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Etude de l'interaction de Medicago truncatula avec Fusarium oxysporum et du rôle de l'acide salicylique dans les interactions de la plante avec différents agents pathogènes et symbiotiques / A study on the interaction between Medicago truncatula and Fusarium oxysporum and of the role of salicylic acid during the interactions of the plant with various pathogenic and symbiotic micro-organismsRamirez-Suero, Montserrat 03 December 2009 (has links)
Des études de l'interaction de la plante modèle des légumineuses Medicago truncatula avec des microorganismes pathogènes et symbiotiques ont été réalisées. Tout d'abord un pathosystème fongique a été caractérisé: M. truncatula en interaction avec Fusarium oxysporum spp., champignon responsable des fusarioses, soit du flétrissement vasculaire ou de la pourriture racinaire chez de nombreuses plantes cultivées. Deux lignées de M. truncatula: A17 et F83005.5 ont été identifiées comme sensible et tolérante respectivement à F. oxysporum f.sp. medicaginis, la forma specialis attribuée à la luzerne. De plus 9 souches de F. oxysporum isolées de différentes plantes hôtes et une souche non pathogène du sol ont été testées dans des expériences d'inoculation avec ces deux lignées. Elles ont toutes été capables d'induire les symptômes de la maladie chez M. truncatula. A l'aide d'une souche de F. oxysporum f.sp. medicaginis exprimant le gène rapporteur GFP, les étapes de colonisation de la racine par le champignon ont été caractérisées. Les observations en microscopie à fluorescence et microscopie confocale des racines d'A17 et F83005.5 ont indiqué un patron de colonisation inhabituel et ont montré que la tolérance de F83005.5 n'était pas corrélée à un mécanisme d'exclusion du cylindre central. Cependant, des différences dans l'expression de gènes de défense ont été détectées entre les deux lignées. Dans la deuxième partie, le rôle de l'acide salicylique a été étudié. Les résultats d'expériences avec l'acide salicylique exogène ont indiqué que le prétraitement de racines avec ce composé pouvait conférer une protection aux plantes vis-à-vis de F. oxysporum f.sp. medicaginis et la bactérie phytopathogène Ralstonia solanacearum. Avec l'objectif d'étudier le rôle de l'acide salicylique endogène dans les interactions avec les microorganismes, la transformation génétique de M. truncatula avec le gène NahG codant le salicylate hydroxylase a été entreprise. Cette enzyme dégrade l'acide salicylique en catechol. Seulement la lignée 2HA a pu être transformée et régénérée en plantes transgéniques. Ces plantes 2HA-NahG ont été inoculées avec des microorganismes pathogènes (R. solanacearum, Verticillium albo-atrum, F. oxysporum f. sp. medicaginis Colletotrichum trifolii et C. higginsianum) ainsi qu'avec le champignon endomycorhizien Glomus intraradices. Les limitations expérimentales n'ont pas permis de conclure définitivement, mais indiquent qu'il est possible que la signalisation par l'acide salicylique ne soit pas impliquée dans les défenses de M. truncatula face à ces microorganismes pathogènes et symbiotiques. / A study on the interactions of the plant model legume Medicago truncatula (M.t.) with pathogens and symbiotic microorganisms was undertaken. First, a fungal pathosystem was characterized: M. truncatula in interaction with Fusarium oxysporum spp., the causal agent of Fusariosis, of Fusarium wilt and of root rot in many crop plants. Two M. truncatula lines, A17 and F83005.5, were identified as susceptible and tolerant respectively to F. oxysporum f.sp. medicaginis, the forma specialis related to alfalfa. Besides, 9 strains of F. oxysporum isolated from different host plants and a non-pathogenic soil-borne strain were tested in inoculation experiments with both lines. All the strains were able to trigger disease symptoms in M. truncatula. Using the F. oxysporum f.sp. medicaginis strain transformed with the GFP reporter gene, the stages of the root colonization by the fungi were characterized. Fluorescence and confocal microscopy observations on A17 and F83005.5 roots showed an unusual pattern of colonization and showed that the F83005.5 tolerance was not related to an exclusion mechanism in the central cylinder. However, differences on defence gene expression were detected in both lines. In the second part, the role of salicylic acid was studied. Results of experiments with exogenous salicylic acid indicated that prior treatment of roots with this compound may confer a protection towards F. oxysporum f. sp. medicaginis and the phytopathogenic bacterium Ralstonia solanacearum. With the goal to study the role of endogenous salicylic acid, the genetic transformation of M. truncatula with the NahG gene was initiated. This gene codes for a salicylate hydroxylase which degrades salicylic acid to catechol. Only the highly embryogenic 2HA line could be transformed and regenerated into transgenic plants. These 2HA plants were inoculated with pathogenic microorganisms (Ralstonia solanacearum, Verticillium albo-atrum, Fusarium oxysporum f.sp. medicaginis Colletotrichum trifolii and C. higginsianum) as well as the mycorrhiza fungus Glomus intraradices. Experimental limitations did not allow us to conclude definitely, but it seems possible that the salicylic acid signaling way may not be implicated in the defence of M. truncatula against these pathogenic and symbiotic microorganisms
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Organogênese in vitro e transformação genética em Citrus sp. com o gene da capa protéica e uma seqüência conservada antisense do vírus da tristeza dos citros / In vitro organogenesis and genetic transformation of Citrus sp. with the coat protein gene and an antisense untranslated region of the Citrus tristeza virusSchinor, Evandro Henrique 09 October 2006 (has links)
