Etude de peptides sécrétés par le champignon mycorhizien à arbuscules Rhizophagus irregularis / Study of the role of secreted peptides by the arbuscular mycorrhizal fungus Rhizophagus irregularis

Le Marquer, Morgane

31 October 2018

La symbiose mycorhizienne à arbuscules (MA) est une association bénéfique établie entre les membres d'un ancien sous-phylum de champignons, les Gloméromycètes, et les racines de la majorité des plantes terrestres. Les champignons MA procurent de l'eau et des minéraux (azote et phosphore principalement) à leur plante hôte et obtiennent de cette dernière des molécules carbonées sous forme d'hexoses et de lipides. Des études récentes ont montré que certaines protéines sécrétées par les champignons MA peuvent être des régulateurs importants de l'association (Kloppholz et al., 2011 ; Tsuzuki et al., 2016). Notre objectif était d'identifier de nouvelles protéines fongiques contribuant à la mise en place de la symbiose. Des protéines prédites pour être préférentiellement sécrétées par le champignon MA Rhizophagus irregularis dans les racines ont été identifiées au début de ma thèse (Kamel et al., 2017). Certaines d'entre-elles présentaient une structure ressemblant aux précurseurs de phéromones sexuelles d'Ascomycètes. Ces protéines sont connues pour être maturées dans les voies de sécrétion en petits peptides qui sont ensuite sécrétés. Leur reconnaissance par un récepteur couplé à la protéine G (GPCR) aboutit à la fusion cellulaire de deux types sexuels opposés. Dans le cas de R. irregularis, seule la reproduction clonale a été décrite, mais des données génomiques récentes remettent en question son statut d'organisme asexué (Ropars et al., 2016). Une grande partie de ma thèse a été dédiée à la caractérisation fonctionnelle de ce type de peptides chez R. irregularis. Nous avons montré que deux peptides étaient effectivement produits et sécrétés par R. irregularis. L'utilisation de peptides synthétiques nous a permis de mettre en évidence que l'un d'eux stimulait la colonisation de M. truncatula mais était également perçu par le champignon lui-même, induisant la transcription de son propre gène précurseur et d'un GPCR. Ce peptide stimulateur de la symbiose est composé de seulement trois acides aminés et il peut être produit à partir de trois précurseurs protéiques. Par des approches de génétique inverse (HIGS et VIGS), nous avons confirmé l'importance de ces précurseurs dans l'établissement de la symbiose.[...] / Arbuscular Mycorrhizal (AM) symbiosis is a beneficial association established between members of an ancient subphylum of fungi, the Glomeromycotina, and the roots of the majority of terrestrial plants. AM fungi provide water and minerals (mainly nitrogen and phosphorus) to their host plant in exchange for organic carbon in the form of hexoses and lipids. Recent studies have shown that certain proteins secreted by AM fungi are important symbiosis regulators (Kloppholz et al., 2011, Tsuzuki et al., 2016). Our aim was to identify new fungal proteins involved in the establishment of symbiosis. Proteins predicted to be preferentially secreted by the AM fungus Rhizophagus irregularis in the roots were identified at the beginning of my thesis (Kamel et al., 2017). We noticed that some of them had a structure resembling the sex pheromone precursors of Ascomycota. These proteins are known to be processed in the secretory pathway into small peptides which are then secreted. Their recognition by a G protein-coupled receptor (GPCR) leads to cell fusion of two opposite sex types. In the case of R. irregularis, only clonal reproduction has been described. However, recent genomic data question its status as an asexual organism (Ropars et al., 2016). A large part of my thesis was dedicated to the functional characterization of this type of processed peptides in R. irregularis. We show that two of them are actually produced and secreted by R. irregularis. Treatments with synthetic forms of these peptides revealed that one of them stimulated the colonization of M. truncatula but was also perceived by the fungus itself, inducing the transcription of its own precursor gene and of a GPCR gene. This symbiosis-stimulating peptide is composed of only three amino acids and can be produced from three different protein precursors. Using reverse genetics (HIGS and VIGS), we confirmed the importance of these precursors in the symbiosis establishment. [...]

