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51	Etablierung und Anwendung der Chromatin-Immunopräzipitation für <i>in vivo</i>-Bindungsstudien der bZIP-Transkriptionsfaktoren TGA2.1 und TGA2.2 an Promotoren der Pathogenabwehr in Tabak / Establishment of the chromatin-immunoprecipitation for <i>in vivo</i>-binding studies of the bZIP transcription factors TGA2.1 and TGA2.2 at promotors of the pathogen defense response in tobacco Butterbrodt, Thomas Walter 03 November 2005 (has links) No description available. 570 Biowissenschaften, Biologie Mathematics and Computer Science Chromatin-Immunopräzipitation ChIP Tabak Pathogenabwehr chromatin-immunoprecipitation ChIP tobacco pathogen defense 42.13 WF200
52	Functional analysis of MYB112 transcription factor in the model plant Arabidopsis thaliana / Lotkowska, Magda Ewa January 2014 (has links) Transcription factors (TFs) are ubiquitous gene expression regulators and play essential roles in almost all biological processes. This Ph.D. project is primarily focused on the functional characterisation of MYB112 - a member of the R2R3-MYB TF family from the model plant Arabidopsis thaliana. This gene was selected due to its increased expression during senescence based on previous qRT-PCR expression profiling experiments of 1880 TFs in Arabidopsis leaves at three developmental stages (15 mm leaf, 30 mm leaf and 20% yellowing leaf). MYB112 promoter GUS fusion lines were generated to further investigate the expression pattern of MYB112. Employing transgenic approaches in combination with metabolomics and transcriptomics we demonstrate that MYB112 exerts a major role in regulation of plant flavonoid metabolism. We report enhanced and impaired anthocyanin accumulation in MYB112 overexpressors and MYB112-deficient mutants, respectively. Expression profiling reveals that MYB112 acts as a positive regulator of the transcription factor PAP1 leading to increased anthocyanin biosynthesis, and as a negative regulator of MYB12 and MYB111, which both control flavonol biosynthesis. We also identify MYB112 early responsive genes using a combination of several approaches. These include gene expression profiling (Affymetrix ATH1 micro-arrays and qRT-PCR) and transactivation assays in leaf mesophyll cell protoplasts. We show that MYB112 binds to an 8-bp DNA fragment containing the core sequence (A/T/G)(A/C)CC(A/T)(A/G/T)(A/C)(T/C). By electrophoretic mobility shift assay (EMSA) and chromatin immunoprecipitation coupled to qPCR (ChIP-qPCR) we demonstrate that MYB112 binds in vitro and in vivo to MYB7 and MYB32 promoters revealing them as direct downstream target genes. MYB TFs were previously reported to play an important role in controlling flavonoid biosynthesis in plants. Many factors acting upstream of the anthocyanin biosynthesis pathway show enhanced expression levels during nitrogen limitation, or elevated sucrose content. In addition to the mentioned conditions, other environmental parameters including salinity or high light stress may trigger anthocyanin accumulation. In contrast to several other MYB TFs affecting anthocyanin biosynthesis pathway genes, MYB112 expression is not controlled by nitrogen limitation, or carbon excess, but rather is stimulated by salinity and high light stress. Thus, MYB112 constitutes a previously uncharacterised regulatory factor that modifies anthocyanin accumulation under conditions of