Plantas de cana-de-açúcar (Saccharum spp.) transformadas geneticamente com o gene AtBI-1 submetidas ao déficit hídrico em casa-de-vegetação / Plants of sugarcane (Saccharum spp.) genetically transformed with the gene AtBI- 1 subjected to water deficit in green-house

Barbosa, Mariana de Almeida

02 July 2013

A cana-de-açúcar é uma das principais culturas agrícolas no cenário econômico e social brasileiro. Na cultura de cana-de-açúcar o estresse hídrico é o principal fator limitante para o aumento de produtividade, sendo responsável por alterações fisiológicas, bioquímicas e moleculares nas plantas, que podem deflagrar perturbações metabólicas que ativam a morte celular programada (MCP). Sabendo-se que o gene BI-1 apresenta o potencial de reduzir os efeitos da MCP desencadeado por estresses bióticos e abióticos em plantas, este trabalho teve como objetivo analisar plantas transgênicas de cana-de-açúcar que expressam o gene BI-1 de Arabidopsis thaliana (AtBI-1) em condições de estresse hídrico. Também, plantas transgênicas e controle foram inoculadas com o fungo Puccinia melanocephala demonstrando que o processo de transformação genética com o gene AtBI-1 alterou as características pré existentes de resistência a ferrugem marrom nas plantas transgênicas. Os estudos de tolerância ao défict hídrico foram realizados em dois experimentos, o experimento 1 com plantas transgênicas e controles de 90 dias e o experimento 2 com plantas de 60 dias. Plantas do experimento 1 foram analisadas quanto características morfológicas como número de estômatos e tricomas, altura e circunferência do colmo e após ficarem 24 dias sem água foram analisadas quanto a taxa fotossintética, comportamento estomático e conteúdo relativo de água nas folhas, enquanto no experimento 2 as plantas foram analisadas quanto aos teores de prolina, atividades das enzimas guaiacol peroxidase (GPOX), ascorbato peroxidase (APX) e catalase (CAT) após as plantas ficarem 17 dias sob déficit hídrico. Estas enzimas estão envolvidas em processos de desativação de elementos ativos de oxigênio. Os resultados demonstraram que as plantas transgênicas expressando o gene AtBI-1 possuem fenótipo de menor altura, e maior taxa fotossintética, maior comportamento estomático e maior conteúdo relativo de água nas folhas, e assim apresentam maior tolerância ao déficit hídrico que plantas controle. Contudo, houve baixo acúmulo de prolina, baixa atividade da GPOX, APX e CAT nas plantas transgênicas durante o estresse hídrico comparada com as plantas controle do mesmo tratamento. Porém foi observado alta atividade constitutiva da catalase nas plantas transgênicas. A atividade da catalase nestas plantas transgênicas sugere a possibilidade da interação entre AtBI-1 e calmudolinas. Futuros estudos podem contribuir para elucidar se a proteína BI-1 é essencial para a ativação das catalases por calmudolinas. / Sugarcane is one of the main agricultural crops in the Brazilian social and economic scenario. Water stress in the culture of sugarcane is the main limiting factor for increasing productivity accounting for physiological, biochemical and molecular plants that can trigger metabolic disturbances activating programmed cell death (MCP). Knowing that the BI-1 gene has the potential to reduce the effects of MCP triggered by biotic and abiotic stresses in plants, this study aimed to analyze transgenic sugarcane that express the BI-1 gene of Arabidopsis thaliana (AtBI-1) under water stress. Also, transgenic and control plants were inoculated with Puccinia melanocephala fungus demonstrating that the genetic transformation process with the AtBI-1 gene altered the pre-existing characteristics of brown rust resistance in transgenic plants. Studies of tolerance to water deficit were performed in two experiments, the experiment 1 was prepared with transgenic and control plants with 90 days and the experiment 2 used plants with 60 days. Plants from experiment 1 were analyzed as for morphological characteristics such as number of stomata and trichomes, height and diameter of stem after plants being under water for 24 days as were analyzed photosynthetic rate, stomatal behavior, relative water content in leaves while in the experiment 2, plants were analyzed for the levels of proline, enzyme activities of guaiacol peroxidase (GPOX), ascorbate peroxidase (APX) and catalase (CAT) under water deficit for 17 days. These enzymes are involved in deactivation of active elements oxygen. The results demonstrated that the transgenic plants expressing the AtBI-1 gene presented the phenotype of lower height, higher index of leaf area, higher photosynthetic rate, higher stomatal behavior and higher relative water content in leaves than control plants increasing tolerance to drought stress. However, there were low levels of proline, low activity of GPOX activity, APX and CAT in transgenic plants during drought stress compared to control plants of the same treatment, but the observed high constitutive activity of catalase in transgenic plants. Catalase activity in these transgenic plants suggests the possibility of interaction between AtBI-1 and calmudolinas. Future studies may contribute to understand whether the BI-1protein is essential for the activation of catalase by calmudolinas.