Symbiose mycorhizienne à arbuscules

Rhizophagus irregularis

Peptide sécrété

Phéromone

KEX2

Récepteur couplé à la protéine G

Host-induced gene silencing

Peptide CLE

Arbuscular mycorrhizal symbiosis

Rhizophagus irregularis

Secreted peptide

Pheromone

KEX2

G protein-coupled receptor

Host-Induced Gene Silencing

CLE peptide

Vliv způsobu indukce RNA interference na umlčování reportérového genu pro GFP u Arabidopsis thaliana / Impact of the mode of RNAi induction on silencing of the reporter GFP gene in Arabidopsis thaliana

Růžičková, Adéla

January 2015

RNA interference (RNAi) is one of the key mechanisms that are involved in many biological processes such as control of plant gene expression, influence on chromatin arrangement or providing protection against invasive DNA or RNA transposons, viruses and transgenes. In plants, RNAi is triggered by double stranded RNA (dsRNA) that is cleaved by DICER LIKE (DCL) proteins to small RNAs (sRNAs). The size of these sRNAs is in range of 21 - 24 nucleotides (nt). Small RNA acts in the place of origin and they are also a mobile signal which in plants can move to a short distance through plasmodesmata and to a long distance trough phloem. sRNA and Argonaute (AGO) protein form RNA-induced silencing complex (RISC). Together, they recognize the target RNA molecule and contribute to an efficient RNAi phase which may be exhibited by gene silencing at posttranscriptional level (PTGS) or transcriptional level (TGS). The purpose of this study was to compare the effects of silencing constructs, witch in a controlled way differently trigger RNAi directed against the expression of the GFP reporter gene in the model organism Arabidopsis thaliana. Silencing constructs were placed under an inducible promoter activated by the presence of 17-β-estradiol (XVE system). They differed in the way of the dsRNA formation and in the...

Elucidating functional interactions between the Russian wheat aphid (D. noxia Kurjumov) and bread wheat (Triticum aestivum L.)

