Global ETD Search

181	Role of post-transcriptional regulation in human liver Chaturvedi, Praneet 11 February 2015 (has links) Indiana University-Purdue University Indianapolis (IUPUI) / My thesis comprises of two individual projects which revolve around the importance of post-transcriptional regulation in liver. My first project is studying the integrated miRNA – mRNA network in NAFLD. For fulfillment of the study we conducted a genome-wide study to identify microRNAs (miRs) as well as the miR-mRNA regulatory network associated with hepatic fat and NAFLD. Hepatic fat content (HFC), miR and mRNA expression were assessed in 73 human liver samples. Liver histology of 49 samples was further characterized into normal (n=33) and NAFLD (n=16). Liver miRNome and transcriptome were significantly associated with HFC and utilized to (a) build miR-mRNA association networks in NAFLD and normal livers separately based on the potential miR-mRNA targeting and (b) conduct pathway enrichment analyses. We identified 62 miRs significantly correlated with HFC (p < 0.05 with q < 0.15), with miR-518b and miR-19b being most positively and negatively correlated with HFC, respectively (p < 0.008 for both). Integrated network analysis showed that six miRs (miRs-30b, 612, 17, 129-5p, 204 and 20a) controlled ~ 70% of 151 HFC-associated mRNAs (p < 0.001 with q < 0.005). Pathway analyses of these HFC-associated mRNA revealed their key effect (p<0.05) in inflammation pathways and lipid metabolism. Further, significant (p<2.47e-4, Wilcoxon test) reduction in degree of negative associations for HFC-associated miRs with HFC-associated mRNAs was observed in NAFLD as compared to normal livers, strongly suggesting highly dysfunctional miR-mRNA post-transcriptional regulatory network in NAFLD. Our study makes several novel observations which provide clues to better understand the pathogenesis and potential treatment targets of NAFLD. My second project is based on uncovering important players of post-transcriptional regulation (RBPs) and how they are associated with age and gender during healthy liver development. For this study, we performed an association analysis focusing on the expression changes of 1344 RNA Binding proteins (RBPs) as a function of age and gender in human liver. We identify 88 and 45 RBPs to be significantly associated with age and gender respectively. Experimental verification of several of the predicted associations in the mouse model confirmed our findings. Our results suggest that a small fraction of the gender-associated RBPs (~40%) are likely to be up-regulated in males. Altogether, these observations show that several of these RBPs are important developmentally conserved regulators. Further analysis of the protein interaction network of RBPs associated with age and gender based on the centrality measures like degree, betweenness and closeness revealed that several of these RBPs might be prominent players in liver development and impart gender specific alterations in gene expression via the formation of protein complexes. Indeed, both age and gender-associated RBPs in liver were found to show significantly higher clustering coefficients and network centrality measures compared to non-associated RBPs. The compendium of RBPs and this study will help us gain insight into the role of post-transcriptional regulatory molecules in aging and gender specific expression of genes. Post-transcriptional regulation Liver NAFLD RBP- RNA binding proteins miRNA - microRNA Small interfering RNA Gene silencing Non-coding RNA Messenger RNA RNA RNA-protein interactions Protein binding Fatty liver Fatty liver -- Etiology