O presente trabalho teve como principal objetivo obter plantas transgênicas, dos cultivares porta-enxerto limão \'Cravo\' e laranja azeda e de cultivares copa de laranja doce, expressando genes que possam influenciar no nível de resistência ao vírus da tristeza dos citros (CTV) e, possivelmente à morte súbita dos citros. Buscou-se ainda estudar a organogênese in vitro de espécies cítricas. Experimentos para a indução da organogênese in vitro foram realizados a partir de segmentos de epicótilos de plântulas germinadas in vitro de espécies cítricas avaliando-se: a resposta organogênica de três diferentes regiões do epicótilo, na presença (1,0 mg.L-1) ou ausência de BAP, em meio MT, e a regeneração em diferentes concentrações de BAP (0; 0,5; 1,0; 1,5 e 2,0 mg.L-1) adicionadas ao meio MT. Também avaliou-se a regeneração de segmentos internodais de limão ?Cravo? e laranja azeda em diferentes concentrações de BAP (0; 0,5; 1,0; 2,0 e 4,0 mg.L-1) em meio MT; e de laranja azeda em meio de cultura MT e DBA3, suplementados com diferentes concentrações de BAP (0; 1,0 e 2,0 mg.L-1) e ANA (0; 0,3 e 0,5 mg.L-1). Foi utilizado o método de transformação genética mediado por Agrobacterium tumefaciens utilizando-se tecido juvenil coletado de plantas cultivadas in vitro (segmentos de epicótilo) ou em casa de vegetação (segmentos internodais) como explantes. Utilizou-se a estirpe EHA105 de A. tumefaciens, contendo os plasmídeos: a) pCTV-CP: contendo o gene da capa protéica do CTV; b) pCTV-dsCP: contendo repetições invertidas do gene da capa protéica do CTV, interligadas pelo intron do gene da quitinase de citros; c) pCTVcons: contendo uma seqüência conservada antisense do CTV. As construções gênicas foram elaboradas a partir do plasmídeo pCAMBIA 2201, dirigidas pelo promotor 35S e o terminador NOS. Foram utilizados também os genes de seleção nptII e o repórter GUS. As gemas adventícias desenvolvidas foram identificadas como transgênicas pelo teste histoquímico GUS e por PCR e a confirmação da transformação genética foi feita por Southern Blot. A expressão da proteína do CTV foi verificada pelo teste serológico de PTA-ELISA. A resposta morfogênica em função da região do epicótilo e das concentrações da citocinina BAP é dependente do cultivar de citros. A suplementação do meio de cultura com a citocinina BAP proporcionou um maior número de gemas adventícias regeneradas por explante, tanto em segmentos de epicótilo como em segmentos internodais dos cultivares de citros estudados. A suplementação do meio de cultura com a citocinina BAP é essencial na regeneração de gemas adventícias em segmentos internodais de laranja azeda. Foi possível regenerar plantas transgênicas, pelo protocolo de transformação genética mediado por Agrobacterium tumefaciens de limão \'Cravo\' contendo o gene da capa protéica do vírus da tristeza dos citros (pCTV-CP) utilizando-se segmentos de epicótilo e segmentos internodais como fonte de explante, e com uma seqüência conservada antisense do CTV, utilizando-se segmentos internodias; e de laranja \'Hamlin\' contendo o gene da capa protéica do CTV, com as construções gênicas pCTV-dsCP e pCTV-CP, e com uma seqüência conservada antisense do CTV, utilizando-se segmentos de epicótilo como fonte de explante. / The objective of the present work was to obtain transgenic plants of rootstocks Rangpur lime and sour orange as well as sweet orange scion varieties, expressing genes that would possibly influence the levels of resistance to the Citrus tristeza virus (CTV) and Citrus sudden death disease. The in vitro organogenesis of Citrus species was also studied. In vitro organogenesis experiments were conducted with epicotyl segments obtained from in vitro germinated seedlings of different Citrus species in order to evaluate: organogenic response of three epicotyl regions, in the presence (1,0 mg.L-1) or absence of BAP, in MT medium, and the regeneration using different BAP concentrations (0; 0,5; 1,0; 1,5 e 2,0 mg.L-1) added to MT medium. The regeneration of internodal segments of Rangpur lime and sour orange was evaluated in MT medium with different BAP concentrations (0; 0,5; 1,0; 2,0 e 4,0 mg.L-1) as well as sour orange regeneration in MT and DBA3 mediums, supplemented with different concentrations of BAP (0; 1,0 e 2,0 mg.L-1) and NAA (0; 0,3 e 0,5 mg.L-1). The Agrobacterium tumefaciens Agrobacterium tumefaciens mediated genetic transformation method of juvenile tissue obtained from in vitro (epicotyls) or green house cultivated plants (internodal segments) was used in this work. The EHA 105 strain was used with the following plasmids: a) pCTV-CP: containing the coat protein gene from CTV; b) pCTV-dsCP: containing inverted repeats of the coat protein gene from CTV interconnected by the Citrus quitinase gene intron; c) pCTVcons: containing an antisense sequence of CTV untranslated region. The gene constructs were built from the pCAMBIA 2201 plasmid, and contained the 35S promoter and the NOS terminator. The nptII selection gene and the GUS reporter gene were also used. The adventitious buds developed were identified as transgenic by GUS histochemical test and PCR, these results were later confirmed by Southern Blot. The transgenic coat protein expression was detected by the serological test PTA-ELISA. The morphogenic response related to the epicotyl region and BAP cytokinin were dependent on the Citrus varieties. The addition of BAP cytokinin to the culture medium showed a greater number of adventitious buds regenerated per explant in both epicotyl and internodal segments of the Citrus varieties studied. The addition of BAP to the culture medium is essential for the regeneration of adventitious buds in sour orange internodal segments. Using the Agrobacterium mediated genetic transformation protocol it was possible to regenerate transgenic plants of different varieties and gene constructs: Rangpur lime containing the coat protein gene of CTV (pCTV-CP) using epicotyl and internodal segments as explant source, and an antisense sequence of CTV untranslated region using internodal segments as explant source; Hamlin sweet orange containing the coat protein gene of CTV in constructions pCTV-CP and pCTV-dsCP, and an antisense sequence of CTV untranslated region using epicotyl segments as explant source.
