Project description:Influenza virus polymerase transcribes or replicates the segmented RNA genome (vRNA) into respectively viral mRNA or full-length copies and initiates RNA synthesis by binding the conserved 3' and 5' vRNA ends (the promoter). In recent structures of promoter-bound polymerase, the cap-binding and endonuclease domains are configured for cap snatching, which generates capped transcription primers. Here, we present a FluB polymerase structure with a bound complementary cRNA 5' end that exhibits a major rearrangement of the subdomains within the C-terminal two-thirds of PB2 (PB2-C). Notably, the PB2 nuclear localization signal (NLS)- containing domain translocates ~90 A ̊ to bind to the endonuclease domain. FluA PB2-C alone and RNA-free FluC polymerase are similarly arranged. Biophysical and cap-dependent endonuclease assays show that in solution the polymerase explores different conformational distributions depending on which RNA is bound. The inherent flexibility of the polymerase allows it to adopt alternative conformations that are likely important during polymerase maturation into active progeny RNPs.</br></br>Extra contact information:</br><a href="mailto:cusack@embl.fr">Stephen Cusack</a>, EMBL Grenoble Outstation, Unit of Virus Host-Cell Interactions, France ( corresponding author and lab head )

Project description:Neddylation is a post-translational mechanism that adds a ubiquitin-like protein, namely neural precursor cell expressed developmentally down-regulated protein 8, to target proteins, with yet-unknown consequences. Here we show in mice that neddylation in liver is modulated by nutrient availability. Inhibition of neddylation in mouse liver (either pharmacologically or genetically) reduces gluconeogenic capacity and the hyperglycemic actions of counterregulatory hormones (glucagon, adrenaline and glucocorticoids). Further, people with obesity and type 2 diabetes (compared to people with obesity and normoglycemia) display elevated hepatic neddylation levels that correlate positively with fasting glucose levels. Mechanistically, we determined that fasting or caloric restriction of mice leads to neddylation of phosphoenolpyruvate carboxykinase 1 (PCK1) at three lysine residues—K278, K342 and K387. PCK1 is a key control point for gluconeogenesis regulation that can be post-translationally modified by acetylation and phosphorylation, but to date no modifications are known to affect its gluconeogenic capacity. Of note, we find that mutating the three PCK1 lysines that are neddylated reduces its gluconeogenic activity rate. Molecular dynamics simulations show that neddylation of PCK1 could re-position two loops surrounding the catalytic center into an open configuration, rendering the catalytic center more accessible. Our study reveals that neddylation of PCK1 provides a finely-tuned mechanism of controlling glucose metabolism by linking whole nutrient availability to metabolic homeostasis.

Project description:During sexual reproduction half of the genetic material is deposited in gametes and a complete set of chromosomes is restored upon fertilisation. Reduction of the genetic information prior gametogenesis occurs in meiosis where crossovers (COs) between homologous chromosomes secure an exchange of their genetic information. COs are not evenly distributed along chromosomes and are suppressed in chromosomal regions encompassing compact, hypermethylated centromeric and pericentromeric DNA. Therefore, it has been postulated that DNA hypermethylation is inhibitory to COs. Here by analysing meiotic recombination in mutant plants with hypomethylated DNA we observed unexpected and counterintuitive effects of the DNA methylation losses on COs distribution, further promoting recombination in the naturally hypomethylated euchromatic chromosome arms, while inhibiting it in heterochromatic regions encompassing centromeric and pericentromeric hypermethylated DNA. Importantly, the total number of COs was not affected, implying that the loss of DNA methylation only led to a global redistribution of COs along chromosomes. To determine by which mechanisms altered levels of DNA methylation influenced recombination, namely whether this occurred directly in cis or indirectly in trans by changing expression of genes encoding recombination components, we analysed COs distribution in WT lines with randomly scattered and well mapped hypomethylated chromosomal segments. Results of these experiments, supported by expression profiling data, suggest that DNA methylation affects meiotic recombination in cis. As DNA methylation is subjected to significant variation even within a single species, our results implicate that it could influence evolution of plant genomes through the control of meiotic recombination. 2 samples: Col, epiRIL12, with 3 replicates each

Project description:Tyrosine (Tyr, Y) and phenylalanine (Phe, F) synthesis is shared by the pea aphid and its symbiont Buchnera aphidicola.These aromatic amino acids are essential for the pea aphid growth and development. To characterize the molecular mechanisms, at gene transcriptional level, underlying this symbiotic integrated network pea aphids (Acyrthosyphon pisum, clone LL01) were reared on (i) standard artificial diet (AP3) and (ii) on the same AP3 medium depleted of Tyr (Y) and Phe (F). From each of the two groups, aphids were collected at specific time points and dissected: 12 h (D0), 1 day (D1), 2 days (D2), 3 days (D3), 4 days (D4), 5 days (D5) and 7 days (D7). Total RNA, to be used in gene expression analysis by arrays, was extracted, under the two rearing conditions, from two tissues: gut [from 20 aphids per sample at all 7 time points] and bacteriocytes [from 25 aphids per sample at 4 time points: 3 days (D3), 4 days (D4), 5 days (D5) and 7 days (D7)]. At each time point we included three biological replicates.