Ascorbate peroxidase

Ascorbato peroxidase

Bi-1

Bi-1

Catalase

Catalase

Genetic transformation of plants

Morte celular programada

Programmed cell death

Prolina

Proline

Transformação genética de plantas

Plantas de cana-de-açúcar (Saccharum spp.) transformadas geneticamente com o gene AtBI-1 submetidas ao déficit hídrico em casa-de-vegetação / Plants of sugarcane (Saccharum spp.) genetically transformed with the gene AtBI- 1 subjected to water deficit in green-house

Mariana de Almeida Barbosa

02 July 2013

A cana-de-açúcar é uma das principais culturas agrícolas no cenário econômico e social brasileiro. Na cultura de cana-de-açúcar o estresse hídrico é o principal fator limitante para o aumento de produtividade, sendo responsável por alterações fisiológicas, bioquímicas e moleculares nas plantas, que podem deflagrar perturbações metabólicas que ativam a morte celular programada (MCP). Sabendo-se que o gene BI-1 apresenta o potencial de reduzir os efeitos da MCP desencadeado por estresses bióticos e abióticos em plantas, este trabalho teve como objetivo analisar plantas transgênicas de cana-de-açúcar que expressam o gene BI-1 de Arabidopsis thaliana (AtBI-1) em condições de estresse hídrico. Também, plantas transgênicas e controle foram inoculadas com o fungo Puccinia melanocephala demonstrando que o processo de transformação genética com o gene AtBI-1 alterou as características pré existentes de resistência a ferrugem marrom nas plantas transgênicas. Os estudos de tolerância ao défict hídrico foram realizados em dois experimentos, o experimento 1 com plantas transgênicas e controles de 90 dias e o experimento 2 com plantas de 60 dias. Plantas do experimento 1 foram analisadas quanto características morfológicas como número de estômatos e tricomas, altura e circunferência do colmo e após ficarem 24 dias sem água foram analisadas quanto a taxa fotossintética, comportamento estomático e conteúdo relativo de água nas folhas, enquanto no experimento 2 as plantas foram analisadas quanto aos teores de prolina, atividades das enzimas guaiacol peroxidase (GPOX), ascorbato peroxidase (APX) e catalase (CAT) após as plantas ficarem 17 dias sob déficit hídrico. Estas enzimas estão envolvidas em processos de desativação de elementos ativos de oxigênio. Os resultados demonstraram que as plantas transgênicas expressando o gene AtBI-1 possuem fenótipo de menor altura, e maior taxa fotossintética, maior comportamento estomático e maior conteúdo relativo de água nas folhas, e assim apresentam maior tolerância ao déficit hídrico que plantas controle. Contudo, houve baixo acúmulo de prolina, baixa atividade da GPOX, APX e CAT nas plantas transgênicas durante o estresse hídrico comparada com as plantas controle do mesmo tratamento. Porém foi observado alta atividade constitutiva da catalase nas plantas transgênicas. A atividade da catalase nestas plantas transgênicas sugere a possibilidade da interação entre AtBI-1 e calmudolinas. Futuros estudos podem contribuir para elucidar se a proteína BI-1 é essencial para a ativação das catalases por calmudolinas. / Sugarcane is one of the main agricultural crops in the Brazilian social and economic scenario. Water stress in the culture of sugarcane is the main limiting factor for increasing productivity accounting for physiological, biochemical and molecular plants that can trigger metabolic disturbances activating programmed cell death (MCP). Knowing that the BI-1 gene has the potential to reduce the effects of MCP triggered by biotic and abiotic stresses in plants, this study aimed to analyze transgenic sugarcane that express the BI-1 gene of Arabidopsis thaliana (AtBI-1) under water stress. Also, transgenic and control plants were inoculated with Puccinia melanocephala fungus demonstrating that the genetic transformation process with the AtBI-1 gene altered the pre-existing characteristics of brown rust resistance in transgenic plants. Studies of tolerance to water deficit were performed in two experiments, the experiment 1 was prepared with transgenic and control plants with 90 days and the experiment 2 used plants with 60 days. Plants from experiment 1 were analyzed as for morphological characteristics such as number of stomata and trichomes, height and diameter of stem after plants being under water for 24 days as were analyzed photosynthetic rate, stomatal behavior, relative water content in leaves while in the experiment 2, plants were analyzed for the levels of proline, enzyme activities of guaiacol peroxidase (GPOX), ascorbate peroxidase (APX) and catalase (CAT) under water deficit for 17 days. These enzymes are involved in deactivation of active elements oxygen. The results demonstrated that the transgenic plants expressing the AtBI-1 gene presented the phenotype of lower height, higher index of leaf area, higher photosynthetic rate, higher stomatal behavior and higher relative water content in leaves than control plants increasing tolerance to drought stress. However, there were low levels of proline, low activity of GPOX activity, APX and CAT in transgenic plants during drought stress compared to control plants of the same treatment, but the observed high constitutive activity of catalase in transgenic plants. Catalase activity in these transgenic plants suggests the possibility of interaction between AtBI-1 and calmudolinas. Future studies may contribute to understand whether the BI-1protein is essential for the activation of catalase by calmudolinas.

