Global ETD Search

221	Zur Funktion des Brunol4-Gens / Analysis on the function of the brunol4 gene Ellen, Heike Lucia 24 July 2012 (has links) No description available. 610 Medizin, Gesundheit MED 301 Medicine Brunol4 Celf4 Brunol-Familie Knockout RNA-Bindungsprotein Brunol1 Krampfanfälle Regulation der Expression Alternatives Spleißen Brunol4 Celf4 Brunol family knockout RNA-binding protein Brunol1 seizures regulation of expression alternative splicing 44.48
222	Expression and functional analysis of murine Brunol1 and Brunol4, members of Elav/Bruno family / Expression and functional analysis of Brunol1 and Brunol4 / Expressions- und Funktionsanalysen von murinem Brunol1 und Brunol4, Mitgliedern der elav/Bruno Familie / Expressions- und Funktionsanalysen von murinem Brunol1 und Brunol4 Dev, Arvind 01 November 2006 (has links) No description available. 570 Biowissenschaften Biologie Agricultural Sciences Brunol1 Brunol4 posttranskriptionale Regulation RNA-bindende-Proteine Spermatogenese Knockout-Maus Brunol1 <i>Brunol4 Posttranscriptional regulation RNA binding protein Spermatogenesis Knockout mouse 42.23 W
223	Post-transcriptional control of Drosophila pole plasm component, germ cell-less Moore, Jocelyn. January 2008 (has links) Mechanisms of post-transcriptional control are critical to deploy RNAs and proteins asymmetrically to a discrete region of cytoplasm at the posterior of the Drosophila oocyte and embryo, called the pole plasm and thus allow differentiation of the germline. Research presented in this thesis investigates the post-transcriptional control of Drosophila pole plasm component germ cell-less (gcl ). Maternal gcl activity is required for germ cell specification and gcl RNA and protein accumulate asymmetrically in the pole plasm. gcl RNA, but not Gcl protein, is also detected in somatic regions of the embryo, and ectopic expression of Gcl in the soma causes repression of somatic patterning genes suggesting that gcl RNA is subject to translational control. I find that Gcl is expressed during oogenesis, where its expression is regulated by translational repressor Bruno (Bru). Increased levels of Gcl are observed in the oocyte when Bru is reduced (i.e., in an arrest heterozygote) and Bru overexpression reduces the amount of Gcl. Consistent with this, reduction of the maternal dosage of Bru leads to ectopic Gcl expression in the embryo, which, in turn, causes repression of anterior huckebein RNA expression. Bruno binds directly to the gcl3'UTR in vitro, but surprisingly, this binding is largely independent of a Bruno Response Element (BRE) in the gcl 3'UTR and depends upon a novel site. Furthermore, the gcl BRE-like region is not required to repress Gcl expression during oogenesis or embryogenesis. I concluded that Bru regulates gcl translation in a BRE-independent manner. In addition, I established the role of the gcl 3'UTR in gcl RNA localization and translation using transgenes that replace the endogenous 3'UTR with the alpha-tubulin 3'UTR or place it in tandem to the bicoid 3'UTR. I find that accumulation of gcl RNA in the embryonic pole plasm requires the gcl 3'UTR. Moreover, Gel is restricted to the pole plasm by translational repression mediated by the gcl 3'UTR and a limiting pool of trans-acting translational repressors. The phenotypic consequences of loss of this translational control are relatively mild, suggesting that gcl translation does not require stringent repression in the soma. Drosophila melanogaster -- Embryology. Drosophila melanogaster -- metabolism. Drosophila Proteins -- metabolism. RNA-Binding Proteins -- metabolism. Nuclear Proteins -- metabolism.