Project description:The zebrafish is a powerful model for the study of hematopoietic stem and progenitor cells (HSPC). We have developed a novel HSPC-specific transgenic line (Runx1+23:GFP). We have used this line in time-lapse live imaging studies to track the migration of HSPC during development. We have also performed a chemical genetic screen to find small molecules that modulate HSPC numbers during development. Treating embryos from 2-3 days post fertilization (2-3 dpf) then fixing for in situ staining with HSPC probes cmyb and runx1, we found the compound lycorine increased HSPC numbers. Applying this compound during time-lapse live imaging showed increased accumulation of Runx+ HSPC in the caudal hematopoietic tissue (CHT). Treatment from 2-3 dpf, then washing off the compound, had a sustained effect on the size of the HSPC with Runx+ numbers higher at 5 and 7 dpf. We have performed microarray analysis to elucidate the molecular changes within HSPC and endothelial cells after Lycorine treatment. We treated Runx1+23:GFP;kdrl:DsRed2 embryos from 2-3 dpf with 75 uM lycorine in 1% DMSO. We then dissociated the embryos and sorted the Runx+ GFP cells, the kdrl+ DsRed2 cells, and the non-fluorescent negative cells from the total embryo as a comparator population. Total RNA was amplified and biotin labled for hybridization on Affymetrix microarrays. 18 samples were collected and analyzed. There are 3 biological replicates. There are 3 cell type populations: 1) Runx+ HSPC; 2) kdrl+ endothelial cells; 3) non-fluorescent negative cells. There are cell populations from dissociated Lycorine-treated embryo pools, and control DMSO-treated embryo pools.

Project description:Viral infection in Drosophila triggers inducible gene expression, but the function of many of these genes and the biological significance of their induction remain poorly understood. Here, we report the functional characterization of the gene Diedel, which is strongly induced following some viral infections and encodes a 12kDa circulating protein. Diedel mutant flies have reduced viability and succumb rapidly to infection with Sindbis virus. This phenotype is associated with deregulated expression of IMD target genes and is rescued by mutations in the genes imd or IKKg, indicating that Diedel functions as an immunosuppressor cytokine targeting the IMD pathway. Homologues of Diedel are found in the genome of several DNA viruses, providing the first example of virokines in insects. Our results reveal that, besides RNA interference and apoptosis, an NF-kB pathway of inducible defense exerts evolutionary pressure on insect viruses. For each experimental condition (non infected and SINV infected), two biologically independent samples composed of 45 males of w1118 or Diedelcfm null mutant flies were used. Infection has been performed by injecting viral stocks prepared in Tris solution. Flies were then incubated for days at 29°C.

Project description:Identification of the TXNIP IRES and characterization of the impact of regulatory IRES trans-acting factors

Project description:Diverse elements within the 5’ untranslated region of an mRNA can influence the translation efficiency at the main AUG codon. We previously identified a core picornaviral like Y16X11-AUG motif with 16-nt polypyrimidine CU-tract separated by an 11-nt spacer sequence from the 13th AUG codon recognized as the preferred initiation site within the Triticum mosaic virus (TriMV) internal ribosome entry site (IRES) element. The motif is proposed to function as an internal ribosomal landing site at the designated start codon. Here we exposed the cooperative role of multiple CU-rich segments flanking the TriMV YX-AUG motif to drive internal initiation of translation at the preferred start site. We propose that these auxiliary domains may enhance the ribosome capacity at proximity of the correct initiation site. These polypyrimidine tracts can be modulated with a cryptic AUG and in a position-dependent manner to replace the native YX-AUG motif and to reprogram translation to the upstream sites, and thus uncovering a new layer of control of the selection of the initiation site. In line with these observations, mass spec analysis of proteins directly interacting with translationally impaired TriMV IRES mutants that bear these motifs indicated an enrichment in 40S and 60S ribosomal related proteins, revealing a new function of polypyrimidine tracts to regulate IRES-driven translation. Accessibility of these RNA regions for in trans interaction was validated by SHAPE analysis of the entire TriMV leader sequence and supported by the ability of anti-sense oligonucleotides designed to block the CU-tracts accessibility to impair IRES activity. This is the first evidence that defines the core modular domains required for start codon selection in a complex, multi-AUG viral 5’UTR for translation in plants.

Project description:Nodal signaling, mediated through SMAD transcription factors, is necessary for pluripotency maintenance and endoderm commitment. We have identified a new motif, termed SMAD Complex Associated (SCA) that is bound by SMAD2/3/4 and FOXH1 in human embryonic stem cells (hESCs) and derived endoderm. We demonstrate that two bHLH proteins - HEB and E2A - bind the SCA motif at regions overlapping SMAD2/3 and FOXH1. Further, we show that HEB and E2A associate with SMAD2/3 and FOXH1, suggesting they form a complex at critical target regions. This association is biologically important, as E2A is critical for mesendoderm specification, gastrulation, and Nodal signal transduction in Xenopus tropicalis embryos. Taken together, E2A is a novel Nodal signaling cofactor that associates with SMAD2/3 and FOXH1 and is necessary for mesendoderm differentiation. ChIP-seq of Smad2/3 and Input in X.tropicalis, stage 10.5 embryo.

Project description:Global expression pattern in eosinophils in various conditions such as eosinophilic asthma, hypereosinophilic dermatological diseases, parasitosis and pulmonary aspergillosis. Eosinophil were isolated from peripheral blood by FACS from 4 hypereosinophilic conditions: eosinophilic asthma (4 replicates), hypereosinophilic dermatological diseases (3 replicates), parasitosis (3 replicates) and pulmonary aspergillosis (4 replicates).