Ascorbato peroxidase

Bi-1

Catalase

Morte celular programada

Prolina

Transformação genética de plantas

Ascorbate peroxidase

Bi-1

Catalase

Genetic transformation of plants

Programmed cell death

Proline

Rôles du stress du réticulum endoplasmique et de Bax Inhibitor-1 dans les complications hépatiques liées à l’obésité / The roles of endoplasmic reticulum stress and Bax inhibitor-1 in non-alcoholic fatty liver disease

Lebeaupin, Cynthia

26 April 2018

La pandémie de l'obésité entraine une augmentation de la prévalence des maladies chroniques du foie ou stéatopathies métaboliques (NAFLD). Le spectre des NAFLD va de la stéatose caractérisée par une accumulation de lipides dans le foie à la stéatohépatite (NASH) associant une inflammation, de la mort hépatocytaire et de la fibrose. Lors de l'obésité, l'élévation de signaux de dangers métaboliques perturbe les fonctions du réticulum endoplasmique (RE) essentielles pour l’homéostasie cellulaire. Les perturbations sont transmises par 3 senseurs : IRE1α, ATF6 et PERK pour activer une réponse adaptative. Si ce stress est sévère ou devient chronique, la cellule enclenchera une réponse terminale apoptotique. La protéine Bax Inhibitor-1 (BI-1) pourrait jouer un rôle hépatoprotecteur en inhibant l’hyperactivation de la voie de signalisation IRE1α.En combinant des études chez l’homme et dans des modèles animaux, l’objectif de cette étude était de mieux caractériser l'activation chronique du stress du RE dans les NAFLD. Ce travail a émis l’hypothèse qu’une déficience en BI-1 entrainerait l’activation soutenue de la voie IRE1α qui serait responsable de la transition de la stéatose à la NASH. Cette étude s'intéresse au dialogue potentiel entre le stress du RE et l’activation de l'inflammasome NLRP3, qui induit la sécrétion des cytokines pro-inflammatoires (IL-1β, IL-18) grâce aux caspases pro-inflammatoires (caspase-1, caspase-4/11). L’utilisation d’un inhibiteur global du stress du RE ou des inhibiteurs pharmacologiques spécifiques à la voie IRE1α améliorerait les caractéristiques pathophysiologiques de la NASH et pourrait ouvrir de nouvelles perspectives thérapeutiques. / Due to the obesity pandemic, the last decades have been marked by a constantly increasing prevalence of Non-Alcoholic Fatty Liver Disease (NAFLD). NAFLD covers a spectrum of hepatic disorders ranging from steatosis, characterized by the ectopic accumulation of lipids in the liver, to steatohepatitis (NASH), featuring inflammation, hepatocellular death and fibrosis. During obesity, an increase in metabolic danger signals leads to disrupted endoplasmic reticulum (ER) function, essential for cellular homeostasis. The resulting ER stress activates a signaling network involving three sensors: IRE1α, ATF6 and PERK to enforce adaptive programs. If this stress is severe or becomes chronic, the cell will trigger a terminal apoptotic response. The protein Bax Inhibitor-1 (BI-1), as a negative endogenous regulator of the IRE1α signaling pathway in the liver, may play a hepatoprotective role.By combining data from obese patients with liver complications and experimental approaches in mice, this thesis aimed to better characterize the chronic activation of ER stress in NAFLD pathogenesis. This work also emitted the hypothesis that a deficiency in BI-1 leads to unrestrained IRE1α signaling that may be responsible for the steatosis to NASH transition. This study further investigated the potential dialogue between ER stress and the activation the NLRP3 inflammasome, which induces the secretion of pro-inflammatory cytokines (IL-1β, IL-18) by activating pro-inflammatory caspases (caspase-1, caspase-4/11). The administration of a broad spectrum ER stress inhibitor or specific inhibitors of IRE1α improved the pathophysiological features of NASH and may open novel therapeutic perspectives.