182	Biotechnological Application of Potyvirus-Based Vectors in Cucurbit Plants Houhou, Fakhreddine 29 November 2021 (has links) [ES] Hoy en día, los virus de las plantas no sólo se perciben como patógenos, sino que también son capaces de establecer una asociación beneficiosa con sus huéspedes y colaborar desde un punto de vista biotecnológico. El virus, como vector, puede ser una herramienta para introducir genes heterólogos en la planta, que se procesarán junto con la información viral y producirán valiosas proteínas recombinantes, metabolitos o nanopartículas. Los vectores virales también son capaces de interferir con la maquinaria de silenciamiento de la planta dando prioridad a los genes virales. Los potyvirus son virus de ARN de plantas, que codifican principalmente una poliproteína con unas diez proteínas maduras con diferentes funciones, de las cuales las responsables de la supresión del silenciamiento son la proteína componente auxiliar (HC-Pro) y la proteína viral ligada al genoma (VPg). En la primera parte de este trabajo, utilizamos un aislado suave del virus del mosaico de la sandía (WMV; género Potyvirus, familia Potyviridae) para construir un vector para el silenciamiento génico inducido por virus (VIGS) en plantas de melón. Utilizando este virus como vector, expresamos un fragmento de ARNm de la Fitoeno desaturasa (PDS) de melón en las modalidades sentido, antisentido y horquilla para investigar el efecto de la construcción viral en el silenciamiento génico. Los resultados mostraron una expresión estable del fragmento de secuencia insertado en la planta en ambas orientaciones, sentido y antisentido, mientras que en la modalidad de horquilla el inserto se perdió pronto. Sin embargo, las tres construcciones indujeron el silenciamiento del gen PDS endógeno. Se confirmó la utilidad del WMV para el análisis genético inverso en melón expresando un fragmento de la subunidad I de la quelatasa de magnesio (CHLI). En general, nuestros resultados apoyaron que el vector WMV es útil para aplicar la tecnología VIGS en melón y, posiblemente, en otras cucurbitáceas. En la segunda parte de este trabajo, con el objetivo de fortificar las frutas comestibles con metabolitos promotores de la salud, se utilizó un vector de ARN viral derivado del virus del mosaico amarillo del calabacín (ZYMV; género Potyvirus, familia Potyviridae) para expresar una fitoeno sintasa bacteriana (crtB) en los frutos del calabacín (Cucurbita pepo L.). Esta enzima cataliza el primer paso de la biosíntesis de carotenoides. La expresión de la crtB mediada por el ZYMV dio lugar a la sobreacumulación de una serie de metabolitos de carotenoides y tocoferoles, concretamente α- y β-caroteno (provitamina A), luteína y fitoeno, así como α- y γ-tocoferol (vitamina E), tanto en la piel como en la pulpa del calabacín. Este resultado ilustra cómo se pueden enriquecer metabólicamente las frutas comestibles utilizando vectores virales sin modificar el genoma de la planta. / [CA] A dia de hui, els virus de les plantes no sols es perceben com a patògens, sinó que també són capaços d'establir una associació beneficiosa amb els seus hostes i col·laborar des d'un punt de vista biotecnològic. El virus, com a vector, pot ser una eina per a introduir gens heteròlegs en la planta, que es processaran juntament amb la informació viral i produiran valuoses proteïnes recombinants, metabòlits o nanopartícules. Els vectors virals també són capaços d'interferir amb la maquinària de silenciament de la planta donant prioritat als gens virals. Els potyvirus són virus d'ARN de plantes, que codifiquen principalment una poliproteïna d'unes deu proteïnes madures amb diferents funcions, de les quals les responsables de la supressió del silenciament són la proteïna component auxiliar (HC-Pro) i la proteïna viral lligada al genoma (VPg). En la primera part d'aquest treball, utilitzem un aïllat suau del virus del mosaic del meló d'Alger (WMV; gènere Potyvirus, família Potyviridae) per a construir un vector per al silenciament gènic induït per virus (VIGS) en plantes de meló. Utilitzant aquest virus com a vector, expressem un fragment d'ARNm de la Fitoeno desaturasa (PDS) del meló en les modalitats de sentit, antisentit i forqueta per a investigar l'efecte de la construcció viral en el silenciament gènic. Els resultats van mostrar una expressió estable del fragment de seqüència inserit en la planta en totes dues orientacions, sentit i antisentit, mentre que en la modalitat de forqueta l'inserit es va perdre prompte. No obstant això, les tres construccions van