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Identification de gènes préférentiellement exprimés par les cellules dendritiques et évaluation critique d'une approche de transgenèse lentivirale afin d'en étudier la fonction biologique in vivoBaup, Delphine 15 December 2009 (has links)
A chaque instant notre organisme est confronté à des agents pathogènes de nature très variable. Pourtant, malgré toutes les agressions rencontrées, il maintient une certaine intégrité. Cette dernière résulte de la mise en place d’un système de défense perfectionné, fruit de la collaboration étroite de diverses cellules :le système immunitaire. Parmi toutes les cellules qui le composent, les cellules dendritiques jouent un rôle prépondérant. Disséminées dans la plupart de nos organes et tissus, elles surveillent, en alerte du moindre danger. Elles orchestrent la réponse immune :elles sont capables d'initier et polariser une réponse immune ou d'instaurer la tolérance. De nombreux traitements thérapeutiques tentent d’exploiter leurs capacités intrinsèques. Ces cellules présentent en effet un grand potentiel dans la vaccination anti-tumorale et antivirale, dans l’acceptation de greffes et le contrôle de maladies auto-immunes. Toutefois, de nombreux éclaircissements restent encore à apporter que ce soit sur l’ontogénie des cellules dendritiques, leur rôle ou leur propre biologie. <p><p>Aussi, le dessein de ce travail était d’approfondir nos connaissances fondamentales sur les propriétés moléculaires et la biologie des cellules dendritiques afin de mieux appréhender la nature et l’amplitude des réponses qu’elles induisent. A cette fin, nous avons identifié deux nouveaux gènes qu’elles expriment préférentiellement et nous avons essayé de caractériser leur fonction. L’avènement de l’utilisation de la technique d’ARN interférence dans les systèmes de mammifères et le développement des vecteurs lentiviraux nous sont apparus comme des outils présentant un réel potentiel pour répondre à nos questions. Nous avons donc généré des souris qui sur- ou sous- expriment le gène d’intérêt, par infection lentivirale d’embryons, pour tenter de cerner son rôle in vivo. Cette méthode de transgénèse était très prometteuse car rapide, efficace, peu onéreuse et sollicitait peu de compétences pour la manipulation des embryons. Cependant, l’approche s’est révélée plus laborieuse que prévu. Nous avons en effet rencontré de nombreux phénomènes de variégation et de « silencing » qui a rendu plus ardue l’utilisation des souris transgéniques. Néanmoins, nous pensons aujourd’hui être à même d’élaborer une stratégie de sélection des souris générées par transgénèse lentivirale qui ne développeraient probablement pas les problèmes rencontrés. Au cours de l’étude, nous avons également observé une fluctuation de l’activité du promoteur CAG pendant le développement thymique, pointant l’importance du choix d’un promoteur optimal en fonction du projet de recherche. Enfin, l’analyse des souris, bien que préliminaire, suggère un rôle potentiel d’un des gènes examinés dans la différenciation, la mobilisation ou la survie des cellules dendritiques, des macrophages et des lymphocytes B.<p> / Doctorat en Sciences / info:eu-repo/semantics/nonPublished
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Etude structurale et fonctionnelle de DprA et de ses partenaires au cours de la transformation génétique naturelle / Structural and functional studies of DprA and its partners involved in the natural genetic transformationLisboa, Johnny 18 December 2013 (has links)
La transformation génétique naturelle est un mode de transfert horizontal de gènes chez les bactéries, qui contribue au maintien et à l'évolution de leurs génomes. C’est un mécanisme clé pour l’adaptation des bactéries, qui pourrait être responsable de la transmission des résistances aux antibiotiques observée en clinique chez certaines espèces pathogènes (S. pneumoniae, H. pylori,…). La transformation naturelle s’effectue par l’internalisation d’ADN exogène à travers la membrane, puis par sa prise en charge jusqu’à son intégration dans le chromosome bactérien par recombinaison homologue. Le processus de prise en charge fait intervenir la protéine DprA, très conservée dans le monde bactérien, impliquée dans la protection de l’ADN entrant contre les nucléases, et dans le recrutement de la recombinase universelle RecA sur l’ADNsb. DprA joue donc un rôle majeur et a récemment été décrite comme étant impliquée dans d’autres aspects de la transformation génétique naturelle, comme la fermeture de la compétence via une interaction directe avec le régulateur de réponse ComE, ou la levée de la barrière du système de restriction-modification afin de faciliter la transformation. Chez H. pylori, DprA est en opéron avec DprB, suggérant l’implication de ces 2 protéines dans une même voie et une interaction directe entre elles. DprA apparaît donc comme étant au cœur d’un véritable réseau d’interaction, protéique et nucléique. / The natural genetic transformation is a mode of horizontal gene transfer that contributes to the maintenance and to the evolution of the genomes in bacteria. It is a key mechanism for their adaptation which could be responsible for the transmission of antibiotic resistances observed clinically for some pathogenic species (S. pneumoniae, H. pylori...). Natural transformation is performed by internalizing exogenous DNA followed by its processing and its integration into the bacterial chromosome by homologous recombination. The DNA processing involves the highly conserved DprA protein for the protection of the incoming DNA against nucleases and the recruitment of the universal recombinase RecA on ssDNA. DprA plays a key role and has recently been suggested to be involved in other aspects of the natural genetic transformation, such as the shut-off of the competence via a direct interaction with the response regulator ComE, or removal of the restriction-modification barrier system in order to facilitate the processing. In H. pylori, the dprA gene is in operon with dprB, whose function is unknown, suggesting their involvement in the same pathway and their likely direct interaction. DprA appears to be central in protein/nucleic acid interactions network.