Schultz, Thia

12 1900

Thesis (PhD)--Stellenbosch University, 2014. / ENGLISH ABSTRACT: The Russian wheat aphid (Diuraphis noxia, Kurdj., Hemipetra, Aphididae, RWA) is an important pest of wheat, causing large-scale damage and yield losses. Various studies have been done at a transcriptomics level, including complementary DNA-amplified fragment length polymorphisms (cDNA-AFLPs), suppressive subtractive hybridization (SSH) and micro-array, which have identified genes putatively involved in RWA resistance. Even though these candidate genes have been identified, their role in host defence still needs to be verified using a functional genetics approach. In this study virus induced gene silencing (VIGS) using a barley stripe mosaic virus (BSMV) vector, has been utilized to knock-down candidate genes of interest in a wheat cultivar with the Dn1-resistance gene (TugelaDN). In this study it was hypothesized that genes involved in the hypersensitive response (HR) may contribute towards resistance and were thus targeted for silencing. These include glutathione-S-transferase (GST), superoxide dismutase Cu/Zn (SOD) and thylakoid-associated ascorbate peroxidase (tAPX). However, since aphid feeding also results in wounding, the genes were also analyzed under wounding only. Aphid fecundity is considered an indicator of involvement in RWA resistance, as susceptible plants result in higher aphid fertility. Findings in the study suggest that with wounding only, that Dn1 containing plants produce a greater hypersensitive response than susceptible controls. Ascorbate peroxidase was found to be important for wounding-induced resistance in Dn1 wheat plants. Under infestation conditions, silencing of superoxide dismutase Cu/Zn (SOD) and thylakoid-associated ascorbate peroxidase (tAPX) was found not to have an effect on aphid fertility and thus are not directly involved in resistance signaling. Knock-down of a phi-class glutathione-S-transferase F6 (TaGSTF6) transcripts however, had a large effect on aphid nymph numbers and thus may contribute to Dn1-resistance. Putative resistance genes silenced under aphid infestation conditions were a nucleotide binding protein (NBP) and resistance gene analogue 2 (RGA2). Analysis of NBP revealed its identity as a part of the iron homeostasis machinery in the cytosol, responsible for Fe-cluster assembly. Silencing of both NBP and RGA2 resulted in the expression of a susceptible phenotype. T10rga2-1A is an NBS-LRR protein known to be required for rust resistance in concert with resistance gene Lr10. T10rga2-1D silenced treatments resulted in susceptibility and plant death after aphid infestation, suggesting that T10rga2-1D may be a good up-stream candidate in Dn1-resistance. / AFRIKAANSE OPSOMMING: Die Russiese-koringluis (RWA) is ‘n pes wat ‘n belangrike ekonomiese invloed op koring opbrengste het en infestasie kan tot grootskaalse skade en oes verlies lei. Verskeie studies, onder andere komplimentêre DNA amplifiseerde fragment polimorfismes (cDNA-AFLPs), onderdrukkende onderskeidende hibridisaie (SSH) en mikro-reekse wat voorheen op transkriptomiese vlak gedoen is, het moontlike gene wat by RWA weerstand betrokke is, geïdentifiseer. Alhoewel hierdie gene reeds geidentifiseer was, hulle rol is nogtans onbekend. Dié gene moet nog getoets word, duur funksionele genetiese benaderingste maak. In hierdie studie is ‘n gars streep mosaïek virus vektor (BSMV) gebruik om kandidaat-gene van belang in ‘n Dn1-weerstandige geen-bevattende kultivar (TugelaDN) te onderdruk. Ondrukking van gene het deur middel van virus geïnduseerde geen onderdrukking (VIGS) plaasgevind. In hierdie studie is die hipotese gestel dat die gene betrokke by die hipersensitiewe reaksie (HR) ‘n invloed op plantweerstand kan hê en is dus geteiken vir geen-onderdrukking-studies. Hierdie gene het die volgende ingesluit: glutatioon-S-transferase (GST), superoksied dismutase Cu/Zn (SOD) en askorbien peroksidase (APX). Egter, omdat luisinfestasie ook tot verwonding aanleiding gee, is die onderdrukte gene ook onder alleenlik verwondingstoestande getoets. Luis vrugbaarheid is gebruik as indikator van betrokkenheid omdat meer vatbare plante ‘n hoër luis vrugbaarheid tot gevolg het. In die studie is gevind dat onder alleenlik verwondingkondisies, plante wat Dn1 bevat, ‘n groter hipersensitiewe respons vertoon, as vatbare kontroles. Daar is verder gevind dat askorbien peroksidase ‘n belangrike rol tydens verwondings-geïnduseerde weerstand in Dn1-plante speel. Daar is verder bevind dat die onderdrukking van superoksied dismutase Cu/Zn (SOD) en ‘n tilakoïed-geassosïeerde askorbien peroksidase (tAPX). Onder luis-infestasie kondisies, geen effek op luisvrugbaarheid gehad het nie en dus nie direk by die weerstandsrespons betrokke is nie. Die onderdrukking van ‘n phi-klas glutatioon-S-transferase F6 (TaGSTF6) het egter ‘n groot invloed op luis-vrugbaarheid gehad en kan dus ‘n rol in Dn1-weerstand speel. Die moontlike weerstands gene, geïdentifiseer as nukleotied bindings proteïen (NBP) en weestandsgeen anoloog 2 (T10rga2-1D), is getoets onder luis-infestasie kondisies. Die analise van NBP het getoon dat dit ‘n integrale deel van die yster homeostase meganisme in die sitosol, wat vir Fe-kluster samestelling verantwoordelik is, vorm. Onderdrukking van beide die NBP en T10rga2-1D het tot die uitdrukking van ‘n vatbare fenotipe aanleiding gegee. T10rga2-1A is ‘n NBS-LRR proteïen wat bekend is om noodsaaklik te wees tydens roes weerstandigheid in teenwoordigheid van die weerstandsgeen Lr10. T10rga2-1D-onderdrukte behandelings het tot vatbaarheid aangeiding gegee en daartoe gelei dat plante na luis-infestasies doodgaan. Hierdie resultate dui dus ‘n rol vir T10rga2-1D in Dn1-weerstandigheid aan, en suggereer verder dat hierdie geen ‘n goeie stroom-op kandidaat in Dn1-weerstandigheid is.

Russian wheat aphid -- Genetics

Gene silencing

Insect resistance

Bread wheat (Triticum aestivum L.)

UCTD

Theses -- Genetics

Dissertations -- Genetics

The type I-E CRISPR-Cas system : Biology and applications of an adaptive immune system in bacteria

