcey 08 1900 (has links) This study examined students' perception between short research experiences (SRE) courses and full-semester course research experiences (CRE) using the Persistence in the Sciences (PITS) survey and the interview questionnaire. The study also aimed to correlate the influence of student's demographic as a predictive indicator for Project Ownership Scores (POS) and Quantitative Literacy (QL) score means. The three courses studied at the University of North Texas were Biology for Science Majors Laboratory (BIOL 1760 SRE), Microbiology with Tiny Earth (BIOL 2042 Tiny Earth SRE), and Introductory Biology Research Laboratory I (BIOL 1750 SEA-PHAGES CRE). The mean scores for the PITS categories leaned favorably towards the research component of each laboratory course assessed in this study. The interview questionnaire showed 66% of the students in the SRE courses and 90% of the students in the CRE course preferred the research component of the lab. Paired survey demographic analysis for BIOL 1760 SRE showed significance for the Science Community Values with associate/bachelor's degree. BIOL 1750 SEA-PHAGES CRE showed significance in three of the six categories when comparing means for Project Ownership Emotion, Self-Efficacy, and Science Identity with Gender. Binary logistics was used to build a regression model to predict demographics with approximately 65% to 75% accuracy for each course. When analyzing students' QL score, the demographic category "Ethnicity" showed significance for BIOL 2042 Tiny Earth SRE. Categorizing the correct response into two categories for the QL test scores, the SRE and CRE courses, and analyzing the PITS scores for paired data sets showed that there was significance in the Networking category for the question "I have discussed my research in this course with professors other than my course instructor." The validated PITS, POS, and interview questionnaire could be a tool for use to analyze laboratories at UNT that offer a SRE or CRE component and to understand students' perceptions on the effectiveness of the laboratory. Short Research Experiences (SRE) Course Research Experiences (CRE) Persistence In The Sciences (PITS) Project Ownership Scores (POS) quantitative literacy (QL)

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