224	Étude de l’activité de Staufen1 dans la régulation traductionnelle de certains ARNm Dugré-Brisson, Samuel 12 1900 (has links) Le transport et la traduction localisée des ARN messagers sont observés chez plusieurs organismes et sont requis pour de multiples phénomènes tels la mémoire, la division cellulaire asymétrique et l’établissement des axes durant le développement. Staufen, une protéine liant l’ARN double-brin, a été identifié dans un premier temps chez la mouche à fruits Drosophila melanogaster. Il a été montré, chez cet organisme, que Staufen est requis pour la localisation des messagers bicoid et oskar aux pôles antérieur et postérieur de l’ovocyte, respectivement. Également, Staufen est requis afin que la répression traductionnelle du messager oskar soit levée une fois qu’il est bien localisé. Chez les mammifères, Stau1 est une protéine ubiquiste qui est présente dans des complexes prenant la forme de granules dans les dendrites des neurones. Également, Stau1 peut interagir de façon indépendante de l’ARN avec le ribosome et cofractionner tant avec la sous-unité 40S qu’avec la sous-unité 60S du ribosome dans un gradient de saccharose. L’implication de Stau1 dans un mécanisme permettant la dérépression traductionnelle de certains ARNm chez les mammifères était donc une voie d’investigation intéressante. Nous avons donc décidé de vérifier si Stau1 mammifère avait la capacité de stimuler la traduction d’un ARNm cellulaire via un mécanisme régulé. Au moment où cette thèse a été entreprise, aucun ARNm cellulaire lié par Stau1 n’avait été identifié chez les mammifères. Des structures d’ARN double-brin ont donc été employées afin de réprimer la traduction d’un ARNm rapporteur. C’est ainsi que nous avons montré que Stau1 peut stimuler la traduction d’un ARNm lorsqu’il lie celui-ci dans sa région 5’ non-traduite. Par la suite, en employant des micropuces d’ADN, nous avons identifié des messagers cellulaires dont la distribution dans les polysomes lourds est modifiée par Stau1. En effet, un groupe de messagers est enrichi dans les polysomes lourds suite à une surexpression de Stau1, ce qui suggère que Stau1 stimule la traduction de cette population d’ARNm. Afin d’identifier un mécanisme potentiel de régulation de l’activité traductionnelle de Stau1, nous nous sommes intéressés à la capacité d’auto-association de cette protéine. Nous avons montré que Stau1, tout comme plusieurs protéines liant l’ARN double-brin, est en mesure de s’associer à lui-même, et ce, d’une façon indépendante de l’ARN. Nous avons identifié les déterminants impliqués mettant ainsi au jour un nouveau mécanisme pouvant influencer les activités cellulaires de Stau1. Les résultats présentés dans cette thèse suggèrent donc que Stau1 est en mesure de stimuler la traduction d’une sous-population précise d’ARN messagers au sein de la cellule permettant ainsi de jeter un regard nouveau sur l’implication de cette protéine dans divers phénomènes au sein de l’organisme. / Transport and local translation of RNA are found in several organisms and are required for multiple phenomena such as memory, asymmetric cell division and establishment of the axis during development. Staufen, a double-stranded RNA binding protein, was first identified in Drosophila melanogaster. In the fruitfly, it was shown that Staufen is required for the proper localization of the bicoid and oskar transcripts to the anterior and posterior ends of the oocyte, respectively. It was also found that Staufen is important for the translational derepression of oskar once it is adequately localized. In mammals, Stau1 is a ubiquitous protein found in granules in the dendrites of neurons. Also, Stau1 can bind the ribosome in a RNA-independent manner and cofractionates with both ribosomal subunits in a sucrose gradient. The implication of Stau1 in a mechanism allowing translational derepression of certain RNAs in mammals was therefore an interesting path to explore. Accordingly, we decided to verify if mammalian Stau1 had the capacity to stimulate the translation of cellular RNAs through a regulated mechanism. When this thesis was initiated, no cellular RNA target of Stau1 had been identified in