induir el silenciament del gen PDS endogen. Es va confirmar la utilitat de la WMV per a l'anàlisi genètica inversa en meló expressant un fragment de la Subunitat I de la quelatasa de magnesi (CHLI). En general, els nostres resultats van secundar que el vector WMV és útil per a aplicar la tecnologia VIGS en meló i, possiblement, en altres cucurbitáceas. En la segona part d'aquest treball, amb l'objectiu de fortificar les fruites comestibles amb metabòlits promotors de la salut, es va utilitzar un vector d'ARN viral derivat del virus del mosaic groc de la carabasseta (ZYMV; gènere Potyvirus, família Potyviridae) per a expressar una fitoeno sintasa bacteriana (crtB) en els fruits de la carabasseta (Cucurbita pepo L.). Aquest enzim catalitza el primer pas compromés de la biosíntesi de carotenoides. L'expressió de la crtB mediada pel ZYMV va donar lloc a la sobreacumulación d'una sèrie de metabòlits de carotenoides i tocoferoles, concretament α- i β caroté (provitamina A), luteïna i fitoeno, així com α- i γ--tocoferol (vitamina E), tant en la pell com en la polpa de la carabasseta. Aquest resultat il·lustra com es poden enriquir metabólicamente les fruites comestibles utilitzant vectors virals sense modificar el genoma de la planta. / [EN] Nowadays, plant viruses are not only perceived as pathogens, but also able to build a beneficial partnership with their hosts and co-work together from a biotechnological view. The virus, as a vector, can be a tool to introduce heterologous genes into the plant, which will process together with the viral information and produce valuable recombinant proteins, metabolites or nanoparticles. Viral vectors are also able to interfere with plant silencing machinery giving priority to the viral genes. Potyviruses are plant RNA viruses, mainly encoding a polyprotein of about ten mature proteins with different functions, from which the responsible of silencing suppression are helper-component proteinase (HC-Pro) and the viral protein genome-linked (VPg). In the first part of this work, we used a mild isolate of Watermelon mosaic virus (WMV; genus Potyvirus, family Potyviridae) to build a vector for virus induced gene silencing (VIGS) in melon plants. Using this virus as a vector, we expressed a fragment of melon Phytoene desaturase (PDS) mRNA in sense, antisense, and hairpin modalities to investigate the effect of the viral construct on gene silencing. The results showed a stable expression of the inserted sequence fragment in the plant in both sense and antisense orientations, whereas in the hairpin modality the insert was soon lost. Yet, all three constructs induced silencing of the endogenous PDS gene. The usefulness of the WMV for reverse genetic analysis in melon was confirmed expressing a fragment of Magnesium chelatase subunit I (CHLI). Overall, our results supported that the WMV vector is useful to apply the VIGS technology in melon and, possibly, other cucurbits. In the second part of this work, with the aim to fortify edible fruits with health promoting metabolites, a viral RNA vector derived from Zucchini yellow mosaic virus (ZYMV; genus Potyvirus, family Potyviridae) was used to express a bacterial phytoene synthase (crtB) in zucchini (Cucurbita pepo L.) fruits. This enzyme catalyzes the first committed step of carotenoid biosynthesis. The crtB expression mediated by ZYMV resulted in the overaccumulation of a range of carotenoids and tocopherols metabolites, namely α- and ß-carotene (pro-vitamin A), lutein and phytoene, as well as α- and γ-tocopherol (vitamin E), in both zucchini rind and flesh. This result illustrates how edible fruits can be metabolically fortified using viral vectors without plant genome modification. / This research was supported by grants BIO2017-83184-R, AGL2017-85563-C2-1-R and RTA2017-00061-C03-03 from Ministerio de Ciencia e Innovación (Spain), through Agencia Estatal de Investigación (cofinanced European Regional Development Fund). / Houhou, F. (2021). Biotechnological Application of Potyvirus-Based Vectors in Cucurbit Plants [Tesis doctoral]. Universitat Politècnica de València. https://doi.org/10.4995/Thesis/10251/177644 / TESIS Virus vegetales Virus del mosaico de la sandía Virus del mosaico del calabacín Cucurbitáceas Carotenoides Tocoferol Silenciamiento génico Plant virus Watermelon mosaic virus Zucchini mosaic virus Potyvirus Vector Cucurbits Carotenoids Tocopherol Gene silencing