Amlinger, Lina

January 2017

CRISPR-Cas systems are adaptive immune systems in bacteria and archaea, consisting of a clustered regularly interspaced short palindromic repeats (CRISPR) array and CRISPR associated (Cas) proteins. In this work, the type I-E CRISPR-Cas system of Escherichia coli was studied. CRISPR-Cas immunity is divided into three stages. In the first stage, adaptation, Cas1 and Cas2 store memory of invaders in the CRISPR array as short intervening sequences, called spacers. During the expression stage, the array is transcribed, and subsequently processed into small CRISPR RNAs (crRNA), each consisting of one spacer and one repeat. The crRNAs are bound by the Cascade multi-protein complex. During the interference step, Cascade searches for DNA molecules complementary to the crRNA spacer. When a match is found, the target DNA is degraded by the recruited Cas3 nuclease. Host factors required for integration of new spacers into the CRISPR array were first investigated. Deleting recD, involved in DNA repair, abolished memory formation by reducing the concentration of the Cas1-Cas2 expression plasmid, leading to decreased amounts of Cas1 to levels likely insufficient for spacer integration. Deletion of RecD has an indirect effect on adaptation. To facilitate detection of adaptation, a sensitive fluorescent reporter was developed where an out-of-frame yfp reporter gene is moved into frame when a new spacer is integrated, enabling fluorescent detection of adaptation. Integration can be detected in single cells by a variety of fluorescence-based methods. A second aspect of this thesis aimed at investigating spacer elements affecting target interference. Spacers with predicted secondary structures in the crRNA impaired the ability of the CRISPR-Cas system to prevent transformation of targeted plasmids. Lastly, in absence of Cas3, Cascade was successfully used to inhibit transcription of specific genes by preventing RNA polymerase access to the promoter. The CRISPR-Cas field has seen rapid development since the first demonstration of immunity almost ten years ago. However, much research remains to fully understand these interesting adaptive immune systems and the research presented here increases our understanding of the type I-E CRISPR-Cas system.

CRISPR

CRISPR-Cas

virus defense

bacteria

bacteriophage

adaptation

spacer integration

interference

gene silencing

fluorescent reporter

Escherichia coli

Identification of MicroRNA biomarkers for cancer by combining multiple feature selection techniques

Unknown Date

MicroRNAs (miRNAs) may serve as diagnostic and predictive biomarkers for cancer. The aim of this study was to identify novel cancer biomarkers from miRNA datasets, in addition to those already known. Three published miRNA cancer datasets (liver, breast, and brain) were evaluated, and the performance of the entire feature set was compared to the performance of individual feature filters, an ensemble of those filters, and a support vector machine (SVM) wrapper. In addition to confirming many known biomarkers, the main contribution of this study is that seven miRNAs have been newly identified by our ensemble methodology as possible important biomarkers for hepatocellular carcinoma or breast cancer, pending wet lab confirmation. These biomarkers were identified from miRNA expression datasets by combining multiple feature selection techniques (i.e., creating an ensemble) or by the SVM-wrapper, and then classified by different learners. Generally speaking, creating a subset of features by selecting only the highest ranking features (miRNAs) improved upon results generated when using all the miRNAs, and the ensemble and SVM-wrapper approaches outperformed individual feature selection methods. Finally, an algorithm to determine the number of top-ranked features to include in the creation of feature subsets was developed. This algorithm takes into account the performance improvement gained by adding additional features compared to the cost of adding those features. / by Alex Kotlarchyk. / Thesis (Ph.D.)--Florida Atlantic University, 2011. / Includes bibliography. / Electronic reproduction. Boca Raton, Fla., 2011. Mode of access: World Wide Web.

Gene silencing

Biochemical markers

Cancer--Diagnosis--Data processing

Cancer--Diagnosis--Research

Gene expression

Tumor markers--Diagnostic use

TESTES DE SENSIBILIDADE E CONSTRUÇÃO DE CASSETE DE EXPRESSÃO VISANDO O SILENCIAMENTO GENICO DO RECEPTOR DE ETILENO FaETR1 EM Fragaria x ananassa L. Duch.

