Global ETD Search

221	Potential use of the Oncorhynchus mykiss checkpoint proteins Rad1 and Hus1 as genotoxicity biomarkers Bozdarov, Johny 15 December 2010 (has links) Cell-cycle checkpoint proteins help maintain genomic integrity by sensing damaged DNA and initiating DNA repair or apoptosis. Checkpoint protein activation to cell-cycle damaging agents can involve post-translational modifications and these alterations provide a means to determine whether DNA in a cell is damaged or not. Steinmoeller et al. (2009) showed that checkpoint proteins are suitable biomarkers for detecting genotoxins in Oncorhynchus mykiss (rainbow trout). In this project, two evolutionarily conserved checkpoint proteins, Rad1 and Hus1, have been cloned from rainbow trout and antibodies against these proteins were developed. This is the first time that either Rad1 or Hus1 has been characterized in rainbow trout. For rtRad1, it was determined that the open-reading frame was 840bp, which encodes 279aa with a predicted protein size of 31kDa. The rtRad1 amino-acid sequence is highly conserved and contains conserved exonuclease and leucine zipper domains. RT-PCR was used to identify alternatively spliced variants of rtRad1 and it appears that these variants encode different sized Rad1 proteins that are tissue and cell-line specific. A Rad1 splice variant that encodes an 18kDa protein appears to be abundant only in heart tissue and in the RTgill-W1 and RTbrain-W1 cell-lines. A genotoxicity study was completed where RTgill-W1 and RTbrain-W1 cells were treated with bleomycin, which induces double-stranded DNA breaks. In RTgill-W1, levels of an 18kDa Rad1 protein increased in a dose-dependent manner while in RTbrain-W1 the Rad1 levels remained the same. It appears that this 18kDa Rad1 protein may be directly involved in maintaining genomic integrity and shows potential to be used as a genotoxicity biomarker. This is the first time that an isoform of Rad1 has shown to be modified in the presence of a damaging agent. Both Rad1 and Hus1 need to be further characterized to determine their usefulness as genotoxicity biomarkers. genotoxicity biomarker Rad1 Hus1 rainbow trout alternative splicing 9-1-1 complex aquatic toxicology cell-cycle checkpoints Biology
222	Neuroendocrine control of puberty in vertebrates : characteriization of the kisspeptin system in flatfish Mechaly, Alejandro S. 27 June 2011 (has links) The recently discovered decapeptide kisspeptin and its G-protein coupled receptor form a signaling system expressed ubiquitously and are implicated in a variety of still poorly characterized functions. In the brain, kisspeptin is secreted by specific neurons and its receptor is localized in GnRH neurons. Kisspeptin signaling has been fully established in the control of the onset of puberty in vertebrates, from fish to mammals. In this study, we characterized the kisspeptin gene in the Senegalese sole and characterized the kisspeptin receptor genes in both the Senegalese sole and in the Atlantic halibut. In contrast to other fish species, the two species analyzed here showed only the presence of one ligand and one receptor, probably as a consequence of the genome reduction characteristic of Pleuronectiformes. However, in both cases we found an alternative splicing mechanism based on intron retention that produces also non-functional isoforms, but whether this is part of a mechanism to control abundance of the active gene product is still not known. We document spatial and temporal changes of expression of kisspeptin and its receptor in the brain, pituitary and gonads related to the annual reproductive cycle. Finally, we present the first evidence of a possible link between energy balance and reproduction mediated by kisspeptin signaling in a non-mammalian vertebrate. / El recentment descobert decapèptid kisspeptina i el seu receptor associat a una proteïna G formen un sistema que s’expressa ubiqüitament i que està implicat en diverses funcions, moltes de les quals encara no estan ben caracteritzades. En el cervell, la kisspeptina és secretada per neurones específiques, mentre que el seu receptor es troba a les neurones GnRH. Aquest sistema s’ha relacionat amb el control de l’inici de la pubertat en diferents vertebrats, des de peixos fins a mamífers. En aquest estudi, hem caracteritzat el gen de la kisspeptina en el llenguado senegalès, i els gens del receptor de la kisspeptina tant a llenguado senegalès com en l’Halibut de l’Atlàntic. Al contrari del que ocorre en moltes altres espècies de peixos, aquestes dues espècies només presenten un gen pel lligand i un gen pel recep- tor. Aquest fet és probable que estigui relacionat amb la reducció de la mida del genoma que han sofert els Pleuronectiformes. Tot i així, en les dues espècies s’hi troba un mecanisme d’empalmament alternatiu conseqüència d’una retenció intrónica que produeix una isoforma no funcional. Ara bé, si aquest mecanisme està relacionat amb el control de l’abundància dels trànscrits de la isoforma funcional encara està per esbrinar. Per altra banda, hem trobat canvis en l’expressió gènica tant en l’espai com en el temps durant un cicle reproductiu dels gens de la kisspeptina i el seu receptor en el cervell, pituïtària i gònades. Finalment, també presentem la primera evidència, en un vertebrat no mamífer, d’una possible relació entre el balanç energètic i la reproducció controlada pel sistema kisspeptina. Alternative splicing Atlantic halibut Pleuronectiformes Puberty Senegalese sole Expressió gènica Sistema kisspeptina Llenguado senegalès Peixos teleostis Empalmament alternatiu 57
223	An analysis of genetic determinants that govern exon definition and alternative splicing of minute virus of mice (MVM) pre-mRNAs / Gersappe, Anand January 1998 (has links) Thesis (Ph. D.)--University of Missouri--Columbia, 1998. / "July 1998." Typescript. Vita. Includes bibliographical references (leaves 215-225). Also available on the Internet.
