Metabolic and Proteomic Profiling of Diapause in the Aphid Parasitoid Praon volucre

Background: Diapause, a condition of developmental arrest and metabolic depression exhibited by a wide range of animals is accompanied by complex physiological and biochemical changes that generally enhance environmental stress tolerance and synchronize reproduction. Even though some aspects of diapause have been well characterized, very little is known about the full range of molecular and biochemical modifications underlying diapause in non-model organisms. Methodology/Principal Findings: In this study we focused on the parasitic wasp, Praon volucre that exhibits a pupal diapause in response to environmental signals. System-wide metabolic changes occurring during diapause were investigated using GC-MS metabolic fingerprinting. Moreover, proteomic changes were studied in diapausing versus nondiapausing phenotypes using a combination of two-dimensional differential gel electrophoresis (2D-DIGE) and mass spectrometry. We found a reduction of Krebs cycle intermediates which most likely resulted from the metabolic depression. Glycolysis was galvanized, probably to favor polyols biosynthesis. Diapausing parasitoids accumulated high levels of cryoprotective polyols, especially sorbitol. A large set of proteins were modulated during diapause and these were involved in various functions such as remodeling of cytoskeleton and cuticle, stress tolerance, protein turnover, lipid metabolism and various metabolic enzymes. Conclusions/Significance: The results presented here provide some first clues about the molecular and biochemical events that characterize the diapause syndrome in aphid parasitoids. These data are useful for probing potential commonality of parasitoids diapause with other taxa and they will help creating a general understanding of diapause underpinnings and a background for future interpretations

First Viruses Infecting the Marine Diatom Guinardia delicatula

The marine diatom Guinardia delicatula is a cosmopolitan species that dominates seasonal blooms in the English Channel and the North Sea. Several eukaryotic parasites are known to induce the mortality of this species. Here, we report the isolation and characterization of the first viruses that infect G. delicatula. Viruses were isolated from the Western English Channel (SOMLIT-Astan station) during the late summer bloom decline of G. delicatula. A combination of laboratory approaches revealed that these lytic viruses (GdelRNAV) are small tailless particles of 35–38 nm in diameter that replicate in the host cytoplasm where both unordered particles and crystalline arrays are formed. GdelRNAV display a linear single-stranded RNA genome of ~9 kb, including two open reading frames encoding for replication and structural polyproteins. Phylogenetic relationships based on the RNA-dependent-RNA-polymerase gene marker showed that GdelRNAV are new members of the Bacillarnavirus, a monophyletic genus belonging to the order Picornavirales. GdelRNAV are specific to several strains of G. delicatula. They were rapidly and largely produced (<12 h, 9.34 × 104 virions per host cell). Our analysis points out the host's variable viral susceptibilities during the early exponential growth phase. Interestingly, we consistently failed to isolate viruses during spring and early summer while G. delicatula developed important blooms. While our study suggests that viruses do contribute to the decline of G. delicatula's late summer bloom, they may not be the primary mortality agents during the remaining blooms at SOMLIT-Astan. Future studies should focus on the relative contribution of the viral and eukaryotic pathogens to the control of Guinardia's blooms to understand the fate of these prominent organisms in marine systems

Protéomique fonctionnelle en oncologie Comprendre plus que décrire [Functional proteomics in oncology: to understand more than to describe.]

International audienceLike other -omics, proteomics is traditionally understood as a method that allows a global description of molecular content (here proteins) of a biological sample, used to identify new biomarkers in diseases such as cancers. Proteomics is also a powerful tool to identify the molecular mechanisms of diseases. In cancer, deregulation of cell growth and migration is related to alterations in cell signalling and the numerous alterations in protein-protein and protein-nucleic acid interactions that account for the malignant phenotype are only partly understood. Based on its capacity to separate and identify proteins, including those with post-translational modifications, proteomics provides new ways to understand post-genomic events that contribute to transformation and to identify new therapeutic targets

Proteins Involved in the Interaction of Potato Tubers with Pectobacterium atrosepticum: a Proteomic Approach to Understanding Partial Resistance