183	Figuring out Flowers: Insights Into the Mixed Breeding System of <i>Viola pubescens</i> Sternberger, Anne Lauren 02 June 2020 (has links) No description available. Bioinformatics Biology Developmental Biology Environmental Science Genetics Plant Sciences Plant Biology Ecology plant reproduction chasmogamous flowers cleistogamous flowers mixed breeding system violets environmental signaling light quantity temperature photoperiod genome transcriptome differential gene expression miRNA mediated gene silencing
184	Soybean QTL Mapping and Candidate Gene Identification for Pythium irregulare and Phytophthora sojae Partial Resistance; and Root-Knot Nematode Induced Suppression of Gene Silencing Nauth, Brittany J. 29 October 2014 (has links) No description available. Plant Pathology Plant Biology Molecular Biology Pythium irregulare Phytophthora sojae Root Knot Nematode Suppression of gene silencing Suppression of RNAi, RNAi RNA interference QTL quantitative trait loci oomycete disease resistance quantitative disease resistance root pathogen
185	Multiple Mechanisms Contribute to Regulation of Gene Expression in the <i>C. elegans</i> Excretory System Armstrong, Kristin R. 08 September 2008 (has links) No description available. Anatomy and Physiology Biology Cellular Biology Genetics Molecular Biology excretory system osmoregulation POU-III homeobox chromatin remodeling synMuvB heterochromatin euchromatin repetitive DNA gene silencing environment dauer quiescent
186	Frequent p16-independent inactivation of p14ARF in human melanoma Freedberg, D.E., Rigas, S.H., Russak, J., Gai, W., Kaplow, M., Osman, I., Turner, F., Randerson-Moor, J.A., Houghton, A., Busam, K., Bishop, D.T., Bastian, B.C., Newton-Bishop, J.A., Polsky, D. January 2008 (has links) No / BACKGROUND: The tumor suppressors p14(ARF) (ARF) and p16(INK4A) (p16) are encoded by overlapping reading frames at the CDKN2A/INK4A locus on chromosome 9p21. In human melanoma, the accumulated evidence has suggested that the predominant tumor suppressor at 9p21 is p16, not ARF. However, recent observations from melanoma-prone families and murine melanoma models suggest a p16-independent tumor suppressor role for ARF. We analyzed a group of melanoma metastases and cell lines to investigate directly whether somatic alterations to the ARF gene support its role as a p16-independent tumor suppressor in human melanoma, assuming that two alterations (genetic and/or epigenetic) would be required to inactivate a gene. METHODS: We examined the p16/ARF locus in 60 melanoma metastases from 58 patients and in 9 human melanoma cell lines using multiplex ligation-dependent probe amplification and multiplex polymerase chain reaction (PCR) to detect deletions, methylation-specific PCR to detect promoter methylation, direct sequencing to detect mutations affecting ARF and p16, and, in a subset of 20 tumors, immunohistochemistry to determine the effect of these alterations on p16 protein expression. All statistical tests were two-sided. RESULTS: We observed two or more alterations to the ARF gene in 26/60 (43%) metastases. The p16 gene sustained two or more alterations in 13/60 (22%) metastases (P = .03). Inactivation of ARF in the presence of wild-type p16 was seen in 18/60 (30%) metastases. CONCLUSION: Genetic and epigenetic analyses of the human 9p21 locus indicate that modifications of ARF occur independently of p16 inactivation in human melanoma and suggest that ARF is more frequently inactivated than p16. Animals Cell line Tumor Chromosomes Pair 9 DNA methylation Gene deletion Gene silencing Genes p16 Humans Immunoblotting Immunohistochemistry Melanoma Genetics Pathology Mice Microsatellite repeats Mutation Neoplasm proteins Polymerase chain reaction Promoter regions Tumor suppressor protein p14ARF REF 2014