224	Small intron definition of MVM pre-mRNAs Haut, Donald David, January 1998 (has links) Thesis (Ph. D.)--University of Missouri--Columbia, 1998. / Typescript. Vita. Includes bibliographical references (leaves: 111-119). Also available on the Internet.
225	The Impact of Abiotic Stress on Alternative Splicing in Lipid Transfer Protein in Marchantia polymorpha Fredén, Linnéa January 2018 (has links) All plants have a protection against the surrounding environment called a cuticle coating. When this cuticle coating is constructed it is believed that the family of protein called lipid transfer proteins (LTPs) is involved. The LTPs are small and cysteine rich. In Marchantia polymorpha the groups of LTPs called LTPd and LTPg can be found. 8 and 4 in each group respectively. In the genes of LTPd there is an intron placed downstream of the start codon. Firstly, a sequence database search was performed and LTPd2 and LTPd3 were chosen for further experiments in this study. Secondly, a control that the intron was present in the samples were done by preforming a PCR reaction of cDNA from isolated RNA taken from untreated Marchantia polymorpha. A gel electrophoresis of the product was also performed. Lastly, the amount of alternative splicing in LTPd2 and LTPd3 from Marchantia polymorpha after treated with cold and dehydration were studied using quantitative PCR. For the qPCR MpACT and the exon of respective gene were used as references. The ΔCt values and the expression fold (2ΔΔCt) calculated from the qPCR results showed that most of the transcript with introns preserved were upregulated after subjected to stress. Only the intron in MpLTPd2 and MpLTPd3 with MpACT as reference showed a small downregulation after the cold treatment. The intron in MpLTPd3 with MpLTPd3s exon as reference didn’t show any difference. None of the intron transcript in any of the genes on the other hand showed any significant difference in the alternative splicing. This could be because of small sample groups when the test was performed. In conclusion, there were no significant difference in intron expression between treated and control samples. Therefore, nothing can be said about the change in alternative splicing in MpLTPds after cold and dehydration treatments. Abiotic stress Marchantia polymorpha alternative splicing intron non-specific lipid transfer proteins drought cold Biochemistry and Molecular Biology Biokemi och molekylärbiologi
226	Desenvolvimento de uma abordagem computacional para a tradução in silico de variantes de splicing detectadas no transcriptoma humano Silva, Raphael Tavares da January 2012 (has links) Submitted by Priscila Nascimento (pnascimento@icict.fiocruz.br) on 2013-03-27T18:14:58Z No. of bitstreams: 1 Raphael_Tavares_da_Silva_BCS_Dissertacao_Aprovada_Definitiva.pdf: 4336076 bytes, checksum: f1085dad138bd375d802492afe1782ff (MD5) / Approved for entry into archive by Priscila Nascimento(pnascimento@icict.fiocruz.br) on 2013-03-27T18:24:55Z (GMT) No. of bitstreams: 1 Raphael_Tavares_da_Silva_BCS_Dissertacao_Aprovada_Definitiva.pdf: 4336076 bytes, checksum: f1085dad138bd375d802492afe1782ff (MD5) / Made available in DSpace on 2013-03-27T18:24:55Z (GMT). No. of bitstreams: 1 Raphael_Tavares_da_Silva_BCS_Dissertacao_Aprovada_Definitiva.pdf: 4336076 bytes, checksum: f1085dad138bd375d802492afe1782ff (MD5) Previous issue date: 2012 / Fundação Oswaldo Cruz. Instituto Oswaldo Cruz. Rio de Janeiro, RJ, Brasil. / Um dos mecanismos capaz de aumentar a diversidade do proteoma de eucariotos é o splicing alternativo nos pré-mRNAs. Este mecanismo celular ocorre durante a transcrição dos genes, sendo ocasionado por um ou mais dos seguintes eventos: retenção de íntrons, uso alternativo de sítio de splice 5', uso alternativo de sítio de splice 3' e uso alternativo de éxons. Análises recentes de Bioinformática utilizando experimentos de RNA-Seq mostram que aproximadamente 90% dos genes humanos produzem mais de um transcrito decorrente de eventos de splicing alternativo. O impacto do splicing alternativo no proteoma humano vem sendo alvo de algumas abordagens de Bioinformática, sendo esperado que uma grande porção de tais transcritos alternativos possa alterar o conteúdo da cadeia polipeptídica obtida após a sua tradução. Devido à sua importância, diversos trabalhos já foram desenvolvidos com o objetivo de facilitar a identificação de eventos de splicing alternativo a partir de dados provenientes de cDNA, bem como sua associação com a estrutura das proteínas de suas isoformas. Entretanto, são poucas as abordagens que realizaram a tradução in silico do transcriptoma