mammals. Therefore, double-stranded RNA structures were used to repress the translation of a reporter mRNA. With this model, we showed that Stau1 can stimulate the translation of a transcript when it is bound to its 5’ UTR. With the use of DNA microarrays, we identified cellular mRNAs which distribution in heavy polysomes was altered by Stau1. When Stau1 is overexpressed, this group of mRNAs is enriched heavy polysomes, suggesting a translational stimulation of this population by Stau1. To identify a regulatory mechanism that could influence Stau1’s translational activity, we studied the self-association capacity of this protein. We showed that Stau1, like several double-stranded RNA binding proteins, can self-associate in a RNA-independent manner. We have identified the determinants required for this interaction that as the potential to be important for the regulation of the cellular activities of Stau1. The results presented in this thesis suggest that Stau1 can stimulate the translation of a specific subset of mRNAs in the cell, letting us look at Stau1’s implication in different processes from a new point of view. Stau1 ARN messager Traduction ARN double-brin Auto-association Domaine de liaison à l'ARN double-brin Messenger RNA Translation Double-stranded RNA Self-Association Double-stranded RNA binding domain
225	PLAGL2 Cooperates in Leukemia Development by Upregulating MPL Expression: A Dissertation Landrette, Sean F. 22 June 2006 (has links) Chromosomal alterations involving the RUNXI or CBFB genes are specifically and recurrently associated with human acute myeloid leukemia (AML). One such chromosomal alteration, a pericentric inversion of chromosome 16, is present in the majority of cases of the AML subtype M4Eo. This inversion joins CBFB with the smooth muscle myosin gene MYH11 creating the fusion CBFB-MYH11. Knock-in studies in the mouse have demonstrated that expression of the protein product of the Cbfb-MYH11fusion, Cbfβ-SMMHC, predisposes mice to AML and that chemical mutagenesis both accelerates and increases the penetrance of the disease (Castilla et al., 1999). However, the mechanism of transformation and the associated collaborating genetic events remain to be resolved. As detailed in Chapter 2, we used retroviral insertional mutagenesis (RIM) to identify mutations in Cbfb-MYH11 chimeric mice that contribute to AML. The genetic screen identified 54 independent candidate cooperating genes including 6 common insertion sites: Plag1, Plagl2, Runx2, H2T23, Pstpip2, and Dok1. Focusing on the 2 members of the Plag family of transcription factors, Chapter 3 presents experiments demonstrating that Plag1 and Plagl2 independently cooperate with Cbfβ-SMMHC in vivo to efficiently trigger leukemia with short latency in the mouse. In addition, Plag1 and PLAGL2 increased proliferation and in vitro cell renewal in Cbfβ-SMMHC hematopoietic progenitors. Furthemore, PLAG1 and PLAGL2 expression was increased in 20% of human AML samples suggesting that PLAG1 and PLAGL2 may also contribute to human AML. Interestingly, PLAGL2was preferentially increased in samples with chromosome 16 inversion, t(8;21), and t(15;17). To define the mechanism by which PLAGL2 contributes to leukemogenesis, Chapter 4 presents studies assessing the role of the Mp1 signaling cascade as a Plagl2 downstream pathway in leukemia development. Using microarray analysis we discovered that PLAGL2 induces the expression of Mp1 transcript in primary bone marrow cells that express Cbfβ-SMMHC and that this induction is maintained in leukemogenesis. We have also performed luciferase assays to confirm that the Mp1 proximal promoter can be directly bound and activated by PLAGL2. Furthermore, we demonstrate increased Mp1 expression leads to hypersensitivity to the Mp1 ligand thrombopoietin (TPO) in PLAGL2/Cbfβ-SMMHC leukemic cells. To test the functional relevance in leukemia formation, we performed a bone-marrow transplantation assay and demonstrate that overexpression of Mp1 is indeed sufficient to cooperate with Cbfβ-SMMHC in leukemia induction. This data reveals that PLAGL2 cooperates with Cbfβ-SMMHC at least in part by inducing the expression of the cytokine receptor Mp1. Thus, we have identified the Mp1 signal transduction pathway as a novel target for therapeutic intervention in AML. human acute myeloid leukemia eukemogenesis PLAGL2 Mpl signaling cascade Leukemia Myelocytic Acute DNA-Binding Proteins Leukemia Myeloid Oncogene Proteins Fusion RNA-Binding Proteins Transcription Factors Cancer Biology Genetic Phenomena Musculoskeletal System Neoplasms Therapeutics Tissues
