Análise computacional dos genomas de duas estirpes brasileiras de Bradyrhizobium de importância econômica / Computational analysis of genomes of two Brazilian Bradyrhizobium strains of economic importance

Carvalho, Gesiele Almeida Barros de

09 December 2016

B. diazoefficiens CPAC 7 e B. japonicum CPAC 15 são estirpes brasileiras de Bradyrhizobium que apresentam grande relevância para o cultivo da soja, pois são capazes de fornecer nitrogênio para a produção desta leguminosa através do processo de fixação biológica de nitrogênio (FBN), uma técnica sustentável e de baixo custo. Por esse motivo, tais bactérias são de grande interesse, e seu estudo contribui na compreensão do processo complexo e orquestrado por um conjunto de genes específicos que culmina no estabelecimento da simbiose. A estirpe CPAC 7 possui maior eficiência em fixar N2 , e a CPAC 15 destaca-se pela sua competitividade. Recentemente, o genoma de cada uma foi sequenciado na tentativa de conhecer seu conteúdo gênico e identificar os fatores genéticos responsáveis pelas diferenças no desempenho simbiótico. Apesar de ter sido encontrado alguns rearranjos, os genoma mostraram-se sintênicos na sua maioria. Entretanto, o fato de haver muitas transposases ao redor dos genes, principalmente na ilha simbiótica, e devido a presença de muitos genes hipotéticos, representando uma limitação no conhecimento, nos motivou a realizar o presente estudo, onde exploramos estes dois genomas. Portanto, os objetivos deste estudo foram de definir a população de elementos de transposição (TEs) que compõe estes genomas, avaliar se os elementos completos podem estar impactando os genes de alguma forma; explorar as proteínas hipotéticas, tentando identificar novas funções que possam estar associadas com a interação soja-Bradyrhizobium e apontá-las para estudos experimentais futuros; e ainda explorar os genes exclusivos das regiões atípicas dos genomas, sendo que para isso, nós também desenvolvemos uma nova metodologia, baseada na máxima entropia (ME), que pode ser utilizada em novos estudos genômicos a partir da simples sequência nucleotídica. Todas as análises deste estudo foram realizadas in silico. Estudando os TEs, identificamos 33 novas sequências de inserção, sendo que algumas destacaram-se por terem potencial impacto nos genes associados com a simbiose destas bactérias, como nopAN, nopAG, rhcU, modC e hypB. Explorar as proteínas hipotéticas nos permitiu reduzir a porcentagem de hipotéticas dos genomas. Adicionamos novas informações à 1.204 proteínas, das quais muitas apresentaram similaridade com proteínas comprovadamente associadas com a interação planta-bactéria, em condições de simbiose e/ou patogenicidade, como proteínas envolvidas na motilidade e adesão celular, fatores de virulência, proteínas secretoras e efetoras, entre outras. Além disso, a metodologia ME, desenvolvida neste estudo com o intuito de direcionar análises genômicas para regiões atípicas, quando comparada com outras ferramentas existentes, mostrou-se superior em termos de eficiência e tempo de execução computacional. Nas regiões genômicas apontadas pela ME nos dois genomas de interesse, identificamos 269 genes exclusivos de CPAC 7 e 368 de CPAC 15, sendo que destacamos aqueles com potencial relação com as diferenças simbióticas das estirpes, como o gene fixW, noeE, rtxA e nex18. Assim, os resultados obtidos neste trabalho vêm expandir nosso conhecimento sobre os genomas destas estirpes. Destacando ainda, importantes diferenças que podem estar associadas com a habilidade simbiótica de cada bactéria. / B. diazoefficiens CPAC 7 and B. japonicum CPAC 15 are Brazilian Bradyrhizobium strains of great importance for soybean cultivation, since when in a symbiotic state they provide nitrogen for the crop through the biological nitrogen fixation process (BNF), a sustainable technique and low cost. For this reason, such bacteria represent great interest and have been widely studied, once the symbiotic establishment is a complex process and orchestrated by a specific set of genes. The CPAC 7 strain has a higher efficiency to fix N2 , while CPAC 15 stands out for its competitiveness. Recently, their genomes were sequenced in an attempt to gain knowledge about their gene content and to identify the genetic factors responsible for differences in their symbiotic performance. Despite having identified some rearrangements, the majority of genomes showed syntenic. However, the fact that there are many transposases around the genes, especially in symbiotic island, and due to the presence of many hypothetical genes, representing a limitation on knowledge, motivated us to conduct this study, which explored these two important genomes. Therefore, the objectives of this study were to define the population of transposable elements (TEs) present in these genomes and to verify whether such TEs could be impacting the genes somehow; to study the hypothetical proteins, trying to identify new features that may be associated with the soybean-Bradyrhizobium interaction and point them for future experimental studies; and to explore the exclusive genes from atypical regions of both genomes, and for that, we have also developed a new methodology, based on maximum entropy (ME), which can be used in new genomic studies. All analyzes in this study were performed in silico. Studying the TEs, we identified 33 new insertion sequences, and some stood out for having potential impact on genes associated with the symbiosis of these bacteria, such as nopAN, nopAG, rhcU, modC and hypB. As a consequence of improving the annotation of hypothetical proteins we were able to reduce the hypothetical percentage. Among these, we add new information to 1,204 proteins, many of which had similarity to proteins with involvement in the plant-bacteria interaction, in symbiosis and/or pathogenicity conditions, such as proteins involved in cell motility and adhesion, virulence factors, secretion proteins, effectors, among others. Moreover, the ME methodology developed in this study to direct genomic analysis to atypical regions, compared with other existing tools, it was superior in efficiency and execution time. In the genomic regions identified by the ME in both Bradyrhizobium genomes, we identified 269 exclusive genes of CPAC 7 and 368 of CPAC 15, we highlighted those with potential involvement with symbiotic differences of strains, as fixW, noeE, rtxA and nex18. Thus, the results obtained in this study come to expand our knowledge about the genomes of these important bacteria. Finally, differences were identified as potential targets to be associated with the symbiotic ability of each strain to be futher studied.