humano na busca por variantes de splicing e a utilização de dados oriundos de sequenciadores de segunda geração (NGS) ainda é muito pouco explorada para tratar do tema. Desta maneira, o presente projeto tem como objetivo a aplicação de uma nova abordagem para a identificação e tradução de variantes de splicing alternativo usando dados de NGS. Foram utilizadas leituras da plataforma de sequenciamento Roche/454 oriundas de estudos de câncer para um enriquecimento de nosso banco de dados original que continha previamente mRNAs completos e ESTs. Após o enriquecimento, a metodologia empregada pelo nosso grupo conseguiu detectar 4.574 variantes de splicing inéditas em nosso banco. O novo banco gerado foi traduzido levando a criação de um repertório proteico contendo 159.638 sequências polipeptídicas não redundantes. Na busca por variantes inéditas utilizando dados de proteômica, foram identificadas três possíveis nos genes humanos tubulina 2b, tubulina 4b e actina. Dados de sequenciamento da plataforma Illumina também foram utilizados para uma avaliação da sua contribuição em número de variantes e sequências polipeptídicas traduzidas em nosso repertório. Encontramos que a nossa abordagem foi capaz de anotar 53% mais sequências polipeptídicas quando comparada ao repertório de ENSEMBL Gene. Desta forma, acreditamos que o presente projeto pode auxiliar no melhoramento da anotação de peptídeos encontrados por técnicas de proteômica, bem como no descobrimento de novos marcadores moleculares. / Alternative splicing of pre-mRNAs is one of the mechanisms capable to increase the proteome diversity in eukaryotes. This cellular mechanism occurs during the transcription of genes and is associated with one or more of the following events: intron retention, 5’ alternative splice, 3’ alternative splice and exon skipping. Recent Bioinformatics analysis using RNA-Seq experiments showed that approximately 90% of human genes produce more than one transcript due to alternative splicing events. The impact of alternative splicing in the human proteome has been the focus of some Bioinformatics approaches and is expected that the majority part of these alternative transcripts can alter the polypeptide chain produced after its translation. Due to its importance, many studies have been developed focused on facilitating the identification of alternative splicing events based on cDNA data, as well as to study the protein structure of its isoforms. However, few studies performed the in silico translation of the human transcriptome to search for new splicing isoforms using Next Generation Sequencing (NGS) data. In this way, our project aims to the development of a new approach to identify and translate alternative splicing isoforms using NGS data. Roche/454 reads of cancer studies were used to enrich our initial database, which was previously populated with full-length mRNAs and ESTs data. After the enrichment step, the methodology developed by our group could detect 4,574 new splicing variants in our database. The enriched database was translated, producing a protein repository with 159,638 non-redundant polypeptide sequences. Searching for new isoforms using experimental proteomic data, three possible new isoforms were identified for the human genes tubulin 2b, tubulin 4b and actin. Illumina sequencing data was used to assess its contribution for the number of new isoforms and the translated polypeptide sequences on our database. We realized that our approach was capable to annotate 53% more polypeptide sequences when compared with the ENSEMBL Gene repository. In this way, we believe that our project can support the improvement of peptide annotation found by proteomic techniques, as well as to discover new molecular markers. Processamento Alternativo Biologia Computacional Transcriptoma Proteômica Alternative Splicing Computational Biology Transcriptome Proteomics Processamento Alternativo Biologia Computacional Transcriptoma Proteômica