abiotic stress. / Transkriptionsfaktoren (TFs) sind ubiquitäre Regulatoren der Genexpression und spielen eine essentielle Rolle in nahezu allen biologischen Prozessen. Diese Doktorarbeit hat vor allem die funktionelle Charakterisierung von MYB112 zum Thema, einem Mitglied der R2R3-MYB-TF-Familie aus der Modellpflanze Arabidopsis thaliana. Ausgesucht wurde das Gen aufgrund seiner erhöhten Expression in seneszenten Blättern, basierend auf vorangegangenen qRT-PCR Expressions-Profiling Experimenten für 1880 TFs in Arabidopsis Blättern aus drei Entwicklungsstadien (15 mm Blatt, 30 mm Blatt und 20 % vergilbtes Blatt). MYB112-Promotor-GUS-Fusionslinien wurden generiert um das Expressionsmuster von MYB112 detailliert zu untersuchen. Unter Zuhilfenahme transgener Ansätze in Kombination mit Metabolomics und Transcriptomics können wir zeigen, dass MYB112 eine wichtige Rolle in der Regulation des pflanzlichen Flavonoid-Metabolismus spielt. In MYB112 Überexpressoren und MYB112-defizienten Mutanten kommt es zu erhöhter bzw. verminderter Anthocyanin-Akkumulation. Expressions-Profiling zeigt, dass MYB112 einerseits als ein positiver Regulator des Transkriptionsfaktors PAP1 fungiert, was zu einer erhöhten Anthocyanin-Biosynthese führt, andererseits als negativer Regulator von MYB12 und MYB111 auftritt, welche beide die Flavonol-Biosynthese kontrollieren. Wir haben früh auf MYB112 reagierende Gene durch eine Kombination verschiedener Ansätze identifiziert. Diese umfassen Genexpressions-Profiling (Affymetrix ATH1 Microarrays und qRT-PCR) und Transaktivierungs-Experimente in Mesophyll-Protoplasten aus Blättern. Wir zeigen, dass MYB112 an eine 8-bp DNA-Fragment, welches die Kernsequenz (A/T/G)(A/C)CC(A/T)(A/G/T)(A/C)(T/C) aufweist. Mit Hilfe von Electrophoretic Mobility Shift Assay (EMSA) und Chromatin-Immunopräzipitation gekoppelt mit qPCR (ChIP-qPCR) zeigen wir, dass MYB112 in vitro und in vivo an die Promotoren von MYB7 und MYB32 bindet was sie damit als direkte Zielgene von MYB112 identifiziert. Es wurde bereits gezeigt, dass MYB TFs eine wichtige Rolle bei der Kontrolle der Flavonoid-Biosynthese in Pflanzen haben. Viele Faktoren, die oberhalb des Anthocyanin-Biosyntheseweges agieren, werden bei Stickstofflimitierung oder erhöhter Saccharose-Konzentration auch verstärkt exprimiert. Außer den erwähnten Bedingungen können auch andere Umweltparameter, wie z. B. erhöhter Salzgehalt und Starklicht zu erhöhter Expression führen. Im Gegensatz jedoch zu einigen anderen MYB TFs, die einen Einfluss auf Gene des Anthocyanin-Biosyntheseweges ausüben, ist die Expression von MYB112 nicht durch Stickstoff-Limitierung oder Kohlenstoffüberfluss kontrolliert, sondern wird durch erhöhten Salzgehalt sowie Starklicht stimuliert. Somit ist MYB112 ein neuer Regulator, der eine Anthocyanin-Akkumulation unter abiotischen Stressbedingungen kontrolliert. Transkriptionsfaktoren Flavonoid-Metabolismus Stress Transaktivierungs-Experimente Chromatin-Immunopräzipitation transcription factors flavonoid biosynthesis stress transactivation assay chromatin immunoprecipitation Life sciences
53	Characterization of CYP2D protein from human brain cerebellum Bhatia, Deepak. January 2004 (has links) Thesis (M.S.)--West Virginia University, 2004 / Title from document title page. Document formatted into pages; contains ix, 49 p. : ill. (some col.). Includes abstract. Includes bibliographical references (p. 41-48).