Análise de sequências

Atypical regions

Bioinformática

Bioinformatics

Comparative genomics of prokaryotes

Fixação de nitrogênio

Genômica comparativa de procariotos

Hypothetical proteins

Insertion sequences

Interação planta-bactéria

Máxima entropia

Maximum entropy

Nitrogen fixation

Plant-bacteria interaction

Proteínas hipotéticas

Regiões atípicas

Sequence analysis

Sequências de inserção

La dégradation des acides hydroxycinnamiques comme signal de perception de la plante : régulation et rôle dans l’écologie d’Agrobacterium fabrum / Degradation of hydroxycinnamic acids as signal of plant perception : regulation and role in the Agrobacterium fabrum ecology

Meyer, Thibault

29 June 2018

Les agrobactéries établissent des relations à long terme avec les plantes et ce, dans deux styles de vie différents, rhizosphérique et pathogène (galle du collet). Dans ce mode de vie, les bactéries modifient génétiquement leur hôte et se créent ainsi une niche écologique spécifique (tumeur). La transition entre les deux styles de vie est déclenchée par la perception de signaux végétaux, parmi lesquels des acides hydroxycinnamiques (HCAs) comme l’acide férulique. Or dans l’espèce Agrobacterium fabrum, des gènes spécifiques permettent la dégradation des HCAs. Nous avons émis l’hypothèse que cette dégradation était un signal de proximité de la plante et influençait alors des fonctions importantes pour l’interaction avec celle-ci. Nous avons caractérisé la régulation de la dégradation des HCAs, évalué son rôle dans la valeur sélective d’A. fabrum, et suggéré son importance dans la transition entre les styles de vie rhizosphérique et pathogène. Nous avons montré que la dégradation des HCAs module le métabolisme carboné bactérien, notamment l’utilisation d’acide aminés et d’oligosaccharides de la famille du raffinose. Nous avons caractérisé la protéine MelB qui permet l’import de ces sucres, du mélibiose et du galactinol. Leur utilisation est importante pour la colonisation des plantes dès la germination. L’analyse de l’expression des gènes et du métabolisme bactérien en présence d'un composé signal de la plante, nous a révélé de nouveaux déterminants importants pour l’écologie de ce phytopathogène, notamment des facteurs de transcription. En outre, cette analyse a confirmé l’importance des échanges cellulaires et de déterminants impliqués dans la compétition bactérienne / Agrobacterium establish long term interactions with plants, either in a rhizosphere or pathogenic lifestyle. Pathogenic agrobacteria are causing the crown gall disease by genetically modifying the plant cells host, thus creating a specific ecological niche (tumor). The transition from the rhizosphere to the pathogenic lifestyle is triggered by bacterial perception of plant-derived signals, including hydroxycinnamic acids (HCAs) such as ferulic acid. However, A. fabrum strains have species-specific genes that allow HCAs degradation.We hypothesized that in A. fabrum, the degradation of the HCAs is perceived as a plant signal which influences important functions involved in the interaction with plants. We characterized the regulation of HCAs degradation, evaluated its role in the fitness of A. fabrum, and suggested its importance for the transition between the rhizosphere and pathogenic lifestyles. Then, we showed that the degradation of HCAs modulates carbon metabolism, such as the use of amino acids and sugars belonging to the raffinose family oligosaccharides (RFO). We have demonstrated that besides these sugars, the MelB protein allows the import melibiose and galactinol. Their use is important for plant colonization, since seed germination. The analyzes of gene expression and bacterial metabolism in the presence of a plant signal compound, revealed new determinants important for A. fabrum ecology, including transcription factors. In addition, it confirmed the importance of cellular exchanges and bacterial competition for Agrobacterium fitness in planta