Publication Inra prise en compte dans l'analyse bibliométrique des publications scientifiques mondiales sur les Fruits, les Légumes et la Pomme de terre. Période 2000-2012. http://prodinra.inra.fr/record/256699International audiencePotato can be severely affected by various pathogens, including Pectobacterium atrosepticum, the cause of bacterial soft rot on tubers and of blackleg on stems. To date, no complete resistance to P.similar to atrosepticum is available, so that only cultivars exhibiting partial resistance can be found. The mechanistic basis of this type of resistance is still poorly understood. A proteomic approach was thus developed to identify pathways specifically activated during the interaction between potato tubers and P.similar to atrosepticum. Protein profiles on silver-stained gels in the 58 similar to pH range were obtained from healthy and infected tubers from two cultivars differing for resistance level and analyzed by 2-DE and nano-LC-MS/MS. Thirteen proteins were differentially up-regulated in the partially resistant cv. Kerpondy; by contrast, no significant differences in protein profiles of inoculated and control tubers were observed in the susceptible cv. Bintje. Mass spectrometry and database searching showed that these proteins are involved in energetic metabolism (glyceraldehyde-3-phosphate dehydrogenase, 2-phosphoglycerate dehydratase or enolase, fructose biphosphate aldolase and ATPase a subunit), cytoskeleton structure (actin), protein catabolism (cysteine protease inhibitor) and patatins or patatin precursors. Their involvement in defence responses of cv. Kerpondy to P.similar to atrosepticum is discussed. Proteomic appears as an efficient approach to have insight into the mechanisms and pathways leading to potato resistance against P.similar to atrosepticum

Tentative de construction d'un indicateur de morbidité en hospitalisation à domicile (à partir d'une enquête du C.R.E.D.E.S. réalisée en 1999 destinée à l'évaluation des coûts de prise en charge )

PARIS6-Bibl.Pitié-Salpêtrie (751132101) / SudocPARIS-BIUM (751062103) / SudocSudocFranceF

Metabolic and proteomic profiling of diapause syndrome in the parasitoid Praon volucre

International audienc

Large scale phosphoprotein profiling to explore Drosophila cold acclimation regulatory mechanisms

International audienc

Metabolic and proteomic profiling of diapause syndrome in the parasitoid Praon volucre

International audienc

La norme ISO 9001 comme outil de progrès : témoignages de plates-formes certifiées » - Des Responsables Qualité et Responsables de plates-formes Biogenouest apportent leur retour d'expériences sur la mise en place de la certification ISO 9001 au sein de leur structure et présentent l'objectif de cette démarche ainsi que son intérêt au quotidien.

Communication oraleNational audienc

Genomic disturbance of vitellogenin 2 (vtg2) leads to vitellin membrane deficiencies and significant mortalities at early stages of embryonic development in zebrafish (Danio rerio)

Abstract The specific functions and essentiality of type II vitellogenin (Vtg2) in early zebrafish development were investigated in this study. A vtg2-mutant zebrafish line was produced and effects of genomic disturbance were observed in F2 females and F3 offspring. No change in vtg2 transcript has been detected, however, Vtg2 abundance in F2 female liver was 5×, and in 1 hpf F3 vtg2-mutant embryos was 3.8× less than Wt (p < 0.05). Fecundity was unaffected while fertilization rate was more than halved in F2 vtg2-mutant females (p < 0.05). Hatching rate was significantly higher in F3 vtg2-mutant embryos in comparison to Wt embryos. Survival rate declined drastically to 29% and 18% at 24 hpf and 20 dpf, respectively, in F3 vtg2-mutant embryos. The introduced mutation caused vitelline membrane deficiencies, significant mortalities at early embryonic stages, and morphological abnormalities in the surviving F3 vtg2-mutant larvae. Overrepresentation of histones, zona pellucida proteins, lectins, and protein degradation related proteins in F3 vtg2-mutant embryos provide evidence to impaired mechanisms involved in vitellin membrane formation. Overall findings imply a potential function of Vtg2 in acquisition of vitellin membrane integrity, among other reproductive functions, and therefore, its essentiality in early zebrafish embryo development