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Engineering of gene constructs for ectopic expression in transgenic fish.January 2001 (has links)
by Yan Hiu Mei, Carol. / Thesis (M.Phil.)--Chinese University of Hong Kong, 2001. / Includes bibliographical references (leaves 114-126). / Abstracts in English and Chinese. / Abstract --- p.i / 摘要 --- p.iii / Acknowledgements --- p.iv / Table of Contents --- p.v / List of Tables --- p.viii / List of Figures --- p.ix / Abbreviations --- p.xii / Chapter CHAPTER 1 --- TRANSGENIC TECHNOLOGY --- p.1 / Chapter 1.1 --- Transgenesis in animals --- p.1 / Chapter 1.2 --- Transgenic fish in toxicology --- p.4 / Chapter 1.2.1 --- Aquatic metal toxicity --- p.4 / Chapter 1.2.2 --- Environmental monitoring of aquatic metal toxicity --- p.5 / Chapter 1.2.3 --- Biomarkers --- p.6 / Chapter 1.3 --- Transgenics in aquaculture --- p.9 / Chapter 1.3.1 --- Revolution is needed in aquaculture --- p.9 / Chapter 1.3.2 --- Aquaculture potential of tilapia in China --- p.10 / Chapter 1.3.3 --- Endocrinology for fish growth --- p.12 / Chapter 1.3.4 --- Growth promotion by exogenous growth hormone in tilapia --- p.14 / Chapter 1.3.5 --- Accelerated growth in transgenic fish --- p.15 / Chapter 1.4 --- General principle in transgenic fish production --- p.16 / Chapter 1.5 --- Project aim --- p.22 / Chapter CHAPTER 2 --- ISOLATION AND CHARACTERIZATION OF ZEBRAFISH METALLOTHIONEIN GENE PROMOTER --- p.23 / Chapter 2.1 --- Introduction --- p.23 / Chapter 2.1.1 --- Metallothionein --- p.23 / Chapter 2.1.2 --- Biological functions --- p.24 / Chapter 2.1.3 --- Metallothionein gene regulations --- p.25 / Chapter 2.1.4 --- Metallothionein as biomarker for metal pollution --- p.26 / Chapter 2.2 --- Materials and methods --- p.28 / Chapter 2.2.1 --- General molecular biology techniques --- p.28 / Chapter 2.2.2 --- Sequences of PCR primers used --- p.31 / Chapter 2.2.3 --- Cloning zebrafish MT gene 5-flanking region --- p.31 / Chapter 2.2.4 --- Cloning zebrafish MT gene --- p.32 / Chapter 2.2.5 --- Cloning full length zMT gene --- p.33 / Chapter 2.2.6 --- Cell culture --- p.35 / Chapter 2.2.7 --- Transient transfection assay --- p.37 / Chapter 2.2.8 --- Electrophoretic mobility shift assay --- p.39 / Chapter 2.3 --- Results --- p.42 / Chapter 2.3.1 --- Zebrafish metallothionein gene --- p.42 / Chapter 2.3.2 --- Deletion analysis of zMT promoter by transient transfection assay --- p.48 / Chapter 2.3.3 --- Functional characterization of zebrafish metallothionein promoter --- p.57 / Chapter 2.4 --- Discussions --- p.61 / Chapter 2.4.1 --- Zebrafish MT gene --- p.61 / Chapter 2.4.2 --- Functional characterization of zebrafish MT promoter --- p.61 / Chapter CHAPTER 3 --- PREPARATION OF GENE CONSTRUCTS FOR TRANSFER IN ZEBRAFISH --- p.65 / Chapter 3.1 --- Introduction --- p.65 / Chapter 3.1.1 --- Zebrafish as model in toxicological studies --- p.65 / Chapter 3.1.2 --- Reporter gene system --- p.66 / Chapter 3.1.3 --- Transgenic reporter fish --- p.68 / Chapter 3.1.4 --- Gene transfer by electroporation in zebrafish --- p.68 / Chapter 3.1.5 --- Objective --- p.69 / Chapter 3.2 --- Materials and methods --- p.70 / Chapter 3.2.1 --- Design of gene constructs for ectopic expression in zebrafish --- p.70 / Chapter 3.2.2 --- Testing electroporation conditions for zebrafish --- p.72 / Chapter 3.3 --- Results --- p.73 / Chapter 3.4 --- Discussions --- p.76 / Chapter 3.4.1 --- Engineering gene constructs --- p.76 / Chapter 3.4.2 --- Applications of transgenic zebrafish --- p.79 / Chapter CHAPTER 4 --- GENE TRANSFER EXPERIMENTS ON TILAPIA --- p.82 / Chapter 4.1 --- Introduction --- p.82 / Chapter 4.2 --- Materials and methods --- p.85 / Chapter 4.2.1 --- Isolation of O. aureus growth hormone --- p.85 / Chapter 4.2.2 --- Engineering gene constructs for ectopic expression in tilapia --- p.86 / Chapter 4.2.3 --- Gene transfer in tilapia --- p.87 / Chapter 4.2.4 --- Screening transgenic tilapia --- p.89 / Chapter 4.3 --- Results --- p.91 / Chapter 4.3.1 --- Tilapia growth hormone --- p.91 / Chapter 4.3.2 --- Gene constructs for ectopic expression in tilapia --- p.94 / Chapter 4.3.3 --- Testing electroporation conditions --- p.96 / Chapter 4.3.4 --- PCR screening for transgenic fish --- p.97 / Chapter 4.4 --- Discussions --- p.101 / Chapter 4.4.1 --- Tilapia growth hormone --- p.101 / Chapter 4.4.2 --- Electroporation experiments on of tilapia eggs --- p.101 / Chapter 4.4.3 --- Improvements on gene construct design for tilapia --- p.104 / Chapter 4.4.4 --- Ethical and safety considerations --- p.106 / Chapter CHAPTER 5 --- REFERENCES --- p.114 / APPENDIX --- p.127
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Organogênese in vitro e transformação genética em Citrus sp. com o gene da capa protéica e uma seqüência conservada antisense do vírus da tristeza dos citros / In vitro organogenesis and genetic transformation of Citrus sp. with the coat protein gene and an antisense untranslated region of the Citrus tristeza virusEvandro Henrique Schinor 09 October 2006 (has links)