Reis, Letícia

05 February 2014

Made available in DSpace on 2017-07-25T19:30:52Z (GMT). No. of bitstreams: 1 Leticia Reis.pdf: 8581445 bytes, checksum: 82298b67980249e52bd02781fd0c08df (MD5) Previous issue date: 2014-02-05 / significant world production. The true fruits of the strawberry are dry and called achenes while the fleshy and edible portion actually it is the floral receptacle developed. This set of achene and receptacle features the non-climacteric fruit pattern ripening, characterized by not show a peak respiration and ethylene production during the ripening process and also for this fruits not being able to complete the ripening after harvesting. Due to the small size of the plant, rapid propagation and production of fruit, the strawberry became the model plant in studies of non- climacteric fruit ripening, particularly with regard to the ethylene role in this process. Fruit ripening the focused studies have revealed the existence of a family of protein receptors responsible for the plant ethylene perception. In strawberry, have been identified so far three ethylene receptors genes sequences, divided into two subfamilies (FaETR1 and FaERS1 - subfamily I and FaERS2 - subfamily II). Among these genes, based on the literature, we believe that FaETR1 gene, a member of the ethylene receptors subfamily I, can develop a greater role to the other receptors in the control of perception and ethylene signal transduction. To assess the involvement of FaETR1 ethylene receptor in the strawberry ripening and toward an understanding of the relationship between ethylene and nonclimacteric fruits ripening, we seek the silencing of this particular gene. Thus, the objective of this work was the construction of a binary plasmid structure in hairpin format (hpRNA) that induces the activation of RNA interference system (RNAi) on the translation of FaETR1 gene in ethylene receptor protein. Also, knowing the importance of an appropriate regeneration an plant transformed selection method, we seek also develop a proper in vitro regeneration protocol of Camino Real and Festival strawberries cultivar, as well as to assess the sensitivity of these plants to kanamycin (antibiotic) and glufosinate ammonium (herbicide) selective agents, whose genes are present in pCAMBIA 3301 and pCAMBIA2301 cloning vectors used in this study. / O morangueiro (Fragaria x ananassa Duch.) é uma cultura de elevado valor comercial e de expressiva produção mundial. Os frutos verdadeiros do morangueiro são secos e chamados de aquênios enquanto que a porção carnosa e comestível na verdade se trata do receptáculo floral desenvolvido. Este conjunto de aquênio e receptáculo apresenta padrão de maturação de frutos não-climatéricos, caracterizado por não apresentar um pico de respiração e produção de etileno durante o processo de maturação e também, por não serem capazes de completar a maturação após a colheita. Devido o pequeno tamanho da planta, rápida propagação e produção de frutos, o morangueiro se tornou planta modelo nos estudos sobre a maturação de frutos não-climatéricos, principalmente no que se refere ao papel do etileno neste processo.Estudos voltados à maturação de frutos revelaram a existência de uma família de receptores proteicos responsável pela percepção do etileno em plantas. Em morangueiro, foram identificadas até o momento três sequencias de genes de receptores de etileno, divididos em duas subfamílias (FaETR1 e FaERS1 – Subfamília I e FaERS2 – Subfamília II). Dentre estes genes, baseados na literatura, acreditamos que o gene FaETR1, membro da subfamília I dos receptores de etileno, possa desenvolver um papel superior aos demais no controle da percepção e transdução de sinal do etileno. No intuito de avaliar o envolvimento do receptor de etileno FaETR1 na maturação do morangueiro e visando o entendimento da relação entre etileno e maturação de frutos não-climatéricos, buscamos o silenciamento deste gene em específico. Para tanto, o objetivo deste trabalho foi a construção em plasmídeo binário de uma estrutura em formato de grampo (hpRNA) que induza a ativação do sistema de RNA de interferência (RNAi) sobre a tradução do gene FaETR1 em proteína receptora de etileno. Além disso, sabendo da importância de um apropriado método de regeneração e seleção de plantas transformadas, buscamos também desenvolver protocolo de regeneração in vitro de plantas de morangueiro das cultivares Camiño Real e Festival, bem como, avaliar a sensibilidade destas plantas aos agentes seletivos canamicina (antibiótico) e glufosinato de amônia (herbicida) cujos genes estão presentes nos vetores de clonagem pCAMBIA3301 e pCAMBIA2301 utilizados neste trabalho.

Fragaria x ananassa

Silenciamento gênico

organogenese e cultura de tecidos

Fragaria x ananassa

gene silencing

organogenesis and tissue culture

CNPQ::CIENCIAS AGRARIAS::AGRONOMIA

Estudo funcional do gene PAWR/Par-4 (Prostate apoptosis responde-4) em células de mama normais e tumorais / Functional study of gene PAWR/Par-4 (Prostate apoptosis response-4) in normal and cancer breast cells