227	Identificação e análise de expressão de RNAs intrônicos não codificadores humanos / Identification and expression analysis of human intronic noncoding RNAs Helder Takashi Imoto Nakaya 09 March 2007 (has links) Neste trabalho, nós mostramos estudos em larga-escala de RNAs não codificadores antisenso que são transcritos em regiões intrônicas de genes humanos. Alguns destes transcritos intrônicos possuem níveis de expressão correlacionados ao grau de diferenciação tumoral de câncer de próstata, apontando para uma relevância biológica destas mensagens em doenças complexas como o câncer. Nós também avaliamos a existência de um mecanismo comum de regulação de transcrição, compartilhado por mRNAs codificadores de proteína e RNAs intrônicos, através de análises de perfis de expressão de uma linhagem tumoral de próstata estimulada por andrógeno. A análise de ESTs e mRNAs depositados em bancos públicos de seqüências revelou mais de 55 mil RNAs Totalmente Intrônicos Não-codificadores (TIN), transcritos dos íntrons de 74% de todos os genes RefSeq únicos. Guiados por esta informação, nós desenhamos uma plataforma de oligonucleotídeos contendo sondas senso e antisenso para cada um de 7.520 transcritos TIN selecionados aleatoriamente, além de sondas para os genes codificadores de proteína correspondentes. Nós identificamos assinaturas intrônicas e exônicas de expressão tecido-específicas em fígado, próstata e rim. Os RNAs TIN antisenso mais altamente expressos eram transcritos de íntrons de genes codificadores de proteína enriquecidos na categoria ?Regulação da transcrição?. A inibição da RNA Polimerase II resultou num aumento de expressão de uma fração dos RNAs intrônicos em células em cultura, sugerindo que outras RNA Polimerases possam estar envolvidas em sua biossíntese. Um subconjunto das assinaturas intrônicas e exônicas localizadas nos mesmos loci genômicos possuíram padrões de expressão correlacionados, sugerindo que RNAs intrônicos regulem a abundância ou o padrão de uso de éxons de mensagens codificadoras de proteína. Nós identificamos diversos padrões de expressão de RNAs intrônicos, indicando que eles possam ter papéis regulatórios. Esta estratégia orientada pelo gene, que combina um microarray intrônico/exônico deve permitir análises comparativas futuras de transcrição intrônica sob várias condições fisiológicas e patológicas, avançando assim em nosso conhecimento sobre as funções biológicas destes RNAs não codificadores. / In this work, we show large-scale studies of antisense noncoding RNAs transcribed from intronic regions of human genes. The correlation of expression levels of some intronic transcripts to the degree of tumor differentiation in prostate cancer points to the biological relevance of these messages in complex diseases such as cancer. We also evaluated the existence of a common mechanism of regulation of transcription shared by protein-coding mRNAs and intronic RNAs by measuring the effect of androgen on the transcriptional profile of a prostate cancer cell line. Survey of mRNA and EST public databases revealed more than 55,000 Totally Intronic Noncoding (TIN) RNAs transcribed from the introns of 74% of all unique RefSeq genes. Guided by this information, we designed an oligoarray platform containing sense and antisense probes for each of 7,520 randomly-selected TIN transcripts plus probes for the corresponding protein-coding genes. We identified exonic and intronic tissue-specific expression signatures for human liver, prostate and kidney. The most highly expressed antisense TIN RNAs were transcribed from introns of proteincoding genes enriched in the \"Regulation of transcription\" class. RNA Polymerase II inhibition resulted in increased expression of a fraction of the intronic RNAs in cell cultures, suggesting that other RNA polymerases may be involved in their biosynthesis. A subset of intronic and protein-coding signatures transcribed from the same genomic loci has correlated expression patterns, suggesting that intronic RNAs regulate the abundance or the pattern of exon usage in protein-coding messages. We have identified diverse intronic RNA expression patterns, indicating that they may have regulatory roles. This gene-oriented approach, using a combined intronic/exonic microarray should permit further comparative analysis of intronic transcription under various physiological and pathological conditions, thus advancing current knowledge about the biological functions of these noncoding RNAs. alfa- amanitina Andrógeno Expressão gênica Genomas Microarrays RNA Splicing alternativo Transcriptoma Alpha-amanitin Alternative splicing Androgen Microarrays RNA Transcriptome
