Morphological and physiological responses of Coccoloba uvifera (L.) L. seedlings of different origin to salt stress

The salinity of soils and water for irrigation is a limitation that influences the productivity of crops that has increased worldwide and affects the morphology and physiology of plants since it causes osmotic stress and ionic toxicity and impairs the absorption of water and nutrients. The effect of salt stress on some morphological and physiological traits in Coccoloba uvifera (L.) L. (sea grape) seedlings from different origins was evaluated and the traits whose behavior under salt stress could be used as an effective criterion of tolerance to salinity were determined. A completely randomized design experiment with ten repetitions was performed. The factors under study were salinity (0, 5, 15, and 25 dS m-1), which was maintained for a period of sixteen weeks, and the second factor was the origin of the plant material. The salinity level and the seedlings’ origin significantly influenced the morphological and physiological variables controlled. However, it is necessary to carry out in situ experiments to obtain more information related to the mechanisms used by sea grape to tolerate salinity conditions, because in the consulted sources no research focused on evaluating the effect of salinity and the origin on the morphology and physiology of C. uvifera seedlings in Cuba has been found. The results of the research provide preliminary information to understand the negative effect of salt stress on this type of plant. The behavior of some controlled traits under salt stress can be used as an effective criterion of tolerance to salinity

Transcriptomic analisis of Ehrlichia ruminantium the causal agent of heartwater : identification of genes involved in virulence and attenuation mechanisms and application to the development of a recombinant vaccine

AU COURS DE LA THESE, L'ETUDE DU TRANSCRIPTOME DE SOUCHES GARDEL ET SENEGAL VIRULENTES ET ATTENUEES D'E. RUMINANTIUMA ETE REALISEE. UNE ANALYSE DU TRANSCRIPTOME A DIFFERENTS STADES DE DEVELOPPEMENT, A D'ABORD ETE EFFECTUEE POUR LA SOUCHE GARDEL VIRULENTE. AU STADE CORPS RETICULE (FORME INTRACELLULAIRE NON INFECTIEUSE), UNE SUREXPRESSION DES GENES CODANT POUR DES PROTEINES IMPLIQUEES DANS LE METABOLISME, LE TRANSPORT ET L'ECHANGE DE NUTRIMENTS ET DANS LA RESISTANCE AU STRESS OXYDATIF ETAIT OBSERVEE. IL SEMBLERAIT QUEE. RUMINANTIUMMETTE EN PLACE UN PANEL DE MECANISMES POUR SA SURVIE ET SON DEVELOPPEMENT A L'INTERIEUR DE LA CELLULE HOTE. AU STADE CORPS ELEMENTAIRE (FORME EXTRACELLULAlRE INFECTIEUSE), LE GENE DKSA CODANT POUR UN FACTEUR DE TRANSCRIPTION ETAIT SUREXPRIME. CE GENE A ETE MONTRE COMME ETANT IMPLIQUE DANS LA REGULATION DE FACTEURS DE VIRULENCE. IL SEMBLERAIT . DONC, QU'AU STADE CORPS ELEMENTAIRE, IL Y AIT UNE INDUCTION DE MECANISMES DE VIRULENCE. LA COMPARAISON DE L'EXPRESSION DES GENES AU STADE CORPS ELEMENTAIRE ENTRE SOUCHES VIRULENTES ET ATTENUEES A AUSSI ETE EFFECTUEE. NOS RESULTATS ONT MONTRE UNE MODIFICATION IMPORTANTE DE LA MEMBRANE POUR LES SOUCHES VIRULENTES ET ATTENUEES. POUR LES SOUCHES ATTENUEES, IL A ETE MONTRE UNE SUREXPRESSION DES GENES IMPLIQUES DANS LA BIOGENESE MEMBRANAlRE ET UNE SOUS-EXPRESSION·DES PROTEINES DE LA FAMILLE MULTIGENIQUE MAP. CES RESULTATS SUGGERENT QUE LES PROTEINES MAP JOUENT UN ROLE DE LEURRE VIS-A-VIS DE LA REPONSE IMMUNITAIRE PROTECTRICE. DES PROTEINES MEMBRANAlRES HYPOTHETIQUES SONT SUREXPRIMEES A LA FOIS CHEZ LES SOUCHES VIRULENTES ET ATTENUEES. CERTAINES D'ENTRE ELLES SUREXPRIMEES CHEZ LES SOUCHES ATTENUEES SEMBLENT ETRE DE BONS CANDIDATS VACCINAUX ET DEVRAIENT ETRE ETUDIEESTranscriptomic study of gardel and senegal both virulent and attenuated e. ruminantium strains was conducted during my phd. an analysis of transcriptome at different stages of development has been first conducted for virulent gardel strain. at reticulate body stage (intracellular form non-infectious), over-expression of genes coding for proteins involved in metabolism, transport and exchange of nutrients and resistance to oxidative stress was observed. at this stage of development, e. ruminantium seems to activate mechanisms for its survival and development within the host cell. at elementary body stage, dksa the gene encoding for a transcription factor was over-expressed. this gene has been shown to be involved in the regulation of virulence factors. it seems, therefore, at the elementary body stage, e. ruminantium induces its virulence factors. secondly, we compare the transcriptome of elementary body between virulent and attenuated strains. our results showed an important membrane modification of attenuated and virulent strains. for attenuated strains, we observed an over-expression of genes involved in membrane biogenesis and a diminution of expression of map multigenic family. it seems that map proteins subvert the protective immune response. hypothetical membrane proteins are over-expressed in both virulent and attenuated strains. some over-expressed proteins in attenuated strains seem to be good vaccine candidates and willstudied

Comparative Transcriptome Profiling of Virulent and Attenuated Ehrlichia ruminantium Strains Highlighted Strong Regulation of map1- and Metabolism Related Genes

The obligate intracellular pathogenic bacterium, Ehrlichia ruminantium, is the causal agent of heartwater, a fatal disease in ruminants transmitted by Amblyomma ticks. So far, three strains have been attenuated by successive passages in mammalian cells. The attenuated strains have improved capacity for growth in vitro, whereas they induced limited clinical signs in vivo and conferred strong protection against homologous challenge. However, the mechanisms of pathogenesis and attenuation remain unknown. In order to improve knowledge of E. ruminantium pathogenesis, we performed a comparative transcriptomic analysis of two distant strains of E. ruminantium, Gardel and Senegal, and their corresponding attenuated strains. Overall, our results showed an upregulation of gene expression encoding for the metabolism pathway in the attenuated strains compared to the virulent strains, which can probably be associated with higher in vitro replicative activity and a better fitness to the host cells. We also observed a significant differential expression of membrane protein-encoding genes between the virulent and attenuated strains. A major downregulation of map1-related genes was observed for the two attenuated strains, whereas upregulation of genes encoding for hypothetical membrane proteins was observed for the four strains. Moreover, CDS_05140, which encodes for a putative porin, displays the highest gene expression in both attenuated strains. For the attenuated strains, the significant downregulation of map1-related gene expression and upregulation of genes encoding other membrane proteins could be important in the implementation of efficient immune responses after vaccination with attenuated vaccines. Moreover, this study revealed an upregulation of gene expression for 8 genes encoding components of Type IV secretion system and 3 potential effectors, mainly in the virulent Gardel strain. Our transcriptomic study, supported by previous proteomic studies, provides and also confirms new information regarding the characterization of genes involved in E. ruminantium virulence and attenuation mechanisms