54	Estudos proteômicos revelam um novo papel da proteína FAK na regulação do splicing do mRNA / Proteomic studies reveals new functions of FAK as regulator of mRNA splicing Cordeiro, Isabelle Bezerra, 1983- 07 March 2014 (has links) Orientador: Kleber Gomes Franchini / Tese (doutorado) - Universidade Estadual de Campinas, Instituto de Biologia / Made available in DSpace on 2018-08-25T14:22:48Z (GMT). No. of bitstreams: 1 Cordeiro_IsabelleBezerra_D.pdf: 17466566 bytes, checksum: de71f83d2b4d3c8e0f0269f5d61d332d (MD5) Previous issue date: 2014 / Resumo: A proteína Focal Adhesion Kinase (FAK; PTK2) participa de vários processos celulares. A identificação das proteínas parceiras de FAK tem contribuído para o entendimento de suas múltiplas funções celulares. Utilizando um sistema de indução de FAK fusionada a uma cauda de FLAG, combinada com análises por espectrometria de massas (MS), identificamos proteínas associadas à FAK em células HEK293. Um total de 153 proteínas foram repetidamente identificadas com alta resolução por experimentos de MS. Além de confirmar interações já previamente descritas como Paxillin (PXN), Heat shock protein Hsp90 (HSP90) e Transforming growth factor beta-1-induced transcript 1 protein (TGF?1I1), as análises por MS revelaram um novo conjunto de proteínas associadas à FAK, incluindo proteínas envolvidas nas vias de síntese de proteínas, expressão gênica, crescimento celular, proliferação, morte e sobrevivência celular. Além disso, análises de bioinformática das vias indicaram que a FAK se associa com um conjunto de 30 proteínas envolvidas com a via de modificação pós-transcricional do RNA, incluindo a proteína Serine/arginine-rich splicing factor 2 (SC-35; SRSF2), que é um marcador de speckles nucleares. Esse conjunto de proteínas está associado ao spliceossomo e um conjunto similar de proteínas também foi identificado com os experimentos que utilizaram somente o domínio FERM da FAK. Validações por Western Blotting e imunocitoquímica demonstraram que FAK se associa e co-localiza com a proteína SC-35 no núcleo celular. Ainda identificamos um papel funcional da FAK no splicing do mRNA. Demonstramos que FAK pode modificar o padrão de splicing de um gene repórter E1A ao ser superexpressa em células HEK. Nosso trabalho propõe novas funções da FAK no núcleo, indicando que esta pode estar envolvida em eventos relacionados à função do RNA, como a regulação do splicing do mRNA / Abstract: Focal adhesion kinase (FAK; PTK2) has roles in many cellular processes. The identification of protein partners for FAK has greatly contributed to our understanding of its multiple function. Using inducible FLAG-tagged FAK combined with affinity/purification mass spectrometry (MS) approach, we identified proteins associated with FAK in HEK293 cells. A total of 153 proteins were repeatedly detected in high-resolution MS measurements. Beyond the well characterized partnering with Paxillin (PXN), Heat Shock protein 90 (HSP90) and Transforming growth factor beta-1-induced transcript 1 protein (TGFB1I1), analysis of MS data uncovered novel sets of proteins that associate with FAK, playing a role in protein synthesis, gene expression, cellular growth, proliferation, death and survival. In addition, the network analysis established the unexpected finding that a module of 30 proteins linked to RNA post-transcriptional modifications are recruited by FAK, including Serine/arginine-rich splicing factor 2 (SC-35; SRSF2), which is a marker of the nuclear speckles. Indeed, this module is found to be enriched by proteins associated with spliceosome. Remarkably, a similar set of proteins was also recruited by FAK N-terminal FERM domain. Biochemical and imunofluorescence validations established that FAK associates and co-localizes with SC-35 protein at the cell nuclei. We further pinpoint a functional role of FAK in mRNA splicing. We showed that FAK can modify the splicing site selection of the adenoviral E1A minigene in a dose-dependent manner. Our work provides new insights into the molecular function of FAK in the nucleus, indicating that it may be involved in events related to RNA function, such as pre-mRNA splicing / Doutorado / Bioquimica / Doutora em Biologia Funcional e Molecular Imunoprecipitação Interatoma Espectrometria de massas Immunoprecipitation Interactome Mass spectrometry Focal adhesion protein-tyrosine kinases