187	Regulating stem cell fate within microenvironmental niches Buglass, Surahanil Katrin January 2014 (has links) Improving the repopulation potential of human umbilical cord blood (UCB) haemopoietic stem cells (HSCs) remains a paramount goal in HSC transplantation (HSCT) therapy. This implies enhancing the homing and engraftment potential of UCB-CD34+CD133+ cells to the bone marrow (BM). Although an array of molecules continues to be identified as ‘key’ homing molecules, the molecular mechanisms controlling HSC homing are still not fully understood. The regulatory implications of hypoxia in the BM, with the concomitant stabilisation of hypoxia inducible transcription factor-1α (HIF-1α), are becoming more apparent, yet at the commencement of this thesis no study had explored whether hypoxia induced signalling can be adopted to regulate the homing and engraftment of transplanted HSCs. The aim of this DPhil project was thus to investigate whether hypoxic conditions as detected in the BM influence the adhesion of UBC-CD133+ cells to osteoblasts, BM stromal cells and BM endothelial cells-60 (BMEC-60), as well as their transmigration towards chemokine SDF-1α across BMEC-60. Increasing the exposure of UCB-CD133+ cells to 1.5% O2 doubled the percentage of transmigrating cells (p<0.05), and while hypoxia stimulated UCB-CD133+ cells preferentially adhered to IL-1β stimulated BMEC-60, their adhesion to non-stimulated (BMEC-60) was significantly improved (p<0.001). To help unravel the underlying molecular mechanisms, we attempted to examine the potential involvement of hypoxia regulated scaffolding protein HEF-1/NEDD9/Cas-L (HEF-1) in the increased percentage of migrating UCB-CD133+ cells after hypoxia pre-conditioning. The role of HEF-1 in HSCs is unexplored, and its multifunctional contribution in a variety of processes including cell migration, attachment and invasion make HEF-1 a prime candidate as a contributing homing molecule. After identifying a suitable short-hairpin RNA (shRNA) sequence to knockdown HEF-1, generating lentiviral (LV)-particles in house and optimising transduction protocols, HEF-1 knockdown was achieved in haemopoietic model cell lines KG-1 and KG-1A (KG-1/KG-1A–HEF1). Significantly decreased KG-1A–HEF1 cell adhesion to non-stimulated BMEC-60 was detected. Together, these studies provide a promising platform to further explore the role of HEF-1 in hypoxia induced UCB-CD133+ cell transmigration towards the key homing molecule SDF-1α. 616.02
188	Etude du métabolisme des phénylpropanoïdes; analyse de l'interaction de la caféoyl-coenzyme A 3-O-méthyltransférase (CCoAOMT) avec son substrat et caractérisation fonctionnelle d'une nouvelle acyltransférase, l'HydroxyCinnamoyl-CoA : shikimate/quinate hydroxycinnamoyl Transférase (HCT). Hoffmann, Laurent 04 July 2003 (has links) (PDF) Le métabolisme des phénylpropanoïdes est un métabolisme secondaire spécifique au règne végétal. Il conduit, à partir de la phénylalanine, à la synthèse d'une grande variété de substances telles que les anthocyanes, les isoflavonoïdes, les stilbènes, des esters d'acides hydroxycinnamiques, ou encore à la lignine. Ces métabolites secondaires interviennent dans la pigmentation florale ou encore la protection des tissus végétaux contre divers stress biotiques et abiotiques. Quant à la lignine, elle assure rigidité aux parois cellulaires végétales et imperméabilité aux tissus conducteurs. La lignine est un polymère tridimensionnel constitué de trois unités monomériques qui possèdent le même squelette carboné phénylpropane mais diffèrent par leur degré de méthoxylation et d'hydroxylation. Une partie de mon travail de thèse a consisté à étudier la relation structure/fonction de la caféoyl-coenzyme A O-méthyltransférase (CCoAOMT) de N. tabacum, responsable de l'introduction de la première des deux fonctions méthyles. Des études bioinformatiques couplées à des approches de biochimie et de mutagenèse dirigée, nous ont permis de modéliser l'interaction de la CCoAOMT avec son substrat, le caféoyl-CoA. Trois acides aminés du site actif ont notamment été identifiés