226	Understanding Assembly of AGO2 RISC: the RNAi enzyme: a Dissertation Matranga, Christian B. 17 September 2007 (has links) In 1990, Richard Jorgensen’s lab initiated a study to test if they could create a more vivid color petunia (Napoli et al. 1990). Their plan was to transform plants with the chalcone synthase transgene––the predicted rate limiting factor in the production of purple pigmentation. Much to their surprise, the transgenic plants, as well as their progeny, displayed a great reduction in pigmentation. This loss of endogenous function was termed “cosuppression” and it was thought that sequence-specific repression resulted from over-expression of the homologous transgene sequence. In 1998, Andrew Fire and Craig Mello described a phenomenon in which double stranded RNA (dsRNA) can trigger silencing of cognate sequences when injected into the nematode, Caenorhabditis elegans (Fire et al. 1998). This data explained observations seen years earlier by other worm researchers, and suggested that repression of pigmentation in plants was caused by a dsRNA-intermediate (Guo and Kemphues 1995; Napoli et al. 1990). The phenomenon––which soon after was coined RNA interference (RNAi)––was soon discovered to be a post-transcriptional surveillance system in plants and animals to remove foreign nucleic acids. RNA Interference MicroRNAs RNA Small Interfering Drosophila Proteins Methyltransferases RNA-Induced Silencing Complex RNA 3' End Processing Plants RNA Helicases RNA-Binding Proteins Amino Acids, Peptides, and Proteins Animal Experimentation and Research Enzymes and Coenzymes
227	Papel do LIN28, uma proteína ligadora de RNAs, na tumorigênese adrenocortical / Role of LIN28, an RNA-binding protein, in adrenocortical tumorigenesis André Murad Faria 08 December 2014 (has links) INTRODUÇÃO: O carcinoma adrenocortical é uma neoplasia rara que carreia um prognóstico reservado. Recentemente, uma série de estudos demonstrou o potencial do perfil de miRNAs na diferenciação entre adenomas e carcinomas adrenocorticais, estratificação de risco e prognóstico. Entretanto, pouco se sabe ainda sobre a regulação pós-transcricional de miRNAs. Nesse contexto, o LIN28 é uma proteína ligadora de RNAs altamente conservada que surgiu como um modulador do let-7, uma importante família de miRNAs amplamente conhecida por seus efeitos supressivos tumorais. Além do let-7, o LIN28 também mostrou regular e ser regulado pelo mir-9, mir-30 e mir-125. OBJETIVOS: Analisar a expressão gênica e proteica do LIN28 em uma grande coorte de tumores adrenocorticais (TACs) de adultos e pediátricos, além de investigar a variação no número de cópias dos genes LIN28A e LIN28B e a expressão dos miRNAs regulatórios do LIN28 (família let-7, mir-9, mir-30 e mir-125) em um subgrupo desta coorte. MÉTODOS: A expressão proteica do LIN28 foi avaliada em um total de 266 TACs de adultos (78 adenomas e 188 carcinomas) e 44 pediátricos (35 clinicamente benignos e 9 clinicamente malignos). A expressão dos genes LIN28A e LIN28B foi avaliada em um subgrupo de 86 TACs adultos e pediátricos e a análise da variação no número de cópias destes genes em 58 TACs. O estudo de expressão das famílias dos miRNAs let-7, mir-9, mir-30 e mir-125 foi realizado em 28 carcinomas adrenocorticais de adultos. RESULTADOS: Em adultos, o gene LIN28A mostrou-se hiperexpresso em carcinomas agressivos quando comparado a adenomas [7,0 (0 a 174,3) vs. 3,6 (0 a 18,3); p = 0,006, respectivamente] e observou-se uma tendência a maior expressão quando comparados a carcinomas não agressivos [7,0 (0 a 174,3) vs. 7,1 (0 a 17,1); p = 0,092]. A expressão do LIN28B foi negativa na grande maioria (92%) dos TACs de adultos. Curiosamente, uma imunorreatividade fraca para o LIN28 foi significativamente associada