55	A yeast 2-hybrid screen to identify and characterize interaction partners of the cancer associated protein retinoblastoma binding protein 6 Chibi, Moredreck January 2009 (has links) Philosophiae Doctor - PhD / Retinoblastoma binding protein 6 (RBBP6) is a 250 kDa protein that is implicated in mRNA processing and ubiquitination functions and has been shown to be highly up-regulated in a number of cancers. In humans and mice,RBBP6 interacts with both tumour suppressors p53 and pRb, suggesting that it is involved in regulation of transcription, induction of apoptosis and cell cycle control. Knock-out of an RBBP6 homologue PACT resulted in p53 dependent cell cycle arrest and apoptosis. Although the biological functions of RBBP6 remain largely unclear, it is possible that its functions are mediated through interaction with other cellular proteins. Since it is possible to unveil novel functions of a target protein through identifying its interacting protein partners,this study aims to further characterize the functions of RBBP6 through identifying novel protein interacting partners using a yeast 2-hybrid screen.In order to identify interaction partners of RBBP6, two well characterized domains of RBBP6, the N-terminal ubiquitin-like DWNN domain and RING finger domain, were used as baits in a yeast 2-hybrid screen of a human testis cDNA library. Putative interactors were verified using in vitro and in vivo immunoprecipitation assays. The RING finger domain was shown to interact with transcriptional factors Y-Box binding protein 1 (YB-1) and zinc finger and BTB containing protein 38 (zBTB38), resulting in their ubiquitination. In the case of YB-1 ubiquitination was correlated with a decrease in the intra-cellular levels of YB-1, suggesting that ubiquitination leads to degradation in the proteosome. The DWNN domain was shown to interact with a splicing associated small nuclear ribonucleoprotein polypeptide G (snRPG) and heat shock protein 70 (Hsp70).The results of this work suggest that, at least in the case of YB-1 and zBTB38,RBBP6 plays a role in the regulation of gene expression by ubiquitination of transcription factors, causing them to be degraded in the proteosome. The study provides further evidence of RBBP6’s involvement in mRNA splicing through its interaction with snRPG. The interaction with Hsp70 suggests a possible role in protein quality control similar to that played by other E3 ligases such as Parkin and CHIP. Retinoblastoma binding protein 6 Ring finger DWNN Yeast 2-hybrid Ubiquitination MRNA splicing Protein-protein interaction Proteasome Apoptosis, co-immunoprecipitation
56	Identification et régulation transcriptionnelle des gènes cibles du récepteur des minéralocorticoïdes dans les cellules rénales / Identification and Transcriptionnal Regulation of the Mineralocorticoid Recepetor Target Genes in Renal Cells Le Billan, Florian 06 October 2017 (has links) Le récepteur minéralocorticoïde (MR), activé par l’aldostérone, exerce de nombreuses fonctions pléïotropes, notamment au niveau rénal où il régule l’homéostasie hydrosodée. Des dysfonctionnements de la signalisation minéralocorticoïde sont impliqués dans des pathologies majeures chez l’Homme. Dans ce travail, nous avons identifié par ChIP sequencing le premier cistrome du MR dans une lignée cellulaire rénale humaine. La caractérisation des cibles génomiques a permis de décrire l’élément de réponse spécifique du MR, et de démontrer l’existence de deux modes d’action pour le MR : par liaison directe à l’ADN, ou indirecte via la liaison à d’autres facteurs de transcription. Le MR est physiologiquement confronté à une dualité face au récepteur glucocorticoïde (GR) avec lequel il partage un ligand, le cortisol, et des cibles génomiques, dont le gène PER1. Sur ce dernier, les deux récepteurs se distinguent par des recrutements dynamiques et cycliques différents, variants selon l’hormone, et contemporains de celui de partenaires transcriptionnels, régulant ainsi des effets à court ou à long-terme. Enfin, par ChIP en série et en tandem, nous avons montré que le MR et le GR agissent sous forme d’homodimères ou d’hétérodimères.L’identification du cistrome du MR, et la caractérisation de ses mécanismes d’action moléculaires, améliore notre compréhension de la physiopathologie de la signalisation minéralocorticoïde, et pourrait aboutir, notamment par le développement d’antagonistes sélectifs du MR comme la Finérénone, à de nouvelles stratégies thérapeutiques. / The mineralocorticoid receptor (MR), activated by aldosterone, exhibits numerous pleiotropic functions, most notably at the renal level where it regulates electrolytic homeostasis. Dysfunctions in the mineralocorticoid signaling pathway are involved in major diseases in Human. During this work, we have identified by ChIP sequencing the first MR cistrome in a human renal cell lineage. The characterization of the identified genomic targets allowed us to define a specific MR responsive element, and to demonstrate the existence of two transactivation processes for MR: through direct binding to DNA or through indirect interaction via binding to other transcription factors. MR is physiologically confronted with a duality with the glucocorticoid receptor (GR), since they share a common ligand, cortisol, and some of their