O presente trabalho teve como principal objetivo obter plantas transgênicas, dos cultivares porta-enxerto limão \'Cravo\' e laranja azeda e de cultivares copa de laranja doce, expressando genes que possam influenciar no nível de resistência ao vírus da tristeza dos citros (CTV) e, possivelmente à morte súbita dos citros. Buscou-se ainda estudar a organogênese in vitro de espécies cítricas. Experimentos para a indução da organogênese in vitro foram realizados a partir de segmentos de epicótilos de plântulas germinadas in vitro de espécies cítricas avaliando-se: a resposta organogênica de três diferentes regiões do epicótilo, na presença (1,0 mg.L-1) ou ausência de BAP, em meio MT, e a regeneração em diferentes concentrações de BAP (0; 0,5; 1,0; 1,5 e 2,0 mg.L-1) adicionadas ao meio MT. Também avaliou-se a regeneração de segmentos internodais de limão ?Cravo? e laranja azeda em diferentes concentrações de BAP (0; 0,5; 1,0; 2,0 e 4,0 mg.L-1) em meio MT; e de laranja azeda em meio de cultura MT e DBA3, suplementados com diferentes concentrações de BAP (0; 1,0 e 2,0 mg.L-1) e ANA (0; 0,3 e 0,5 mg.L-1). Foi utilizado o método de transformação genética mediado por Agrobacterium tumefaciens utilizando-se tecido juvenil coletado de plantas cultivadas in vitro (segmentos de epicótilo) ou em casa de vegetação (segmentos internodais) como explantes. Utilizou-se a estirpe EHA105 de A. tumefaciens, contendo os plasmídeos: a) pCTV-CP: contendo o gene da capa protéica do CTV; b) pCTV-dsCP: contendo repetições invertidas do gene da capa protéica do CTV, interligadas pelo intron do gene da quitinase de citros; c) pCTVcons: contendo uma seqüência conservada antisense do CTV. As construções gênicas foram elaboradas a partir do plasmídeo pCAMBIA 2201, dirigidas pelo promotor 35S e o terminador NOS. Foram utilizados também os genes de seleção nptII e o repórter GUS. As gemas adventícias desenvolvidas foram identificadas como transgênicas pelo teste histoquímico GUS e por PCR e a confirmação da transformação genética foi feita por Southern Blot. A expressão da proteína do CTV foi verificada pelo teste serológico de PTA-ELISA. A resposta morfogênica em função da região do epicótilo e das concentrações da citocinina BAP é dependente do cultivar de citros. A suplementação do meio de cultura com a citocinina BAP proporcionou um maior número de gemas adventícias regeneradas por explante, tanto em segmentos de epicótilo como em segmentos internodais dos cultivares de citros estudados. A suplementação do meio de cultura com a citocinina BAP é essencial na regeneração de gemas adventícias em segmentos internodais de laranja azeda. Foi possível regenerar plantas transgênicas, pelo protocolo de transformação genética mediado por Agrobacterium tumefaciens de limão \'Cravo\' contendo o gene da capa protéica do vírus da tristeza dos citros (pCTV-CP) utilizando-se segmentos de epicótilo e segmentos internodais como fonte de explante, e com uma seqüência conservada antisense do CTV, utilizando-se segmentos internodias; e de laranja \'Hamlin\' contendo o gene da capa protéica do CTV, com as construções gênicas pCTV-dsCP e pCTV-CP, e com uma seqüência conservada antisense do CTV, utilizando-se segmentos de epicótilo como fonte de explante. / The objective of the present work was to obtain transgenic plants of rootstocks Rangpur lime and sour orange as well as sweet orange scion varieties, expressing genes that would possibly influence the levels of resistance to the Citrus tristeza virus (CTV) and Citrus sudden death disease. The in vitro organogenesis of Citrus species was also studied. In vitro organogenesis experiments were conducted with epicotyl segments obtained from in vitro germinated seedlings of different Citrus species in order to evaluate: organogenic response of three epicotyl regions, in the presence (1,0 mg.L-1) or absence of BAP, in MT medium, and the regeneration using different BAP concentrations (0; 0,5; 1,0; 1,5 e 2,0 mg.L-1) added to MT medium. The regeneration of internodal segments of Rangpur lime and sour orange was evaluated in MT medium with different BAP concentrations (0; 0,5; 1,0; 2,0 e 4,0 mg.L-1) as well as sour orange regeneration in MT and DBA3 mediums, supplemented with different concentrations of BAP (0; 1,0 e 2,0 mg.L-1) and NAA (0; 0,3 e 0,5 mg.L-1). The Agrobacterium tumefaciens Agrobacterium tumefaciens mediated genetic transformation method of juvenile tissue obtained from in vitro (epicotyls) or green house cultivated plants (internodal segments) was used in this work. The EHA 105 strain was used with the following plasmids: a) pCTV-CP: containing the coat protein gene from CTV; b) pCTV-dsCP: containing inverted repeats of the coat protein gene from CTV interconnected by the Citrus quitinase gene intron; c) pCTVcons: containing an antisense sequence of CTV untranslated region. The gene constructs were built from the pCAMBIA 2201 plasmid, and contained the 35S promoter and the NOS terminator. The nptII selection gene and the GUS reporter gene were also used. The adventitious buds developed were identified as transgenic by GUS histochemical test and PCR, these results were later confirmed by Southern Blot. The transgenic coat protein expression was detected by the serological test PTA-ELISA. The morphogenic response related to the epicotyl region and BAP cytokinin were dependent on the Citrus varieties. The addition of BAP cytokinin to the culture medium showed a greater number of adventitious buds regenerated per explant in both epicotyl and internodal segments of the Citrus varieties studied. The addition of BAP to the culture medium is essential for the regeneration of adventitious buds in sour orange internodal segments. Using the Agrobacterium mediated genetic transformation protocol it was possible to regenerate transgenic plants of different varieties and gene constructs: Rangpur lime containing the coat protein gene of CTV (pCTV-CP) using epicotyl and internodal segments as explant source, and an antisense sequence of CTV untranslated region using internodal segments as explant source; Hamlin sweet orange containing the coat protein gene of CTV in constructions pCTV-CP and pCTV-dsCP, and an antisense sequence of CTV untranslated region using epicotyl segments as explant source.