com diminuição da sobrevida livre de doença nessa população (p = 0,01), mas para sobrevida global apenas uma tendência foi observada (p = 0,117). Na análise multivariada, somente o índice Ki67 >= 10% (RR 5,7, 95% IC 3,0-10,8; p= 0,0001) e imunorreatividade fraca para o LIN28 (RR 2,3, 95% IC 1,2-4,4; p = 0,008) foram preditores independentes de recorrência em adultos. De forma interessante, a expressão do mir-9, um regulador negativo do LIN28A/B, foi significativamente maior em carcinomas agressivos quando comparados a não agressivos [2076 (36 a 9307) vs. 133,4 (2,4 a 5193); p = 0,011] e fortemente associada com a redução da sobrevida global (p = 0,01) e livre de doença (p = 0,01). Na população pediátrica, não se observou diferença significativa entre expressão da proteína LIN28, assim como dos genes LIN28A e mir-9, entre tumores clinicamente benignos e malignos. Nas crianças, a hiperexpressão do LIN28B foi significativamente associada com redução da sobrevida livre de doença (p = 0,026), mas não da sobrevida global (p = 0,406). A análise da variação do número de cópias mostrou que somente uma criança com tumor virilizante benigno apresentou amplificação do LIN28B e uma mulher com carcinoma adrenocortical metastático apresentou deleção do LIN28B. Não houve variação no número de cópias para o gene LIN28A. Um índice de Ki67 >= 20% nas crianças foi capaz de discriminar pacientes com pior prognóstico: houve uma associação significativa tanto com diminuição da sobrevida global (p = 0,015) como da sobrevida livre de doença (p = 0,001) em 36 TACs pediátricos com Weiss >- 3. CONCLUSÕES: A imunorreatividade fraca para o LIN28 foi associada à diminuição da sobrevida livre de doença em uma grande coorte de carcinomas adrenocorticais de adultos. O gene LIN28A teve expressão aumentada em carcinomas agressivos de adultos, sugerindo uma regulação pós-transcricional negativa da expressão proteica do LIN28. A hiperexpressão do mir-9, um regulador negativo do LIN28, mostrou-se um importante preditor de desfecho desfavorável nos adultos. Adicionalmente, a hiperexpressão do gene LIN28B mostrou-se um potencial marcador de mau prognóstico na população pediátrica. Um índice de Ki67 >= 10% em adultos e >= 20% em crianças foram associados a mau prognóstico / INTRODUCTION: Adrenocortical carcinoma is a rare neoplasm with overall poor prognosis. Recently, several studies demonstrated the potential of miRNA profiling in differentiating between adrenocortical adenomas and carcinomas, risk stratification and prognosis. Nevertheless, little is known about posttranscriptional regulation of miRNAs. LIN28 is a highly conserved RNA-binding protein that has emerged as a modulator of the processing of let-7, an important family of miRNAs widely known for its tumor-suppressive effects. Besides from let-7, LIN28 has also shown to regulate and be regulated by mir-9, mir-30 and mir-125. OBJECTIVES: To analyze LIN28 gene and protein expression in a large cohort of adult and pediatric adrenocotical tumors (ACTs), and investigate the copy number variation analysis for LIN28A and LIN28B genes and the expression of LIN28 regulatory microRNAs (let-7 family, mir-9, mir-30 e mir-125) in a subgroup of this cohort. METHODS: LIN28 protein expression was assessed in a total of 266 adult (78 adenomas and 188 carcinomas) and 44 pediatric ACTs (35 clinically benign and 9 clinically malignant). LIN28A and LIN28B gene expression was evaluated in a subgroup of 86 adult and pediatric ACTs and copy number variation analysis of these genes in 58 ACTs. The expression of let-7 family, mir-9, mir-30 and mir-125 was performed in 28 adult carcinomas. RESULTS: In adults, LIN28A gene was overexpressed in aggressive carcinomas when compared with adenomas [7.0 fold change (from 0 to 174.3) vs. 3.6 (from 0 to 18.3); p = 0.006, respectively] and a trend towards greaten expression when compared with non-aggressive carcinomas [7.0 (from 0 to 174.3) vs. 7.1 (from 0 to 17.1); p = 0.092]. LIN28B expression was undetectable in the great majority (92%) of adult ACTs. Surprisingly, weak LIN28 staining was significantly associated with reduced disease-free survival in this population (p = 0.01), but