comme intervenant dans la reconnaissance spécifique de la chaîne latérale de CoA. J'ai également caractérisé, chez N. tabacum, une nouvelle acyltransférase à activité HydroxyCinnamoyl-CoA : shikimate/quinate hydroxycinnamoyl Transférase (HCT) impliquée dans le métabolisme des phénylpropanoïdes. Nous avons montré que l'enzyme HCT recombinante synthétisait, in vitro, les substrats de l'hydroxylation en position 3 du noyau aromatique. De plus, la répression de l'expression du gène HCT par le «VIGS» conduit à un ralentissement de la croissance des plantes, à une perturbation importante du pool d'acide chlorogénique, ainsi qu'à une diminution de la quantité et à une modification de la composition de la lignine synthétisée. [SDV:BC] Life Sciences/Cellular Biology Phénylpropanoïdes lignine O-méthyltransférase modélisation mutagenèse dirigée acyltransférase Nicotiana tabacum Nicotiana benthamiana Virus Induced Gene Silencing (VIGS) VMT CLHP immunolocalisation histochimie microscopie confocale esters d'acides quinique et shikimique esters de CoA acide chlorogénique Arabidopsis thaliana
189	TOMATO FLESHY FRUIT QUALITY IMPROVEMENT: CHARACTERIZATION OF GENES AND GENOMIC REGIONS ASSOCIATED TO SPECIALIZED METABOLISM IN TOMATO FLESHY FRUIT Fernández Moreno, Josefina Patricia 18 September 2016 (has links) Tesis por compendio / [EN] Until recently, the genetic improvement of tomato (Solanum lycopersicum) was focused in agronomic traits, such as yield and biotic or abiotic stresses; therefore the interest in tomato fruit quality is relatively new. The tomato fruit surface can be considered both an agronomic trait as well as a quality trait, because it has an effect on consumer impression in terms of color and glossiness but also it underlies the resistance/sensitivity to cracking or water loss with consequences on fruit manipulation (e.g. transport and processing). The cuticle is deposited over the cell wall surrounding the epidermal cells and it is the first barrier in the plant-environment interface. The cuticle composition includes two main groups of metabolites: cuticular waxes and cutin. Other metabolites can be founded into the cuticle matrix, as triterpenoids and flavonoids. Those minor cuticular components are involved in the correct functionality of the cuticle. Understanding cuticle biosynthesis and genetic regulation requires the development of fast and simple analytical methodologies to study those specialized metabolites using large populations (e.g. mutant collections or introgression lines), together with the identification of genes and genomic regions responsible of their production. This thesis aims to contribute to our understanding of the molecular programs underlying tomato fruit quality by providing: i) a general protocol to profile cuticular waxes in different species, including tomato; ii) a QTL map for cuticular composition (i.e. cuticular waxes and cutin monomers) using the Solanum pennellii introgression line population; iii) a detailed protocol of the reverse genetic tool so-called Fruit-VIGS to assist in the study of gene function in tomato fruit; and iv) a thorough characterization of the first null allele for the transcription factor SlMYB12 (i.e. Slmyb12-pf) in tomato fruit which provides new insights into the regulation of the flavonoid biosynthetic pathway in the fruit peel by high resolution mass spectrometry and RNA-Seq approaches. / [ES] Hasta hace poco, la mejora genética del cultivo del tomate (Solanum lycopersicum) había estado centrada principalmente en caracteres agronómicos, como la productividad y la resistencia a estreses, tanto bióticos como abióticos. Así, el interés en la calidad del fruto de tomate es relativamente reciente. La superficie del fruto del tomate puede considerarse tanto un carácter agronómico como de calidad, pues influye en la primera impresión de los consumidores en términos de color y brillo, así como también en los procesos de resistencia o sensibilidad a la rotura ('cracking') o a la pérdida de agua. Estos factores determinan el aspecto del fruto y condicionan atributos relacionados