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Transformação genética de cana-de-açúcar por biolística e Agrobacterium tumefaciens visando estudar o mecanismo de morte celular programada / Genetic transformation of sugarcane by biolistic and Agrobacterium tumefaciens to study the mechanism of programmed cell deathMelotto-Passarin, Danila Montewka 08 April 2009 (has links)
A cana-de-açúcar é uma das principais culturas agrícolas plantadas no Brasil e apresenta significativa importância sócio-econômica e agroindustrial ao país. O cenário mundial encontrase bastante favorável no que concerne à comercialização de seus dois principais produtos derivados, o açúcar e o álcool, impulsionando o desenvolvimento do setor sucroalcooleiro nacional. Neste sentido, o melhoramento genético da cana-de-açúcar aparece como base fundamental para o desenvolvimento de novas variedades para a manutenção e incremento dos agronegócios da agroindústria sucroalcooleira. Técnicas de engenharia genética, como a transformação genética nuclear, estão trazendo excelentes resultados no melhoramento genético da cultura, permitindo diminuir o custo e o tempo de obtenção de novas variedades. Baseando-se na importância em se obter variedades tolerantes a diferentes estresses bióticos e abióticos que induzem perturbações metabólicas e ativam o processo de morte celular programada, o presente trabalho teve por objetivo transformar geneticamente a variedade de cana-de-açúcar RB835089 com o cDNA do gene AtBI-1 isolado de Arabidopsis thaliana, visando suprimir a indução do mecanismo de morte celular sob condição de estresse. Para isto, calos embriogênicos foram utilizados como explante alvo, empregando-se dois métodos de transformação, a cotransformação por biolística, e o mediado por Agrobacterium tumefaciens no qual foram testadas duas técnicas: (a) inoculação direta dos calos em suspensão bacteriana; e (b) agrobiolística que é o bombardeamento dos calos com partículas de tungstênio seguido da inoculação em suspensão bacteriana. A proteína AtBI-1 (Bax inhibitor-1) apresenta homólogos em outros organismos e está localizada na membrana do retículo endoplasmático. Ela apresenta funções citoprotetoras modulando o mecanismo de morte celular programada induzida por estresses bióticos e abióticos. Como resultados deste trabalho, diferentes taxas de eficiência da transformação genética foram obtidas pelo método mediado por A. tumefaciens nas duas técnicas testadas, sendo que suas taxas foram superiores às alcançadas pelo método de co-transformação por biolística. A expressão heteróloga do cDNA do gene AtBI-1 em cana-de-açúcar atenuou a indução das vias de morte celular em presença do antibiótico tunicamicina, indutor do estresse no retículo endoplasmático, sendo comprovado pela maior tolerância ao estresse das plantas transgênicas quando comparadas com as plantas não transformadas que foram afetas no crescimento do sistema radicular, conteúdo de clorofila total, apresentando sintomas típicos de morte celular programada como clorose foliar e morfologia irregular das raízes, com consequente morte do sistema radicular. / Sugarcane is one of the main crops planted in Brazil and presents significant socioeconomic and agribusiness importance to the country. The world scene is quite favorable as regards the marketing of its two main products, sugar and alcohol, driving the development of the national sugar-alcohol sector. Therefore, the sugarcane genetic breeding appears as the fundamental base for developing new varieties for the maintenance and increase of agribusiness in the sugarcane agroindustry. Genetic engineering techniques, such as the nuclear genetic transformation, are providing excellent results in genetic breeding of this crop allowing reducing the cost and time to obtain new varieties. Based on the importance of obtaining varieties tolerant to different biotic and abiotic stresses that induce metabolic disturbances and activate the process of programmed cell death, this work aimed to transform sugarcane variety RB835089 with the cDNA of AtBI-1 gene, isolated from Arabidopsis thaliana, to suppress the induction of the cell death mechanism under stress condition. For this, embryogenic calli were used as target explant, by using two methods of transformation, the cotransformation by biolistic, and mediated by Agrobacterium tumefaciens in which two techniques were tested: (a) direct inoculation of calli in bacterial suspension; (b) agrobiolistic which is the bombardment of calli with tungstein particles followed by inoculation in bacterial suspension. The AtBI-1 protein (Bax inhibitor-1) presents homologs in other organisms and is located in the endoplasmic reticulum membranes. It has cytoprotective functions by modulating the mechanism of programmed cell death induced by biotic and abiotic stresses. As results of this work, different efficiency rates in genetic transformation were obtained in the method mediated by A. tumefaciens in the two techniques tested, and that their rates were higher than those achieved using the cotransformation by biolistic. The heterologous expression of cDNA of AtBI-1 gene in sugarcane attenuated the induction of cell death pathways in the presence of tunicamycin antibiotic, an inducer of stress in the endoplasmic reticulum, being proven by the increased stress tolerance of transgenic plants compared with sugarcane wild type that were affected in the root growth, total chlorophyll content, showing typical symptoms of programmed cell death such as leaf chlorosis and irregular morphology of the roots, with subsequent death of the root system.