Agrobacterium fabrum

Acides hydroxycinnamiques

Interaction plantes-bactéries

Transition écologique

Régulation transcriptionnelle

Agrobacterium fabrum

Hydroxycinnamics acids (HCAs)

Plant-bacteria interaction

Raffinose family oligosaccharides (RFOs)

Ecological transition

Transcriptionnal regulation

579.17

Inhibition of virulence gene expression in Rhodococcus fascians and Pseudomonas aeruginosa by flavonoïds isolated from the genera Dalbergia and Combretum / Inhibition de l'expression des gènes de virulence chez Rhodococcus fascians et Pseudomonas aeruginosa par des flavonoïdes isolés chez les genres Dalbergia et Combretum

Rajaonson, Sanda

16 December 2011

Plants are continuously confronted with a multitude attack either abiotic but also biotic in nature. Interestingly, despite the abundance of bacteria that plant has to face, only few are able to induce death or disease in the host plant. It is therefore likely that, in addition to secondary metabolites with antimicrobial properties, plants also synthesize secondary metabolites which are able to inhibit the expression of virulence genes in bacteria without affecting either growth or viability, which allows plants to host willingly or not bacterial populations. This work focuses on the identification of such metabolites in Malagasy plants (genera Dalbergia and Combretum) and the demonstration of their inhibitory effect on the expression of virulence genes in two different pathosystems: Rhodococcus fascians (a phytopathogen) and Pseudomonas aeruginosa (an opportunistic pathogen). Thus, two metabolites were isolated using a combination of chromatographic techniques coupled with tests that evaluate the expression of certain genes involved in the virulence mechanisms of these bacteria. The first is a new prenylated isoflavanone, named perbergin, isolated from the bark extract of D. pervillei. It was shown that the perbergin target attR gene expression, encoding a LysR-type transcriptional regulator that plays a key role in regulating the expression of virulence genes of R. fascians and the transition from an epiphytic to a pathogenic lifestyle. Therefore, we have also shown that the expression of all virulence genes known to date in R. fascians is also affected while the expression of genes involved in epiphytic fitness of the bacteria is not altered. In addition, the application of perbergin at the time of infection of plants susceptible to R. fascians shows that this molecule reduces in vivo the virulence of R. fascians, highlighting the potential of perbergin as an anti-infective agent. The second is a flavonoid known as catechin, isolated from the bark extract of C. albiflorum. Catechin significantly inhibits the expression of genes that regulate the mechanism of quorum sensing in P. aeruginosa such as lasI, LasR, rhlI and rhlR but also lasB and rhlA which expression depends on quorum sensing. Therefore, the production of virulence factors such as pyocyanin and elastase is significantly affected. Because of the limited number of our arsenal of antibiotics and their increasing ineffectiveness, the identification of these compounds create a path to an alternative in the fight against pathogenic bacteria and multidrug resistance of pathogenic bacteria to antibiotics. Our results also demonstrate the richness of Malagasy plants as (re)sources of new therapeutic molecules and the importance of widening the range of bacterial targets to be investigated to develop new strategies to fight within the endless war that we are waging against bacteria pathogens.