for overall survival only a trend was detectable (p= 0.117). In the multivariate analysis, only Ki67 index >- 10% (HR 5.7, 95% CI 3.0-10.8; p = 0,0001) and weak LIN28 staining (HR 2.3, 95% CI 1.2-4.4; p = 0,008) were independent predictors of recurrence in adult patients. Interestingly, mir-9 expression, a negative LIN28A/B regulator, was significantly higher in aggressive than in non-aggressive ACCs [2076 (from 36 to 9307) vs. 133.4 (from 2.4 to 5193); p = 0.011] and was highly associated with reduced overall survival ( p= 0.01) and disease-free survival (p = 0.01). In the pediatric population, no significant difference was observed in the expression of LIN28 protein and LIN28A and mir-9 gene expression between clinically benign and clinically malignant tumors. Additionally. overexpression of LIN28B was significantly associated with reduced disease-free survival (p = 0.026), but not with overall survival (p = 0.406). Copy number variation analysis showed that only a child with a virilizing benign tumor had LIN28B amplification and a woman with a metastatic adrenocortical carcinoma had LIN28B deletion. No LIN28A copy number variation was detected. A Ki67 >= 20% in children was able to discriminate patient with worse prognosis: there was a significant associtation with reduced overall (p = 0,015) and disease-free survival (p = 0,001) in 36 pediatric ACTs with Weiss >- 3. CONCLUSIONS: Weak LIN28 staining was associated with reduced disease-free survival in a large cohort of adult adrenocortical carcinoma. LIN28A had higher expression in aggressive carcinomas in adults, suggesting there might be negative posttranscriptional regulation of LIN28 protein expression. Interestingly, overexpression of mir-9, a negative LIN28A regulator, predicted poor outcome in adult patients. In addition, LIN28B overexpression was an potential marker of poor prognosis in the pediatric population. A Ki67 index >- 10% in adults and >- 20% in children were associated with poor prognosis Carcinogênese Carcinoma adrenocortical Expressão gênica Marcadores biológicos de tumor MicroRNAs Prognóstico Proteínas de ligação a RNA Proteínas de neoplasias Sobrevida Adrenocortical carcinoma Carcinogenesis Gene expression MicroRNAs Neoplasm proteins Neoplastic regulation of gene expression Prognosis RNA-binding protein Survival Tumor biologic markers
228	Purification of UV cross-linked RNA-protein complexes by phenol-toluol extraction Urdaneta Zurbarán, Erika Cristina 24 April 2020 (has links) RNA-Bindungsproteine spielen Schlüsselfunktionen bei der post-transkriptionellen Regulation der Genexpression. Durch Bindung an RNA steuern sie die RNA-Aufbereitung, den Transport, die Stabilität und die Translation. In den letzten zehn Jahren wurden bedeutende Fortschritte bei der Aufklärung bakterieller post-transkriptioneller Mechanismen erzielt. Es wird immer deutlicher, dass diese Regulierungsebene auch bei der Pathogenese und Antibiotikaresistenz eine wichtige Rolle spielt. Die Analyse von RNA-Protein-Komplexen (RNPs) auf Proteomebene wurde durch die (m)RNA-interactome-capture Technologie vorangetrieben, die den Teil des Proteoms isoliert, welcher mit polyadenylierter (m)RNA vernetzt ist. Dies hat zur Identifizierung von Hunderten von neuen RBPs in einer Vielzahl von eukaryontischen Arten, vom Menschen bis zur Hefe, geführt. Allerdings fehlt die Poly-Adenylierung in der funktionellen RNA von Bakterien und anderen Klassen von -eukaryontischen- regulatorischen RNAs. Ziel dieser Arbeit war es, diese Einschränkung durch die Entwicklung einer neuartigen und unvoreingenommenen Methode zur Aufreinigung von UV-vernetzten RNPs in lebenden Zellen zu überwinden: PTex (Phenol-Toluol-Extraktion). Das Reinigungsprinzip basiert ausschließlich auf den physikalisch-chemischen Eigenschaften von vernetzten RNPs gegenüber ungebundenen Proteinen oder RNA; es ist dabei unparteiisch gegenüber spezifischen RNAs oder Proteinen und ermöglicht somit erstmals eine systemweite Analyse von nicht-poly-(A)-RNA-interagierenden Proteinen sowohl in eukaryontischen (HEK293) als auch in prokaryontischen (Salmonella Typhimurium) Zellen. / RNA binding proteins play key functions in post-transcriptional