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Transformação genética de cana-de-açúcar por biolística e Agrobacterium tumefaciens visando estudar o mecanismo de morte celular programada / Genetic transformation of sugarcane by biolistic and Agrobacterium tumefaciens to study the mechanism of programmed cell deathDanila Montewka Melotto-Passarin 08 April 2009 (has links)
A cana-de-açúcar é uma das principais culturas agrícolas plantadas no Brasil e apresenta significativa importância sócio-econômica e agroindustrial ao país. O cenário mundial encontrase bastante favorável no que concerne à comercialização de seus dois principais produtos derivados, o açúcar e o álcool, impulsionando o desenvolvimento do setor sucroalcooleiro nacional. Neste sentido, o melhoramento genético da cana-de-açúcar aparece como base fundamental para o desenvolvimento de novas variedades para a manutenção e incremento dos agronegócios da agroindústria sucroalcooleira. Técnicas de engenharia genética, como a transformação genética nuclear, estão trazendo excelentes resultados no melhoramento genético da cultura, permitindo diminuir o custo e o tempo de obtenção de novas variedades. Baseando-se na importância em se obter variedades tolerantes a diferentes estresses bióticos e abióticos que induzem perturbações metabólicas e ativam o processo de morte celular programada, o presente trabalho teve por objetivo transformar geneticamente a variedade de cana-de-açúcar RB835089 com o cDNA do gene AtBI-1 isolado de Arabidopsis thaliana, visando suprimir a indução do mecanismo de morte celular sob condição de estresse. Para isto, calos embriogênicos foram utilizados como explante alvo, empregando-se dois métodos de transformação, a cotransformação por biolística, e o mediado por Agrobacterium tumefaciens no qual foram testadas duas técnicas: (a) inoculação direta dos calos em suspensão bacteriana; e (b) agrobiolística que é o bombardeamento dos calos com partículas de tungstênio seguido da inoculação em suspensão bacteriana. A proteína AtBI-1 (Bax inhibitor-1) apresenta homólogos em outros organismos e está localizada na membrana do retículo endoplasmático. Ela apresenta funções citoprotetoras modulando o mecanismo de morte celular programada induzida por estresses bióticos e abióticos. Como resultados deste trabalho, diferentes taxas de eficiência da transformação genética foram obtidas pelo método mediado por A. tumefaciens nas duas técnicas testadas, sendo que suas taxas foram superiores às alcançadas pelo método de co-transformação por biolística. A expressão heteróloga do cDNA do gene AtBI-1 em cana-de-açúcar atenuou a indução das vias de morte celular em presença do antibiótico tunicamicina, indutor do estresse no retículo endoplasmático, sendo comprovado pela maior tolerância ao estresse das plantas transgênicas quando comparadas com as plantas não transformadas que foram afetas no crescimento do sistema radicular, conteúdo de clorofila total, apresentando sintomas típicos de morte celular programada como clorose foliar e morfologia irregular das raízes, com consequente morte do sistema radicular. / Sugarcane is one of the main crops planted in Brazil and presents significant socioeconomic and agribusiness importance to the country. The world scene is quite favorable as regards the marketing of its two main products, sugar and alcohol, driving the development of the national sugar-alcohol sector. Therefore, the sugarcane genetic breeding appears as the fundamental base for developing new varieties for the maintenance and increase of agribusiness in the sugarcane agroindustry. Genetic engineering techniques, such as the nuclear genetic transformation, are providing excellent results in genetic breeding of this crop allowing reducing the cost and time to obtain new varieties. Based on the importance of obtaining varieties tolerant to different biotic and abiotic stresses that induce metabolic disturbances and activate the process of programmed cell death, this work aimed to transform sugarcane variety RB835089 with the cDNA of AtBI-1 gene, isolated from Arabidopsis thaliana, to suppress the induction of the cell death mechanism under stress condition. For this, embryogenic calli were used as target explant, by using two methods of transformation, the cotransformation by biolistic, and mediated by Agrobacterium tumefaciens in which two techniques were tested: (a) direct inoculation of calli in bacterial suspension; (b) agrobiolistic which is the bombardment of calli with tungstein particles followed by inoculation in bacterial suspension. The AtBI-1 protein (Bax inhibitor-1) presents homologs in other organisms and is located in the endoplasmic reticulum membranes. It has cytoprotective functions by modulating the mechanism of programmed cell death induced by biotic and abiotic stresses. As results of this work, different efficiency rates in genetic transformation were obtained in the method mediated by A. tumefaciens in the two techniques tested, and that their rates were higher than those achieved using the cotransformation by biolistic. The heterologous expression of cDNA of AtBI-1 gene in sugarcane attenuated the induction of cell death pathways in the presence of tunicamycin antibiotic, an inducer of stress in the endoplasmic reticulum, being proven by the increased stress tolerance of transgenic plants compared with sugarcane wild type that were affected in the root growth, total chlorophyll content, showing typical symptoms of programmed cell death such as leaf chlorosis and irregular morphology of the roots, with subsequent death of the root system.