Pereira, Michelly Cristiny

18 June 2012

O câncer de mama é o tumor mais incidente entre as mulheres no mundo. Assim como em outros tumores, a tumorigênese nas mamas é um processo complexo resultante da combinação de fatores genéticos e ambientais que dirigem a transformação das células normais em células malignas. O gene PAWR, conhecido como PAR-4 (Prostatic apoptosis response-4) foi primeiramente identificado em células de câncer de próstata de rato induzidas a apoptose e codifica uma proteína de 342 aminoácidos que é efetiva na indução de apoptose nas células tumorais e causa regressão dos tumores ativando Fas/FasL e inibindo a atividade de NF-B. O aumento de Par-4 é suficiente para causar apoptose seletiva em células tumorais, mas não em células normais ou imortalizadas. Recentemente, um estudo de nosso grupo demonstrou que a expressão reduzida de Par-4 está associada a um pior prognóstico em câncer de mama e que esta proteína pode ter um papel importante na morfogênese da glândula mamária. O estudo funcional do gene Par-4 em diferentes linhagens de mama é importante para o melhor entendimento do papel deste gene no processo tumorigênico da glândula mamária. Portanto, a proposta do presente estudo foi investigar os efeitos do aumento de expressão ou supressão de Par-4 na proliferação celular e sobrevivência das células normais e tumorais de mama. As células MCF10A e MCF-7 foram transfectadas com os vetores de expressão para Par-4 (pCMV6-PAR-4) ou com oligos siRNA para supressão transiente de Par-4. A caracterização dos clones foi feita por Real Time PCR e Western Blot. Os ensaios de proliferação foram feitos por MTT e os ensaios de apoptose por dupla marcação com Laranja de Acridina/ Hoechst 33342 e por citometria de fluxo. O aumento da expressão de Par-4 diminuiu a proliferação de ambas às células comparadas às células-controle (p<0,01). Por outro lado, a diminuição de expressão de Par-4 por siRNA levou ao aumento da proliferação das células tumorais MCF-7 (p<0,01). A quantificação das células em apoptose mostrou um aumento significativo de apoptose nas células MCF-7 com aumento de Par-4 em relação às células controle MCF-7 pcNEO tratadas com ambas as concentrações de docetaxel (5 nM 13,24% versus 3,89%; p=0.001; 100 nM 24,81% versus 6,07%; p=0,0001) por 24 horas. Embora preliminares, os resultados de citometria também mostraram que as células MCF-7 com aumento de Par-4 apresentam maior porcentagem de células em apoptose na ausência de tratamento e após tratamento com 100 nM de docetaxel por 24 horas. Embora novos estudos sejam necessários, nossos dados sugerem que o aumento de expressão de Par-4 sensibilizou as células MCF-7 ao quimioterápico docetaxel. Pela primeira vez, mostramos o efeito inibitório de Par-4 no crescimento e sobrevivência das células epiteliais mamárias / Breast cancer is the most common tumor among women in the world. As for other malignancies the tumorigenic process of the breast involves genetic alterations that drive the progressive transformation of normal cells into malignant cells with and aggressive phenotype. Alterations in cells that upregulate proliferation or downregulate apoptosis are one of essential mechanisms that dictate tumor growth. The PAWR gene, also known as PAR-4 (Prostatic apoptosis response-4), was first identified in prostate cancer cells undergoing apoptosis and encodes a 332 aminoacid protein that is effective in inducing cancer cell apoptosis and cause regression of tumors by activating Fas/FasL and inhibiting NF-B activity. Interestingly, Par-4 overexpression is sufficient to cause apoptosis in cancer cells, but not in normal or immortalized cells. Recently, we demonstrated that reduced expression of PAR-4 is associated with breast cancer poor prognosis and this protein may have a role in the process of the mammary gland morphogenesis. The functional study of Par-4 gene in different cell lines of breast is important to better understand its role in the tumorigenic process of the breast. Therefore, the purpose of the present study was to investigate the effects of overexpression and suppression of PAR-4 in cell proliferation and survival in mammary epithelial cells. MCF10A and MCF-7 cells were transfected with expression vectors for PAR-4 overexpression (pCMV6-PAR-4) or with small interfering RNAs duplexed oligonucleotides. Clone characterization was performed using real time PCR and western blot. Proliferation assays were carried out using MTT and apoptotic assays were performed by doublefluorescence staining technique (Acridine Orange/Hoechst 33342) or using flow cytometry. PAR-4 overexpression decreased the proliferation rates in both MCF10A and MCF-7 cells compared to the parental or control cells (p<0,01). On the other hand, PAR-4 knockdown leads to increased proliferation in MCF7 cells (p<0,01). We observed a significant increase in apoptosis of MCF-7 cells with increased expression of Par-4 compared to control cells (MCF-7 pcNEO) in both concentrations of docetaxel (5 nM 13,24% versus 3,89%, p = 0,001; 100 nM 24,81% versus 6,07%, p < 0,0001). Cytometry analysis, although preliminary, showed that MCF-7 pcPar-4 have a higher percentage of apoptotic cells in the absence of treatment and after treatment of 100 nM of docetaxel. Although more studies are needed, our data suggest that increased expression of Par-4 sensitizes breast cancer cells to treatment with docetaxel. This is the first report showing that PAR-4 has inhibitory effects on mammary epithelial cells proliferation and survival

