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Modulation of hippo pathway by alternative splicing / Modulation de la voie Hippo par épissage alternatifSrivastava, Diwas 25 June 2019 (has links)
La voie Hippo est une voie conservée impliquée dans la croissance des tissus et la suppression de tumeurs. Des études ont démontré son implication dans le développement des cancers chez l'homme. Cette cascade contrôle l'activité du co-activateur transcriptionnel Yorkie (Yki) chez la drosophile et de la protéine YAP (Yes Associated Protein) chez les mammifères. En raison de l'épissage alternatif de leur transcrits, les protéines Yki et YAP existent sous deux isoformes contenant un domaine WW (Yki1/YAP1) ou deux (Yki2/YAP2). Puisque les domaines WW sont essentiels pour l’interaction avec des partenaires spécifiques, l’inclusion alternative de ce domaine dans la protéine Yki/YAP peut remodeler leur réseau d’interaction et donc leur activité. La régulation et les conséquences fonctionnelles de l’épissage alternatif de yki / YAP in vivo sont inconnues.Dans le cadre de ce doctorat, nous avons constaté que la déplétion du facteur d’épissage B52 chez la drosophile réduit l’inclusion de l’exon alternatif dans l’ARNm de yki et favorise l’expression de l’isoforme Yki1 aux dépens de l’isoforme Yki2. La déplétion en B52 dans l'aile réduit la croissance et l'activité de Yki. Nous montrons que l'isoforme Yki1 est une version atténuée de la protéine Yki qui peut entrer en concurrence avec l'isoforme Yki2 dans le noyau. Pour déterminer le rôle de l’épissage alternatif de yki in vivo et l'importance de l'isoforme courte Yki1, nous avons abrogé cet épissage en utilisant la technologie CRISPR/Cas9 et avons créé des mouches capables d'exprimer uniquement l'isoforme Yki2. Ces mouches yki2only sont viables mais présentent un phénotype aléatoire d’ailes asymétriques. Cette augmentation de l'«asymétrie fluctuante», qui traduit une déviation par rapport au développement normal, suggère que l’épissage alternatif de yki est crucial pour la stabilité développementale. Ces résultats mettent en évidence un nouveau niveau de modulation de la voie Hippo via l’épissage alternatif de yki.L'inclusion alternative du deuxième domaine WW est une caractéristique conservée entre Yki et YAP. Cela conforte l'idée que les isoformes Yki1 et YAP1 ont une fonction importante in vivo et que l'épissage alternatif de yki/YAP est un mécanisme conservé de contrôle de la voie Hippo. Cette étude ouvre de nouvelles perspectives pour la modulation de la voie Hippo dans les cellules cancéreuses en modifiant l’épissage alternatif de YAP. / The Hippo pathway is a conserved pathway involved in tissue growth and tumor suppression. Studies have demonstrated its significance in the development of human cancers. This cascade controls the activity of the transcription co-activator Yorkie (Yki) in flies and Yes-associated protein (YAP) in mammals. Due to Alternative Splicing (AS), both Yki and YAP proteins exist as two isoforms containing one (Yki1/YAP1) or two (Yki2/YAP2) WW domains. Since WW domains are essential for interaction with specific partners, the alternative inclusion of this domain in Yki/YAP protein may remodel their interaction network and therefore their activity. The regulation and functional consequences of AS of yki/YAP in vivo are unknown.In this Ph.D. project, we identified that depletion of splicing factor B52 in Drosophila lowers inclusion of the alternative exon in yki mRNAs and favors the expression of Yki1 isoform at the expense of the Yki2 isoform. B52 depletion in the wing reduces growth and Yki activity. We demonstrate that Yki1 isoform is an attenuated version of Yki protein that can compete with Yki2 isoform in the nucleus. To ascertain the role of yki AS in vivo and the importance of short isoform Yki1, we abrogated this splicing by using CRISPR/Cas9 technology and created flies that can express Yki2 isoform only. yki2only flies are viable but display a random phenotype of asymmetric wing size. This rise in “fluctuating asymmetry” that is the consequence of subtle deviation from normal development, suggests that AS of yki is crucial for the development robustness. Taking together, these results highlight a new layer of modulation of Hippo pathway via AS of yki.Alternative inclusion of the second WW domain is a conserved feature between Yki and YAP. This further supports the idea that Yki1 and YAP1 isoforms have an important function in vivo and that AS of yki/YAP is a conserved mechanism of control of the Hippo pathway. This study opens up new perspectives for modulation of the Hippo pathway in cancer cells by altering YAP AS.