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Study and treatment of intraocular inflammation by anti-inflammatory gene transfer to the retinaKoch, Philippe 23 March 2011 (has links)
Immunology plays an important role in many ocular disorders. With Evolution, some major organs are able to hide from the immune system. Ocular immune privilege (OIP) can be defined as the ability to raise immune tolerance against an antigen (Ag) when this Ag is placed in specific areas of the eye. Despite the presence of OIP, RPE cells transplanted to the subretinal space (SRS) encounter immune rejection. Specifically, posterior segment autoimmune uveitis (AIU) is a sight-threatening disorder affecting the working-age population. It could be defined as the alteration of OIP that allows retinal auto-antigen recognition by the immune system. Blood-retinal barrier (BRB) breakdown plays a central role in AIU, leading to invasion of leukocytes to the eye. Animal models of experimental autoimmune uveitis (EAU) play a major place in the comprehension of AIU, with correlations to human clinic. Using anti-inflammatory gene transfer to the eye with secreted proteins, different groups significantly reduced EAU development. SOCS1, being a natural intracellular down-regulator of IFNγ pathway and interacting on other cascades, appeared to be an interesting candidate.<p><p>We herein propose to study different therapeutical paradigms for intraocular inflammation using anti-inflammatory gene transfer to the retina.<p>Transfer of immuno-modulatory genes in RPE cells prior to their transplantation into the subretinal space could be useful to reduce immune rejection. We thus compared in vitro adeno-associated viral (AAV) gene transfer to a human immortalised RPE cell-line (ARPE-19) and primary cells (hRPE), to modify their genetic properties. We investigated 3 different serotypes and promoters in vitro, before evaluating a SOCS1 gene transfer to decrease immunogenicity of ARPE-19 cells in a xenograft rat model. We showed that AAV2 efficiently transduced at least 60% of ARPE-19 and hRPE cells, by comparison with the AAV1 and 5. In dividing ARPE-19 cells, mean-fluorescent intensity of CMV-driven gene expression was higher as compared to chicken beta-actin (CAG) and tetracycline inducible (TetON) promoters, but quickly decreased with time whereas CAG was more stable. AAV2-CAG-SOCS1 infection of ARPE-19 cells significantly decreased IFNγ-induced MHC II expression. In a last experiment, we infected in vitro ARPE-19 cells, using AAV2-CAG-SOCS1, prior to their delivery into the SRS of Lewis rats, and compared it with AAV2-CAG-eGFP-infected cells or non-infected cells. Since our preliminary results were not conclusive due to technical limitations, more extended investigations are necessary.<p>In another part, we developed a clinical grading system (CGS) to efficiently score EAU development in mice fundus. Particularly, we introduced the concept of active and inactive inflammation. However, some differences between CGS and histological (HGS) grading systems were pointed out to better characterise weaknesses of each method. We thus enhanced our CGS to reduce discrepancies with HGS but will need further investigations to obtain comparable grading systems.<p>Finally, we examined in vivo effects of a SOCS1 overexpression on EAU development, following AAV2-CAG-SOCS1 intravitreal (IVit) delivery in right eyes. We first tried two different intraocular routes of injections in this inflammatory model and showed IVit delivery to be the less traumatic. Due to important animal variabilities in EAU, SOCS1 overexpression did not lead to a significant reduction of inflammation when compared to GFP as a whole. However, our design study, allowing to compare injected versus non injected eyes, furthermore revealed IVit injection side effects with pro-inflammatory reaction due to the injection of AAV2-CAG-eGFP itself. In order to reduce the impact of inter-animal variability, we standardized the data by comparing the mean of ratios of injected over non-injected eyes (I/NI) for each animal rather than absolute values. We showed a significant reduction of the clinical and histological scores of the SOCS1 group as compared to the GFP group that was even stronger in the AAV2-targeted parts of the eyes. However, we missed a saline control to corroborate using our GFP group as a control and will need to introduce in a close future some bilateral injections to validate the use of the mean of grading ratios of I/NI in our experiments. Particularly, we showed a different pattern of MHC II positive invading cells in the ciliary body between SOCS1 treated and non-treated eyes. Further investigations are necessary to confirm and characterise SOCS1 protective mechanism in EAU. / Doctorat en Sciences médicales / info:eu-repo/semantics/nonPublished
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Etude in vivo du rôle de la 5-phosphatase de phosphoinositides SKIPPernot, Eileen 08 February 2008 (has links)
Les membres de la famille des 5-phosphatases d’inositols polyphosphates et de phosphoinositides sont des enzymes caractérisées par la présence de deux domaines catalytiques conservés qui hydrolysent un phosphate en position 5 sur un noyau inositol. SKIP (Skeletal Muscle and Kidney enriched Inositol Phosphatase), également appelée Pps (Putative PI 5-phosphatase) est un des derniers membres de la famille des 5-phosphatases à avoir été découvert à ce jour. Cette enzyme hydrolyse majoritairement le phosphatidylinositol-4,5-bisphosphate (PtdIns(4,5)P2) et le phosphatidylinositol-3,4,5-trisphosphate (PtdIns(3,4,5)P3). Les phosphoinositides (PtdIns) représentent environ 10% des lipides membranaires et sont impliqués dans de nombreuses cascades de signalisation cellulaire conduisant, entre autres, à la prolifération, l’apoptose, la différenciation, la sécrétion, le trafic vésiculaire et la mobilité cellulaire.<p>Des études de surexpression de SKIP en cellules tendent à montrer que cette protéine pourrait jouer un rôle de régulateur négatif dans la formation du cytosquelette d’actine et/ou dans la voie de signalisation de l’insuline. <p><p>Afin d’étudier in vivo la fonction de la protéine SKIP chez la souris, nous avons décidé de générer des souris transgéniques surexprimant cette protéine de manière conditionnelle. Dans ce but, nous avons infecté des embryons murins par des lentivirus porteurs d’un transgène SKIP et avons obtenu, après réimplantation des embryons infectés dans des femelles pseudogestantes, deux lignées de souris transgéniques. Celles-ci ont ensuite été croisées avec des souris exprimant la recombinase Cre de manière ubiquitaire afin de pouvoir activer la transcription de SKIP dans l’ensemble des organes. Des expériences de Western blot, de dosage d’activité 5-phosphatase ainsi que des PCR en temps réel sont venus confirmer la présence de la protéine transgénique et de son activité catalytique.<p>L’ensemble des expériences qui ont été menées du point de vue phénotypique tend à montrer que dans notre modèle, la surexpression de SKIP ne provoque aucune anomalie évidente du point de vue anatomique, glycémique ou immunologique. Toutefois, des expériences concernant la physiologie rénale ont été réalisées sur base des résultats d’immunohistochimie et nous ont permis de détecter une anomalie dans les mécanismes de réabsorption d’eau ainsi que dans l’expression et la phosphorylation des canaux hydriques AQP2.<p> / Doctorat en Sciences / info:eu-repo/semantics/nonPublished
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