Apoptose

Apoptosis

Breast neoplasms

Cell proliferation

Expressão gênica

Gene expression

Gene silencing

Inativação gênica

Neoplasias de mama

Proliferação celular

Silencing the Agrobacterium tumefaciens oncogenes

Pitrak, Jennifer

06 June 2005

Crown gall disease is an agricultural problem caused by the soil-borne bacterium, Agrobacterium tumefaciens. A. tumefaciens oncogenes cause transformed plant cells to overproduce the hormones, auxin and cytokinin. High hormone levels cause unorganized plant cell growth resulting in a gall. Control of crown gall disease is difficult because after plant cell transformation has occurred, the bacterium is no longer required for the disease to progress. Apple trees engineered to express double-stranded RNA of two A. tumefaciens oncogenes, ipt and iaaM, silenced the expression of the wild-type oncogenes and prevented crown gall disease. Only the iaaM oncogene was targeted for posttranscriptional gene silencing (PTGS) as measured by biological assays and by quantitative reverse-transcription polymerase chain reaction (q-RTPCR) on transgenic tissue. However, if the translation initiation sequence of the iaaM construction was eliminated, gall formation was not prevented, indicating that translatable RNA initiates silencing whereas untranslatable RNA does not. Other data indicate that the Arabidopsis thaliana micro-RNA pathway gene is involved in A. tumefaciens-mediated tumorigenesis. A. thaliana plants with a mutation in HEN1, a gene required for micro-RNA maturation, demonstrated a tenfold reduction in tumorigenesis upon A. tumefaciens infection compared to wild-type. The same plant line showed no difference in T-DNA transfer and nuclear uptake. / Graduation date: 2006

Agrobacterium tumefaciens -- Genetics

Crown-gall disease -- Genetic aspects

Oncogenes

Gene silencing

Apples -- Genetic engineering

Genetic Analysis of Lignification and Secondary Wall Development in Bast Fibers of Industrial Hemp (Cannabis sativa)

Koziel, Susan P.

06 1900

Industrial hemp (Cannabis sativa) is a highly productive crop that is well suited to cultivation in Canada. To better understand the development of bast (phloem) fiber secondary walls and to facilitate reverse genetics screening for improved germplasm, I undertook two sets of microarray experiments. The first compared transcript expression in stem peels at three positions along the length of the stem. The second set of microarray experiments compared transcript expression in adjacent tissue layers along the radial axis of the stem. The transcripts that were enriched in fiber-producing tissues in both studies were consistent with a dynamic program of cell wall deposition. Detailed qRT-PCR analysis of specific lignification genes identified the best targets for reverse genetics. Finally, as a first step towards establishing a virally induced gene silencing (VIGS) system, I identified viruses that produced visual symptoms of infection, although qRT-PCR failed to confirm the infection / Plant Biology

Cannabis sativa

Industrial Hemp

Bast Fiber

Secondary Wall Development

Lignification

Microarray

Phenylpropanoid pathway

VIGS

Virally Induced Gene Silencing

Molecular characterization of the host-pathogen relationships involved during an infection of GF-305 peach trees by the Peach latent mosaic viroid (PLMVd)/Caractérisation moléculaire des relations hôte-pathogène impliquées durant une infection de plants de pêcher GF-305 par le viroïde de la mosaïque latente du pêcher (PLMVd)