<p><p>Les plantes sont continuellement confrontées à une multitude d’attaques qu’elles soient de nature abiotique ou surtout biotique. Il est intéressant de noter que malgré la multitude de bactéries auxquelles les plantes doivent faire face, seules quelques unes sont capables d’induire la mort ou une maladie chez la plante hôte. Il est dès lors fort probable que, outre les métabolites secondaires ayant des propriétés antimicrobiennes, les plantes synthétisent également des métabolites secondaires capables d’inhiber l’expression des gènes de virulence chez les bactéries sans toutefois affecter ni leur croissance ni leur viabilité, ce qui permet aux plantes de contenir les populations bactériennes qu’elles hébergent de gré ou de force. Ce travail porte sur l’identification de ce type de métabolites dans des plantes malgaches (genres Dalbergia et Combretum) et la démonstration de leurs effets inhibiteurs sur l’expression de gènes de virulence chez deux pathosystèmes différents: Rhodococcus fascians (un phytopathogène) et Pseudomonas aeruginosa (un pathogène opportuniste). Ainsi, deux métabolites ont été isolés en utilisant une combinaison de techniques chromatographiques couplées avec des tests qui évaluent l’expression de certains gènes impliqués dans les mécanismes de virulence de ces bactéries. Le premier est un nouvel isoflavanone prénylé, nommé perbergine, isolé à partir de l’extrait d’écorces de D. pervillei. Il a été montré que la perbergine cible l’expression du gène attR, codant un régulateur transcriptionnel de type LysR qui joue un rôle clé dans la régulation de l’expression des gènes de virulence de R. fascians et qui assure la transition entre un mode de vie épiphyte et le mode pathogène. En conséquence, nous avons également montré que l’expression de l’ensemble des gènes de virulence connu à ce jour chez R. fascians est également affectée alors que l’expression de gènes impliqués dans l’aptitude épiphyte de la bactérie n’est pas altérée. Par ailleurs, l’application de perbergine au moment de l’infection de plantes sensibles à R. fascians montre que cette molécule atténue la virulence de R. fascians in vivo, mettant en exergue le potentiel de la perbergine comme agent anti-infectieux. Le deuxième est un flavonoïde, connu sous le nom de catéchine, isolé de l’extrait d’écorces de C. albiflorum. La catéchine inhibe significativement l’expression des gènes régulateurs du mécanisme du quorum sensing chez P. aeruginosa tels que lasI, lasR, rhlI et rhlR et également lasB et rhlA dont l’expression dépend du quorum sensing. En conséquence, la production des facteurs de virulence tels que la pyocyanine et l’élastase est significativement affectée. Compte tenu de l’appauvrissement de notre arsenal d’antibiotiques et de leur inefficacité croissante, l’identification de ces composés ouvre une voie alternative de lutte contre les bactéries pathogènes et la multirésistance des bactéries pathogènes aux antibiotiques. Nos résultats démontrent également la richesse des plantes malgaches comme (res)sources de nouvelles molécules thérapeutiques et l’importance d’élargir le champ des cibles bactériennes à investiguer pour développer de nouvelles stratégies de lutte dans la guerre sans fin que nous menons contre les bactéries pathogènes. / Doctorat en Sciences / info:eu-repo/semantics/nonPublished

Biologie

Sciences exactes et naturelles

Virulence (Microbiology)

Rhodococcus

Pseudomonas aeruginosa

Flavonoids

Pathogenic bacteria

Drug resistance in microorganisms

Plants -- Madagascar

Virulence (Microbiologie)

Rhodococcus

Pseudomonas aeruginosa

Flavonoïdes

Bactéries pathogènes

Plantes -- Madagascar

multirésistance aux antibiotiques

régulateurs LysR

Interaction plante-bactérie

gène de virulence

Dalbergia

Combretum

catéchine

perbergine

multidrug resistance to antibiotics

plant-bacteria interaction

flavonoïdes

métabolites secondaires

Rhodococcus fascians

quorum sensing

homoserine lactone

LysR regulators

virulence gene

perbergin

catechin

flavonoïds

secondary metabolites

homosérine lactone