genomic targets, whose PER1 gene. On the latter, MR and GR are distinguished by different dynamic and cyclical recruitment, varying according to hormone, and coordinated with the one of transcriptional partners, translating into the regulation of short-term and long-term effects. Finally, by serial and tandem ChIP experiment, we have demonstrated that MR and GR act as homodimer and as heterodimer.Identification of new MR genomic targets and characterization of its molecular mechanisms of action, improve our understanding of the pathophysiology of the mineralocorticoid signaling pathway. This could ultimately, notably through the development of selective MR antagonists like Finerenone, lead to new therapeutic strategies. Récepteur Minéralocorticoïde Aldostérone Immunoprécipitation de la chromatine Cistrome Glucocorticoïdes Dynamique transcriptionnelle Mineralocorticoid Receptor Aldosterone Chromatin immunoprecipitation Cistrome Glucocorticoïdes Transcriptional dynamic
57	A yeast 2-hybrid screen to identify and characterize interaction partners of the cancer associated protein Retinoblastoma binding protein 6 Chibi, Moredreck January 2009 (has links) Philosophiae Doctor - PhD / Retinoblastoma binding protein 6 (RBBP6) is a 250 kDa protein that is implicated in mRNA processing and ubiquitination functions and has been shown to be highly up-regulated in a number of cancers. In humans and mice, RBBP6 interacts with both tumour suppressors p53 and pRb, suggesting that it is involved in regulation of transcription, induction of apoptosis and cell cycle control. Knock-out of an RBBP6 homologue PACT resulted in p53 dependent cell cycle arrest and apoptosis. Although the biological functions of RBBP6 remain largely unclear, it is possible that its functions are mediated through interaction with other cellular proteins. Since it is possible to unveil novel functions of a target protein through identifying its interacting protein partners, this study aims to further characterize the functions of RBBP6 through identifying novel protein interacting partners using a yeast 2-hybrid screen. In order to identify interaction partners of RBBP6, two well characterized domains of RBBP6, the N-terminal ubiquitin-like DWNN domain and RING finger domain, were used as baits in a yeast 2-hybrid screen of a human testis cDNA library. Putative interactors were verified using in vitro and in vivo immunoprecipitation assays. The RING finger domain was shown to interact with transcriptional factors V-Box binding protein 1 (YB-1) and zinc finger and BTB containing protein 38 (zBTB38), resulting in their ubiquitination. In the case of YB-1 ubiquitination was correlated with a decrease in the intra-cellular levels of YB-1, suggesting that ubiquitination leads to degradation in the proteosome. The DWNN domain was shown to interact with a splicing associated small nuclear ribonucleoprotein polypeptide G (snRPG) and heat shock protein 70 (Hsp70). The results of this work suggest that, at least in the case of YB-1 and zBTB38, RBBP6 plays a role in the regulation of gene expression by ubiquitination of transcription factors, causing them to be degraded in the proteosome. The study provides further evidence of RBBP6's involvement in mRNA splicing through its interaction with snRPG. The interaction with Hsp70 suggests a possible role in protein quality control similar to that played by other E3 ligases such as Parkin and CHIP. Retinoblastoma binding protein 6 RING finger DWNN Yeast 2- hybrid Ubiquitination mRNA splicing Protein-protein interaction Proteasome Apoptosis Co-immunoprecipitation
58	A Gene-Centered Method For Mapping 3’UTR-RBP Interactions: A Dissertation Tamburino, Alex M. 04 August 2015 (has links) Interactions between 3´ untranslated regions (UTRs) and RNA-binding proteins (RBPs) play critical roles in post-transcriptional gene regulation. Metazoan genomes encode hundreds of RBPs and thousands of 3’ UTRs have been experimentally identified, yet the spectrum of interactions between 3´UTRs and RBPs remains largely unknown. Several methods are available to map these interactions, including protein-centered methods such as RBP immunoprecipitation (RIP) and cross-link immunoprecipitation (CLIP), yeast three-hybrid assays and RNAcompete. However, there is a paucity of RNA-centered approaches for assaying an RNA element of interest against multiple RBPs in a parallel, scalable manner. Here, I present a strategy for delineating protein-RNA interaction networks using a gene centered approach. This approach includes annotating RBPs and identifying physical interactions between an RNA of interest and these RBPs using the Protein-RNA Interaction Mapping Assay (PRIMA). Few RBPs have been experimentally determined in most eukaryotic organisms. Therefore I show that existing RBP annotations can be supplemented