con su manipulación (transporte y procesado). La cutícula se deposita sobre la pared celular de las células epidérmicas y es la primera barrera que interacciona con el ambiente. Está constituida por dos grandes tipos de metabolitos: las ceras cuticulares y la cutina. Otros metabolitos pueden aparecer embebidos en la matriz cuticular, como es el caso de los triterpenoides y los flavonoides. Estos metabolitos contribuyen a la correcta funcionalidad de la cutícula. La compresión de la biosíntesis y regulación génica de la cutícula requiere del desarrollo de metodologías de análisis sencillas y rápidas para el estudio de estos metabolitos especializados en grandes poblaciones (colecciones de mutantes o líneas de introgresión), así como para la identificación de genes y regiones génicas responsables de la producción y acumulación de dichos compuestos, pudiendo ser muy útiles para implementar programas de mejora de la calidad del tomate. El objetivo de esta tesis es contribuir a la comprensión sobre los programas moleculares subyacentes a la calidad del fruto de tomate, proporcionando: i) un protocolo general de análisis del contenido de ceras cuticulares en diferentes especies, incluyendo el tomate; ii) un mapa de QTL de la composición cuticular (incluyendo ceras y monómeros de cutina) obtenido con la población de líneas de introgresión de Solanum pennellii; iii) un protocolo detallado de uso de la herramienta de genética reversa Fruit-VIGS con el que realizar estudios de funciones génicas en fruto de tomate; y iv) una minuciosa caracterización de un nuevo alelo nulo del factor de transcripción SlMYB12 (Slmyb12-pf) en fruto de tomate, proporcionando nueva información sobre la regulación de la ruta biosintética de los flavonoides en la piel del fruto, utilizando espectrometría de masas de alta resolución y de nuevas tecnologías de secuenciación. / [CA] Fins fa poc de temps, la millora genètica de la tomata (Solanum lycopersicum) anava dirigida fonamentalment als caràcters de tipus agronòmic, com la productivitat i la tolerància a estressos biòtics o abiòtics, resultant que l'interés per la qualitat dels fruits és relativament nou. La superfície de la tomata pot ser considerada tant com un caràcter agronòmic com un de qualitat, ja que és l'aspecte de la superfície del fruit el que confereix al consumidor la primera impressió de color, brillantor, però és també la pell del fruit la responsable de la diferent susceptibilitat del fruit a desenvolupar clevills o que el fruit sofrisca més o menys pèrdues d'aigua, tot tenint importants conseqüències en la manipulació (i.e. transport i processament del fruit). La cutícula és dipositada per sobre de la paret cel·lular que envolta la capa de cèl·lules epidèrmiques i constitueix la primera barrera en la interfase planta-medi ambient. La composició de la cutícula presenta dos grups principals de metabòlits: les ceres i la cutina. També es poden trobar altres metabòlits els triterpenoids i el flavonoids. Aquests darrers components cuticulars menors són implicats en el correcte funcionament de la cutícula. Per tal de comprendre la biosíntesi i la regulació genètica de la cutícula cal desenvolupar tecnologies analítiques senzilles i rapides que permeten estudiar aquests metabòlits especialitzats en poblacions grans de plantes (i.e. Col·leccions de mutants o de línies d'introgressió), a més de la identificació de gens i regions genòmiques que són responsables de la seua producció. Aquesta tesi té com a objectiu contribuir a millorar la nostra comprensió dels programes moleculars que afecten determinats aspectes de la qualitat de la tomata mitjançant els següents objectius: i) proporcionar un protocol general per obtenir perfils de ceres cuticulars en diferents espècies, inclosa la tomata; ii) obtenir un mapa de QTL per a la composició cuticular (i.e. ceres cuticulars i monòmers de cutina) mitjançant la utilització de la població de línies d'introgressió de Solanum pennelli; iii) descriure amb detall el protocol d'una eina de revers genètica denominada Fruit-VIGS que resulta molt adequada per estudiar funció