The Poly(A) Tail of mRNAs Bodyguard in Eukaryotes, Scavenger in Bacteria

AbstractIn eukaryotes, poly(A) tails usually act as stabilizers of intact mRNAs, whereas in E. coli they serve to accelerate the destruction of fragments. The mechanisms underlying these contrasting effects of the same RNA modification are discussed

L'acacia au Sénégal

Cette présentation propose une revue bibliographique de certains aspects de la nodulation des acacias, en particulier en ce qui concerne la diversité des rhizobiums qui leur sont associés, au regard de la taxonomie générale des rhizobiums, et développe plus en détails les derniers résultats obtenus au Sénégal dans ce domaine. (Résumé d'auteur

Nod factors thin-layer chromatography profiling as a tool to characterize symbiotic specificity of rhizobial strains : application to Sinorhizobium saheli, S. teranga, and Rhizobium sp. strains isolated from Acacia and Sesbania

Rhizobia isolated from #Acacia or #Sesbania belong to several taxonomic groups, including the newly described species #Sinorhizobium saheli, #Sinorhizobium teranga, and the so-called cluster U. A collection of strains belonging to these different groups was analyzed in order to determine whether the host range of a strain could be correlated with various molecular nodulation determinants. Nodulation tests showed that, independently of their taxonomic position, all the strains isolated from the same plant genus exhibited a similar host range, which was different for #Sesbania and #Acacia isolates. The fact that #S. teranga strains nodulate either #Acacia or #Sesbania led us to subdivide this species into biovars #acaciae and #sesbaniae. Thin-layer chromatography (TLC) analysis of the Nod factors synthesized by overproducing strains showed that strains isolated from the same plant genus exhibited similar TLC profiles and profiles of #Acacia and #Sesbania symbionts were easily distinguishable, #Acacia strains producing, in particular, sulfated molecules. In contrast, no correlation could be established between the host range of a strain and its plasmid content, the nature of the nod gene inducers or the presence of DNA sequences homologous to specific nod genes. We thus propose that Nod factor TLC profiling may be used as an easy and powerful tool for the classification of rhizobial strains on the basis of their symbiotic properties. (Résumé d'auteur

Computing solutions of linear Mahler equations

International audienceMahler equations relate evaluations of the same function $f$ at iterated $b$th powers of the variable. They arise in particular in the study of automatic sequences and in the complexity analysis of divide-and-conquer algorithms. Recently, the problem of solving Mahler equations in closed form has occurred in connection with number-theoretic questions. A difficulty in the manipulation of Mahler equations is the exponential blow-up of degrees when applying a Mahler operator to a polynomial. In this work, we present algorithms for solving linear Mahler equations for series, polynomials, and rational functions, and get polynomial-time complexity under a mild assumption. Incidentally, we develop an algorithm for computing the gcrd of a family of linear Mahler operators

Taste matters: mapping expectancy-based appetitive placebo effects onto the brain

Expectancies, which are higher order prognostic beliefs, can have powerful effects on experiences, behavior and brain. However, it is unknown where, how, and when, in the brain, prognostic beliefs influence appetitive interoceptive experiences and related economic behavior. This study combined a placebo intervention on hunger with computational modelling and functional magnetic resonance imaging of value-based decision-making. The results show that prognostic beliefs about hunger shape hunger experiences, how much participants value food and food-value encoding in the prefrontal cortex. Computational modelling further revealed that these placebo effects were underpinned by how much and when during the decision process taste and health information are integrated into the accumulation of evidence toward a food choice. The drift weights of both sources of information further moderated ventromedial and dorsolateral prefrontal cortex interactions during choice formation. These findings provide novel insights into the neurocognitive mechanisms that translate higher order prognostic beliefs into non-aversive interoceptive sensitivity and shape decision-making

Role of methylotrophy during symbiosis between Methylobacterium nodulans and Crotalaria podocarpa

Some rare leguminous plants of the genus Crotalaria are specifically nodulated by the methylotrophic bacterium Methylobacterium nodulans. In this study, the expression and role of bacterial methylotrophy were investigated during symbiosis between M. nodulans, strain ORS 2060(T), and its host legume, Crotalaria podocarpa. Using lacZ fusion to the mxaF gene, we showed that the methylotroph genes are expressed in the root nodules, suggesting methylotrophic activity during symbiosis. In addition, loss of the bacterial methylotrophic function significantly affected plant development. Indeed, inoculation of M. nodulans nonmethylotroph mutants in C. podocarpa decreased the total root nodule number per plant up to 60%, decreased the whole-plant nitrogen fixation capacity up to 42%, and reduced the total dry plant biomass up to 46% compared with the wild-type strain. In contrast, inoculation of the legume C. podocarpa with nonmethylotrophic mutants complemented with functional mxa genes restored the symbiotic wild phenotype. These results demonstrate the key role of methylotrophy during symbiosis between M. nodulans and C. podocarpa

L'acacia au Sénégal

L'intérêt agronomique et écologique des rhizobiums repose essentiellement sur leurs propriétés symbiotiques. Il est donc capital de pouvoir apprécier la diversité des souches sur la base de leur pouvoir de nodulation. L'objectif de ce travail est de proposer une nouvelle approche, alternative aux tests de nodulation, permettant de classer les souches en fonction de leur spécificité symbiotique. Au cours des premières étapes de l'interaction rhizobium-légumineuses, les rhizobiums excrètent des molécules signal, appelées facteurs Nod, qui jouent un rôle déterminant dans l'infection et la nodulation des plantes-hôtes. Leur utilisation potentielle comme marqueur de la spécificité de nodulation a été évaluée à partir de l'étude d'une collection de souches isolées d'#Acacia et de #Sesbania au Sénégal. L'analyse chromatographique des facteurs Nod de ces souches a montré que les profils chromatographiques sont parfaitement corrélés à la fois à la structure chimique des facteurs Nod et à la spécificité d'hôte des souches, et plus particulièrement à la plante d'isolement. Une telle méthode de caractérisation globale des facteurs Nod pourrait donc être utilisée pour la caractérisation symbiotique des rhizobiums, en particulier pour l'étude taxonomique, l'étude de la biodiversité des souches ou pour le contrôle des inoculums. (Résumé d'auteur