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Genomic Organization of the Human Rod Photoreceptor cGMP-Gated Cation Channel β-subunit GeneArdell, Michelle D., Bedsole, D. Lawrence, Schoborg, Robert V., Pittler, Steven J. 21 March 2000 (has links)
We previously reported that the CNGB1 locus encoding the rod photoreceptor cGMP-gated channel β-subunit is complex, comprising non- overlapping transcription units that give rise to at least six transcripts (Ardell, M.D., Aragon, I., Oliveira, L., Porche, G.E., Burke, E., Pittler, S.J., 1996. The beta subunit of human rod photoreceptor cGMP-gated cation channel is generated from a complex transcription unit. FEBS Lett. 389, 213- 218). To further understand the transcriptional regulation of this extraordinarily complex locus, and to develop a screen for defects in the gene in patients with hereditary disease, we determined its genomic organization and DNA sequence. The CNGB1 locus consists of 33 exons, which span approximately 100 kb of genomic DNA on chromosome 16. The β-subunit comprises two domains, an N-terminal glutamic acid-rich segment (GARP), and a C-terminal channel-like portion. Two additional exons encoding a short GARP transcript and a truncated channel-like transcript have been identified. A major transcription start point was identified 79 bp upstream of the initiator ATG. To begin analysis of the basis for the generation of multiple transcripts, and to identify promoters driving expression in retina, approximately 2.5 kb of the upstream region were sequenced. Putative cis- elements, which can bind the retina-specific transcription factors Crx and Erx, were found immediately upstream of the transcription start point, and may be important for gene expression in this tissue. From our analysis, a model is reported to account for at least four of the retinal transcripts.
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Characterizing alternative splicing and long non-coding RNA with high-throughput sequencing technologyZhou, Ao 10 1900 (has links)
Indiana University-Purdue University Indianapolis (IUPUI) / Several experimental methods has been developed for the study of the central
dogma since late 20th century. Protein mass spectrometry and next generation sequencing
(including DNA-Seq and RNA-Seq) forms a triangle of experimental methods,
corresponding to the three vertices of the central dogma, i.e., DNA, RNA and protein.
Numerous RNA sequencing and protein mass spectrometry experiments has been carried
out in attempt to understand how the expression change of known genes affect biological
functions in various of organisms, however, it has been once overlooked that the result
data of these experiments are in fact holograms which also reveals other delicate
biological mechanisms, such as RNA splicing and the expression of long non-coding
RNAs. In this dissertation, we carried out five studies based on high-throughput
sequencing data, in an attempt to understand how RNA splicing and differential
expression of long non-coding RNAs is associated biological functions.
In the first two studies, we identified and characterized 197 stimulant induced and
477 developmentally regulated alternative splicing events from RNA sequencing data. In
the third study, we introduced a method for identifying novel alternative splicing events
that were never documented. In the fourth study, we introduced a method for identifying
known and novel RNA splicing junctions from protein mass spectrometry data. In the
fifth study, we introduced a method for identifying long non-coding RNAs from poly-A
selected RNA sequencing data. Taking advantage of these methods, we turned RNA
sequencing and protein mass spectrometry data into an information gold mine of splicing
and long non-coding RNA activities. / 2019-05-06
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Investigating The Molecular Functions of The Os-Sc106 Spliceosomal Protein Via CRISPR/Cas9 SystemAlhabsi, Abdulrahman 11 1900 (has links)
Plants employ sophisticated molecular machineries to fine-tune their responses to growth, developmental, and stress cues. Plants cellular response influences gene expression through regulating processes like transcription and splicing. To increase the genome coding potential and further regulate the expression, pre-mRNA is alternatively spliced. Serine/Arginine-rich (SR) proteins, a family of pre-mRNA splicing factors, recognize splicing cis-elements and regulate both constitutive and alternative splicing. Recent studies reported only 22 SR proteins encoded in the genome of rice (Oryza sativa), which are classified into 6 subfamilies. Oryza s. SC subfamily 106 kDa (Os-Sc106) locus is homologous to the human SR protein SFSR11 (SRp54). Os-Sc106 contains SR proteins characteristics, and was not included among the rice SR proteins. The clustered regularly interspaced short palindromic repeats (CRISPR) and its associated protein 9 (Cas9) system, an RNA-guided endonuclease complex that introduces a double-strand break (DSB) into the DNA. Innovative scientific advances in genome engineering have made CRISPR/Cas9 an excellent system to conduct functional knockout studies of genes in most biological systems including plants. In this study, I targeted the rice Os-Sc106 locus at exon1, and 3 via CRISPR/Cas9 system. Genotyping analyses revealed the recovery of Os-Sc106 mutants including complete functional knockouts such as sf11h-2, sf11h-8, and sf11h-55. Phenotypic analyses show that Os-Sc106 mutants (sf11h-2, 8, 55, and 57) are oversensitive under abiotic stress in comparison to WT plants, suggesting that Os-Sc106 locus encodes a protein that is important for regulating plant stress responses.
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Alternative splicing of bovine growth hormone pre-mRNA in vitroSun, Qiang January 1995 (has links)
No description available.
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Competition between Alternative Splicing and Polyadenylation Defines the Expression of the <i>OXT6</i> Gene Encoding Two Proteins Involved in mRNA ProcessingLiu, Zhaoyang 10 August 2010 (has links)
No description available.
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BIOINFORMATICS ANALYSIS OF ALTERNATIVE SPLICING IN CHLAMYDOMONAS REINHARDTIIRaj Kumar, Praveen Kumar 13 August 2010 (has links)
No description available.
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Stress-responsive MDM2 alternative splicing: regulation and consequences in oncogenesisJacob, Aishwarya Griselda January 2014 (has links)
No description available.
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Muscle Fiber Hyperplasia in Leg Muscle of Transgenic Quail Overexpressing anAlternative Splicing Variant of MyostatinChen, Paula Renee 31 August 2016 (has links)
No description available.
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Role of Stress-Induced Alternative Splicing of HDM2 in Human Tumor and Non-Tumorigenic Cell LinesDias, Chrisanne Silvia 22 December 2006 (has links)
No description available.
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