BI-1

IRE1α

UPR

Inflammasome NLRP3

Mort cellulaire

Foie

Stéatopathies métaboliques

Traitements pharmacologiques

BI-1

IRE1α

UPR

NLRP3 inflammasome

Cell death

Liver

Non-alcoholic steatohepatitis

Pharmacological treatments

Étude de l'expression d'AtBI-1 lors de la mort cellulaire programmée causée par les UV-C

Chaîné, Marie-Andrée

January 2011

Chez les végétaux, la mort cellulaire programmée (MCP) permet d'assurer le développement optimal de la plante et de protéger l'organisme contre différents stress biotiques et abiotiques. Peu d'effecteurs de la MCP végétale sont connus et caractérisés. L'objectif de ce projet de maîtrise était donc d'améliorer nos connaissances sur l'un de ces effecteurs : la protéine anti-apoptotique Bax inhibitor-1 (BI-1). Chez les plantes, BI-1 possède un rôle de protection contre la MCP induite par différents stress et ce projet s'est intéressé à la caractérisation de ce rôle pour trois agents stressants. L'utilisation de différents mutants nuls et surexpresseurs d'AtBI-1 chez la plante modèle Arabidopsis thaliana pour des tests de germination et l'extraction de la chlorophylle a permis la démonstration d'un rôle de protection d'AtBI-1 contre la MCP induite par les UV-C et le méthyl viologène puisque son absence augmente la sensibilité des plantules. Par contre, dans les conditions utilisées, AtBI-1 ne semble pas jouer de rôle de protection contre une MCP induite par les cytokinines. La suite du projet s'est concentrée sur la régulation du gène AtBI-1 suite à une irradiation aux UV-C. Une région régulatrice spécifique aux UV-C a pu être identifiée grâce à une série de constructions comprenant la région régulatrice d'AtBI-1 coupée à différents sites de restriction et couplée au gène rapporteur GUS. Cette région régulatrice est probablement impliquée dans la régulation négative du gène puisque sa délétion entraîne une forte augmentation de l'expression basale d'AtBI-1. Enfin, une analyse bio-informatique de cette région régulatrice spécifique aux UV-C a permis l'identification de plusieurs motifs et sites de liaison pouvant potentiellement être impliqués dans la régulation d'AtBI-1 par les UV-C. De plus, des essais de gel à retardement sur cette région régulatrice montrent qu'elle est liée par un facteur nucléaire en conditions normales et qu'il y a perte de cette liaison suite à un traitement aux UV-C. L'identification de ce facteur nucléaire permettra de déterminer son implication dans la régulation d' AtBI-1 par les UV-C.

GT-1

UV-C

Mort cellulaire programmée (MCP)

Bax inhibitor-1 (BI-1)

Arabidopsis thaliana

Isolation and functional analysis of differentially expressed genes in human prostate cancer / Analysis of differentially expressed genes in human prostate cancer / Isolierung und funktionelle Analyse differentiell exprimierter Gene im humanen Prostatakarzinom / Analyse differentiell exprimierter Gene im humanen Prostatakarzinom

Grzmil, Michal

28 January 2003

No description available.

570 Biowissenschaften, Biologie

Mathematics and Computer Science

Prostatakrebs

Zellinvasion

Proliferation

Zellapoptose

prostate

cancer

invasion

proliferation

apoptosis

IGF-IR

MMP-2

IGFBP-3

BI-1

PC-3

LNCaP;siRNA

LCM

42.13

42.15

42.20

WH 000: Cytologie {Biologie}