regulation of gene expression. By binding to RNA, they control RNA editing, transport, stability and translation. In the last decade, significant advances have been made in the elucidation of bacterial post-transcriptional mechanisms. It is becoming increasingly clear that this layer of regulation also plays an important role in pathogenesis and antibiotic resistance. The analysis of RNA-protein complexes (RNPs) at the proteome level has been driven by the (m)RNA interactome capture technology which isolates the proteome cross-linked to poly-adenylated (m)RNA. This has resulted in the identification of hundreds of novel RBPs in a diversity of eukaryotic species ranging from humans to yeast. However, poly-adenylation is absent in functional RNA from bacteria and other classes of -eukaryotic- regulatory RNAs. This work was aimed to overcome that limitation by developing a novel and unbiased method for the purification of UV-cross-linked RNPs in living cells: PTex (Phenol Toluol extraction). The purification principle is solely based on physicochemical properties of cross-linked RNPs versus unbound proteins or RNA, and it is impartial towards specific RNA or proteins; enabling for the first time a system-wide analysis of non-poly(A) RNA interacting proteins in both eukaryotic (HEK293) and prokaryotic (Salmonella Typhimurium) cells. RNA-Bindungsproteine RNA-Proteinkomplexe Organische Phasentrennung Massenspektrometrie Salmonella RNA-binding proteins RNA-protein complexes Organic phase separation Mass spectrometry Salmonella 572 Biochemie 570 Biowissenschaften; Biologie WC 4170 WG 1920 ddc:572 ddc:570
229	Role of CPEB in Senescence and Inflammation: A Dissertation Ivshina, Maria 28 July 2010 (has links) Cytoplasmic polyadenylation element-binding protein (CPEB) is a sequence-specific RNA-binding protein that promotes polyadenylation-induced translation. While a CPEB knockout (KO) mouse is sterile but overtly normal, embryo fibroblasts derived from this mouse (MEFs) do not enter senescence in culture as do wild-type MEFs, but instead are immortal. Exogenous CPEB restores senescence in the KO MEFs and also induces precocious senescence in wild-type MEFs. CPEB cannot stimulate senescence in MEFs lacking the tumor suppressors p53, p19ARF, or p16INK4A; however, the mRNAs encoding these proteins are unlikely targets of CPEB since their expression is the same in wild-type and KO MEFs. Conversely, Ras cannot induce senescence in MEFs lacking CPEB, suggesting that it may lie upstream of CPEB. One target of CPEB regulation is myc mRNA, whose unregulated translation in the KO MEFs may cause them to bypass senescence. Thus, CPEB appears to act as a translational repressor protein to control myc translation and resulting cellular senescence. CPEB is a sequence-specific RNA binding protein that regulates cytoplasmic polyadenylation-induced translation. We report here that CPEB KO mice are hypersensitive to LPS-induced endotoxic shock, which correlates with elevated serum levels of the proinflammatory cytokines IL-6, IL-8 and IL-12. Peritoneal macrophages from the KO mice, as well as a CPEB-depleted macrophage cell line, not only secrete more IL-6 than control cells in response to LPS, but also have prolonged retention of NFϰB in the nucleus, which is responsible for elevated IL-6 transcription. The amount of nuclear NFϰB correlates with reduced levels of IϰBα, which is hyperphosphorylated and rapidly degraded. Collectively, these data suggest that CPEB deficiency enhances the inflammatory response via delayed resolution of NFϰB signaling. Cell Aging RNA-Binding Proteins Repressor Proteins NF-kappa B Inflammation Amino Acids, Peptides, and Proteins Cell and Developmental Biology Cells
230	The Dynamic Fate of the Exon Junction Complex Patton, Robert Dennison 13 November 2020 (has links) No description available. Bioinformatics Biology Biophysics Biostatistics Genetics Molecular Biology Physics exon junction complex EJC CASC3 RNPS1 CLIP-Seq RNA binding proteins UV crosslinking formaldehyde crosslinking ribonucleoproteins splicing spliceosome translation nonsense-mediated mRNA decay NMD

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