Parisi, Olivier

11 March 2011

Le viroïde de la mosaïque latente du pêcher (PLMVd) est un pathogène mondialement répandu et responsable de pertes (directes et indirectes) relativement importantes au niveau de la culture des pêchers. Cependant, peu de données sont actuellement disponibles en ce qui concerne dune part le(s) déterminant(s) de pathogénicité de ce viroïde et dautre part les éventuels mécanismes de résistance des plantes vis-à-vis des viroïdes. Lapproche originale de ce travail a été de jeter les bases de cette double caractérisation. Dans un premier temps, le rôle du pseudo-nud P8, commun à tous les variants du PLMVd actuellement séquencés, a été étudié par mutagenèse dirigée. Dans un second temps, la réponse moléculaire de plants de pêchers infectés par des variants de pathogénicités différentes a été caractérisée par le biais de la cDNA-AFLP. Lobjectif principal de cette thèse était didentifier une voie métabolique éventuellement impliquée dans la résistance des plants de pêcher contre ce viroïde. Au terme de ce travail, il est apparu que le pseudo-nud P8 était impliqué soit dans la stabilité du viroïde au sein des cellules infectées soit dans la réplication du viroïde. En effet, le variant inoculé présentant un pseudo-nud déstabilisé a montré une réplication réduite au cours des douze mois de létude. De plus, bien que le viroïde muté soit présent dans les plantes inoculées, aucun symptôme na été observé. Il est cependant trop tôt pour déterminer si cette latence apparente est due à une quantité trop faible du viroïde ou bien à une implication du pseudo-nud dans la pathogénicité du viroïde. La caractérisation de lexpression des gènes de plants de pêchers infectés par des variants de pathogénicité différente a permis de montrer que le PLMVd réprimait des gènes impliqués dans la photosynthèse et en particulier dans la protection des deux photosystèmes. Cette expression particulière des gènes des plantes infectées peut être mise en relation avec les symptômes de chlorose et de mosaïque sexprimant au cours dune infection par le PLMVd. Cependant, nous ne pouvons encore affirmer avec certitude si elle est une cause ou une conséquence de ces symptômes. De même, la cDNA-AFLP a permis de mettre en évidence la répression de protéines de choc thermique (HSPs) dans les feuilles symptomatiques. Ces protéines jouent généralement un rôle dans le repliement des protéines ainsi que dans leur assemblage, leur déplacement, leur stabilisation et leur dégradation. La régulation de leur expression peut donc avoir une grande influence dans les plantes infectées et, peut-être, jouer un rôle dans lexpression des symptômes. De même, le gène codant pour une novel cap-binding protein (nCBP) est apparu sous-exprimé dans les feuilles symptomatiques. Le rôle de ces protéines est encore mal connu mais elles pourraient intervenir dans la régulation de la traduction des ARNm. Leur répression peut donc également avoir un impact important et déstabiliser diverses voies métaboliques. Enfin deux gènes codant clairement pour des protéines de défense des plantes ont été identifiés. Il sagit dun gène codant pour un intermédiaire de la thiamine (impliquée dans le déclenchement de la SAR, surexprimé dans les feuilles asymptomatiques) et dun autre gène codant pour une protéine inhibitrice des polygalacturonases (sur-exprimé dans les feuilles symptomatiques). Le rôle exact de ces protéines dans la protection des plantes vis-à-vis du viroïde nest cependant pas encore clair. Ce travail constitue une première étude des relations hôte-pathogène établies durant une infection de plants de pêcher par le PLMVd. Cest également le premier, à notre connaissance à avoir analysé lexpression des gènes de plantes infectées en fonction des symptômes observés./ The Peach latent mosaic viroid (PLMVd) infects peach trees in all production areas. This pathogen is responsible of direct and indirect crop losses. However only a few data are available as regards on one hand the determinant of pathogenicity of this viroid and on the other hand the resistance mechanisms of plants against this pathogen. The original approach of this work was to give the foundation of this double characterization. Firstly, the role of the P8 pseudoknot, present in every sequenced PLMVd, was studied by directed mutagenesis. Secondly, the molecular response of different peach trees infected by different variants was evaluated by the use of the cDNA-AFLP. The main objective of this thesis was to identify a metabolic pathway implicated in the plant defence against the PLMVd. In the term of this work, it seemed that the P8 pseudoknot was implicated either in the stability or in the replication of the viroid into the infected cells. Indeed, the inoculated variant (with a destabilized pseudoknot) has shown a reduced replication during the cultural season. In spite of the presence of the mutated variant in the plants, no symptom was observed on the peach tree leaves. However, we cannot conclude if this absence of symptom is due to the low viroid quantity either to an implication of the pseudo-knot in the pathogenicity of the PLMVd. The characterization of the gene expression in the infected peach trees has allowed to highlight that the PLMVd represses genes implicated in the photosynthesis and more specifically genes involved in the protection of the two photosystems. This particular gene expression in the infected leaves was linked to the chlorosis and mosaic induced by the PLMVd. However, we cannot conclude with certitude if these symptoms are a cause or a consequence of this particular genes expression. The cDNA-AFLP has also allowed to identify the repression of genes coding for heat shock proteins (HSPs) in symptomatic leaves. These proteins generally have a role in the protein folding, assembly, translocation, stabilization and degradation. The regulation of their expression may have a great influence in the infected plants and, maybe, play a role in the symptoms expression. The gene coding for the novel cap-binding protein (nCBP) was also identified has repressed in the symptomatic leaves. The biological role of these proteins is unclear but it seems that these proteins act in the regulation of the mRNA translation. The repression of nCBP may thus have an important impact and to destabilize various biological pathways. Finally, two genes implicated in the plant defence were identified. One coding for a polygalacturonase inhibitor (over-expressed in symptomatic leaves) and the other one coding for a thiamine intermediate (involved in the SAR and over-expressed in the non-symptomatic leaves). The role of these proteins in the plant defence against the PLMVd is however unclear. To our knowledge, this is the first work where the host-pathogen relationship established during a PLMVd infection are studied. This is also the first time were the gene expression is linked to the viroid-induced symptoms.

virologie/virology

viroide/viroid

pecher/peach

gene silencing/extinction de gene

PLMVd