gènica a la tomata; y iv) fer una caracterització exhaustiva del primer al·lel nul del factor de transcripció SlMYB12 (ie. Slmyb12-pf) en tomata la qual proporciona informació nova sobre la regulació de la ruta de biosíntesi de flavonoides en la pell de la tomata mitjançant espectrometria de masses d'alta resolució i RNAseq. / Fernández Moreno, JP. (2015). TOMATO FLESHY FRUIT QUALITY IMPROVEMENT: CHARACTERIZATION OF GENES AND GENOMIC REGIONS ASSOCIATED TO SPECIALIZED METABOLISM IN TOMATO FLESHY FRUIT [Tesis doctoral]. Universitat Politècnica de València. https://doi.org/10.4995/Thesis/10251/55505 / TESIS / Premios Extraordinarios de tesis doctorales / Compendio Tomato fleshy fruit Quality improvement Cuticle Specialized metabolism Waxes Cutis Flavonoids Anthocyanins Wax-extraction methodology GC-MS LC-MS Fruit-VIGS RNA-Seq QTLs Solanum pennellii introgression lines EMS-mutants Genes and genomic regions Gene silencing MYB-type transcription factor Candidate gene approach BIOQUIMICA Y BIOLOGIA MOLECULAR
190	Micro RNA-Mediated regulation of the full-length and truncated isoforms of human neurotrophic tyrosine kinase receptor type 3 (NTRK 3) Guidi, Mònica 13 January 2009 (has links) Neurotrophins and their receptors are key molecules in the development of thenervous system. Neurotrophin-3 binds preferentially to its high-affinity receptorNTRK3, which exists in two major isoforms in humans, the full-length kinaseactiveform (150 kDa) and a truncated non-catalytic form (50 kDa). The twovariants show different 3'UTR regions, indicating that they might be differentiallyregulated at the post-transcriptional level. In this work we explore howmicroRNAs take part in the regulation of full-length and truncated NTRK3,demonstrating that the two isoforms are targeted by different sets of microRNAs.We analyze the physiological consequences of the overexpression of some of theregulating microRNAs in human neuroblastoma cells. Finally, we providepreliminary evidence for a possible involvement of miR-124 - a microRNA with noputative target site in either NTRK3 isoform - in the control of the alternativespicing of NTRK3 through the downregulation of the splicing repressor PTBP1. / Las neurotrofinas y sus receptores constituyen una familia de factores crucialespara el desarrollo del sistema nervioso. La neurotrofina 3 ejerce su funciónprincipalmente a través de una unión de gran afinidad al receptor NTRK3, del cualse conocen dos isoformas principales, una larga de 150KDa con actividad de tipotirosina kinasa y una truncada de 50KDa sin dicha actividad. Estas dos isoformasno comparten la misma región 3'UTR, lo que sugiere la existencia de unaregulación postranscripcional diferente. En el presente trabajo se ha exploradocomo los microRNAs intervienen en la regulación de NTRK3, demostrando que lasdos isoformas son reguladas por diferentes miRNAs. Se han analizado lasconsecuencias fisiológicas de la sobrexpresión de dichos microRNAs utilizandocélulas de neuroblastoma. Finalmente, se ha estudiado la posible implicación delmicroRNA miR-124 en el control del splicing alternativo de NTRK3 a través de laregulación de represor de splicing PTBP1. RISC complex retinoic acid renilla luciferase real-time quantitative PCR PTBP1 pri-miRNA pre-miRNA post-transcriptional regulation piRNA PicTar pGL4.13 PCR P-body p75NTR overexpression NTRK3 NTRK2 NTRK1 non-coding RNAs NGF neurotrophin neurotrophic signaling neuronal differentiation neurodevelopment neuroblastoma nervous system mRNA miRNA target prediction miRNA profiling miRNA mimic miRNA microarray miRNA inhibitor miRanda microRNA microarray luciferase assay Ingenuity Pathway Analysis (IPA) heLa cells gene silencing gene regulation full-length isoform (FL-NTRK3) firefly luciferase ERK disease dicer cancer development BDNF argonaute alternative splicing 3'UTR RNAhybrid RT-PCR SH-SY5Y cells siRNA standard error synaptic plasticity target validation TargetScan transfection translational repression TrkA TrkB TrkC truncated isoform (TR-NTRK3) tyrosine kinase (TK) western blot 575 61

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