using computational predictions of RNA binding domains (RBD) from protein sequences. A single RNA of interest can be tested using PRIMA against a library of RBPs constructed from these annotations. PRIMA utilizes the green fluorescent protein (GFP) in yeast as a reporter. PRIMA is based on reconstitution of the interaction between the 5´ and 3´ ends of an mRNA, which increases mRNA stability and enhances translation. PRIMA recapitulates known and uncovers new interactions involving RBPs from human, Caenorhabditis elegans and bacteriophage with short RNA fragments and full-length 3´UTRs. The development of RBP prey libraries will enable the testing of 3´UTRs against the hundreds of RBPs, which is essential to gain broad insights into post-transcriptional gene regulation at a systems level. 3' Untranslated Regions Caenorhabditis elegans Immunoprecipitation RNA-Binding Proteins Dissertations, UMMS Computational Biology Genetics and Genomics Genomics Molecular Biology Systems Biology
59	Identification of human hair follicle antigens targeted in the presumptive autoimmune hair follicle disorder Alopecia Areata and their potential functional relevance In Vitro. Methods development for isolation and identification of Alopecia Areata-relevant human hair follicle antigens using a proteomics approach and their functional assessment using an Ex Vivo hair follicle organ culture model. Leung, Man Ching January 2008 (has links) Alopecia areata (AA) is a putative autoimmune hair loss disorder. It mainly affects the scalp hair but can also involve body hair, and can also affect the nail and the eye. While there are may be several lines of evidence to support the autoimmune basis of AA, there is still very little information on the hair follicle autoantigen(s) involved in its pathogenesis. In this project, serum antibodies (AA=10, control=10) were used to immunoprecipitate AA-relevant target antigens from normal human scalp hair follicle extracts. These immunoprecipitates were analysed by LC-MALDI-TOF/TOF mass spectrometry for target protein identification. This part of the project involved substantial methods development. Trichohyalin was immunoprecipitated by all AA sera, but by only 5 normal sera. Importantly, the mean Mascot scores of the AA group was significantly higher than the normal group (p=0.005). Keratin 16 was also identified from immunoprecipitates as another potential AA-relevant target antigen. Functional studies by ex vivo whole hair follicle organ culture using commercial antibodies to trichohyalin and keratin 16 significantly inhibited hair fibre elongation compared to controls. Indirect immunofluorescence studies revealed that AA sera contained higher immunoreactivity against normal human scalp anagen hair follicles compared to normal sera. Immunoreactivities were mainly in the outer root sheath and inner root sheath, and less so to the medulla and hair bulb matrix. Double immunofluorescence studies of AA and normal serum with anti-trichohyalin antibody (AE15) revealed co-localisation of 9 of the AA sera antibodies with trichohyalin in the inner root sheath (mostly in Henle¿s, less in Huxley¿s/inner root sheath cuticle), but only weakly in 3 normal sera. This study supports the involvement of an antibody response to anagen-specific hair follicles antigens in AA. Moreover, there may be some evidence that these antibodies may have a pathogenic role. Alopecia areata Hair follicle Trichohyalin Autoantigens Proteomics Tissue culture Immunoprecipitation 2D gel electrophoresis LC-MALDI-TOF/TOF Mass Spectrometry Immunohistochemistry
60	Use of the yeast two-hybrid system to define the function of THAP5 protein Popat, Paiyal V. 01 January 2009 (has links) THAP5 is a protein which was recently isolated in the Zervos Lab as an interactor of a pro-apoptotic protein, Omi/HtrA2. THAP5 is unique because it shares no homology with mouse or rat and can only be found in humans. The only homology it shares with any other protein is its THAP domain. THAP proteins are zinc-dependent sequence specific DNA-binding factors belonging to the zinc-finger family of proteins (2). There are 12 identified members of TIIAP proteins in humans, THAP0-THAP 11. The roles of these THAP proteins include proliferation, apoptosis, cell cycle, chromosome segregation, chromosome modification, and transcriptional regulation (2). The function of THAP5 is still unclear and thus, a Yeast Two-Hybrid experiment will be done to further determine its function. The Yeast Two-Hybrid System is a common molecular biology technique used to identify interactors of a certain protein of interest. By identifying the protein interactors of THAP5 and their functions, it is possible to further determine the function of THAP5. Co immunoprecipitation Molecular Biology

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