228	Caracterização do relógio biológico e seu impacto no metabolismo da cana-de-açúcar / Characterization of the circadian clock and its impact on sugarcane metabolism Luíza Lane de Barros Dantas 10 April 2017 (has links) O relógio biológico é um mecanismo molecular autossustentado gerador de ritmos. Ele integra vias de percepção das condições ambientais com um oscilador central para gerar respostas fisiológicas rítmicas em escalas diária e sazonal. Nas plantas, o relógio biológico está associado a vias metabólicas e fisiológicas importantes, como fotossíntese. Na cana-de-açúcar, uma gramínea de grande interesse econômico, estudos realizados em condições circadianas mostraram que o relógio biológico tem uma influência superior àquela vista em outras plantas. Assim, este trabalho visa a compreender os mecanismos de funcionamento do oscilador central do relógio biológico da cana-de-açúcar crescida em campo. Para tanto, foram investigados o transcriptoma de diferentes órgãos da cana-de-açúcar; a expressão de isoformas alternativas e de múltiplos alelos dos genes do relógio biológico da cana; e o efeito do sombreamento mútuo das plantas em campo sobre o funcionamento do relógio biológico. Os resultados obtidos sugerem que o relógio biológico é funcional e sincronizado entre os diferentes órgãos da cana-de-açúcar analisados. Os transcritos regulados sinergicamente pelo relógio biológico e pelo ambiente flutuante pertencem a vias metabólicas, fisiológicas e de regulação gênica e epigenéticas todas essenciais à produtividade da cana-de-açúcar. O sombreamento mútuo observado em campo parece alterar a fase de expressão de genes do relógio biológico da cana-de-açúcar. Além disso, eventos de splicing alternativo foram observados nos genes do relógio biológico em condições de baixa temperatura e múltiplos alelos dos genes do relógio biológico são expressos e a regulação de sua expressão parece ser sazonal. / The circadian clock is a self-sustaining molecular mechanism that generates rhythms. It perceives the environmental conditions and connects this pathway with its central oscillator, generating daily and seasonal rhythms of physiological responses. In plants, the circadian clock is associated with major metabolic and physiological pathways. In sugarcane, an economically important grass, previous studies showed that the circadian clock has the largest influence on plants seen so far under circadian conditions. This work aims to understand how the central oscillator of the circadian clock works in field-grown sugarcane. Thus, the transcriptome from different sugarcane organs; the expression of alternative isoforms and multiple alleles of circadian clock genes; and the effect of mutual shading in the field on the circadian clock function were analyzed. The results suggest that there is a functional and synchronized circadian clock in the different sugarcane organs. The transcripts regulated synergistically by the circadian clock and the variable environment are related to metabolic, physiological, genetic or epigenetic pathways, all important to sugarcane productivity. Mutual shading observed in the field seems to change the phase of expression of the sugarcane circadian clock. Besides, alternative splicing events have been reported for circadian clock genes under low temperature conditions and multiple alleles of circadian clock genes are expressed and their expression is likely to be seasonally regulated. Aelos Cana-de-açúcar Relógio biológico Sombreamento Splicing alternativo Transcriptoma Alleles Alternative splicing Circadian clock Shading Sugarcane Transcriptome
229	Analysis and Modulation of PACT, DICER and MBNL1 in the Context of Myotonic Dystrophy Type I Azimi, Mehrdad January 2016 (has links) Myotonic Dystrophy Type I (DM1) is a multi-systemic genetic neuromuscular degenerative disease, has a prevalence in most populations of about 1:8000 and is caused by the nuclear retention of pathogenically expanded DMPK mRNA. A previous DM1 RNAi-kinome screen in our lab has identified kinases that reduced both count and area of DMPK mRNA foci in vitro. One such discovered kinase is PACT, which has showed to decrease foci count and area in DM1 fibroblasts by 30-50%. This study explored PACT as well as binding partner DICER involved in cellular RNA processing machinery, to highlight potential therapeutic targets in DM1. DM1 fibroblasts treated with PACT siRNA showed a non-significant trend of upregulation in MBNL1 mRNA and protein expression. PACT knockdown also showed trend of missplicing normalization in SERCA-1, more prominently seen in DM1-2000 human fibroblasts, whereas IR (insulin receptor) splicing remained unaffected. On the other hand, DICER knockdown did not have profound affect on foci integrity as well as MBNL1 RNA and protein xpressions in DM1 fibroblasts. SERCA-1 splicing in DICER siRNA treated samples also remained unchanged. We report here our findings in pursuit of potential therapeutic targets for the treatment of DM1. Myotonic Dystrophy Type I DM1 PACT DICER TRBP miRNA PKR Alternative splicing Nuclear foci MBNL1 DMPK SERCA1 Insulin receptor RISC
230	Caractérisation de nouvelles fonctions du facteur d’épissage B52 dans la transcription et la croissance cellulaire chez la drosophile / Characterization of new functions of the splicing factor B52 in transcription and cell growth in Drosophila melanogaster Fernando, Céline 08 December 2011 (has links) Les protéines SR, qui constituent une famille conservée de facteurs liant l'ARN, jouent un rôle majeur dans l'épissage des ARN et en particulier dans la régulation de l'épissage alternatif. Certaines protéines SR peuvent également participer à l'élongation de la transcription, l'export, la stabilité ou la traduction des ARNm. Ces différents rôles soulignent l'importance des protéines SR en tant que régulateurs clés du métabolisme des ARNm et de l'expression des gènes. Des altérations de leur quantité ou de leur activité peuvent induire des défauts développementaux ou des pathologies telles que des tumeurs. Afin de mieux comprendre les fonctions et les mécanismes de régulation des protéines SR in vivo, je me suis intéressée à la protéine SR B52 chez D. melanogaster. En réalisant un crible génétique, nous avons identifié des protéines capables de sauver les phénotypes induits par la surexpression de B52 in vivo. L'une de ces protéines est l'ADN Topoisomérase I (Topo I). La Topo I possède à la fois une activité topoisomérase impliquée dans la relaxation de l'ADN, et une activité kinase capable de phosphoryler les protéines SR. Nous avons montré que B52 est impliquée dans le recrutement de la Topo I aux sites actifs de transcription, en particulier lors de l'induction des gènes heat shock, et que ces protéines jouent un rôle dans la libération de l'ARN hsp70 de son site de transcription et dans l'extinction de sa transcription. Une autre protéine capable de sauver les phénotypes induits par la surexpression de B52 est Brain tumor, un répresseur post-transcriptionnel de l'expression de myc. Myc est un régulateur clé de la croissance chez la drosophile. Nos résultats révèlent un effet positif de B52 sur la croissance cellulaire dans certains tissus, et sur l'expression de dmyc. Nous montrons également que le niveau de B52 affecte l'épissage alternatif de plusieurs gènes impliqués dans la croissance, dont le coactivateur transcriptionnel Yorkie et le facteur d'initiation de la traduction eIF4E. Ainsi, nos travaux suggèrent que la protéine SR B52 pourrait coordonner un ensemble d'évènements d'épissage dans des voies de signalisation impliquées dans la croissance cellulaire. / SR proteins, which constitute a conserved family of RNA-binding factors, play a key role in RNA splicing and particularly in alternative splicing regulation. In addition, some SR proteins have been shown to participate in transcription elongation, mRNA export, mRNA stability and mRNA translation. These wide-ranging roles of SR proteins highlight their importance as pivotal regulators of mRNA metabolism and gene expression. Alteration of their expression level or activity can induce developmental defects or pathologies such as tumors. To better understand SR proteins functions and how they are regulated in vivo, I studied a major SR protein in Drosophila melanogaster called B52. Using a genetic screen, we identified proteins that can rescue the phenotypes induced by B52 overexpression. Among them is the DNA Topoisomerase I (Topo I). Topo I carries two enzymatic activities: a topoisomerase activity that can relax DNA supercoiling generated by transcription or replication, and a kinase activity which phosphorylates SR proteins. We showed that B52 is required for Topo I recruitment to active transcription sites, especially at the heat shock genes upon their induction, and that these proteins play a role in hsp70 mRNA release from its transcription site and in its transcription shutdown. Another protein that can rescue the phenotypes induced by B52 overexpression is Brain tumor, a post-transcriptional repressor of myc expression. Myc is a major regulator of cell growth in Drosophila. Our results reveal a positive effect of B52 on cell growth in some tissues, and on myc expression. We also show that B52 level can affect the alternative splicing of several genes involved in cell growth, especially that of the transcriptional coactivator Yorkie and the translation initiation factor eIF4E. Thus, our work suggests that the SR protein B52 could coordinate a range of splicing events in signalling pathways involved in cell growth. Protéines SR Épissage alternatif Drosophile Topoisomérase I Croissance cellulaire SR proteins Alternative splicing Drosophila melanogaster Topoisomerase I Cell growth

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