Project description:Chemical analysis of the compounds present in sediment, although informative, often is not indicative of the downstream biological effects that these contaminants exert on resident aquatic organisms. More direct molecular methods are needed to determine if marine life is affected by exposure to sediments. In this study, we used an aquatic multispecies microarray and q-PCR to investigate the effects on gene expression in juvenile sea bream (Sparus aurata) of two contaminated sediments defined as sediment 1 and 2 respectively, from marine areas in Northern Italy.

Project description:We report the application of next generation RNA sequencing to analyze the transcriptional response of Drosophila adult flies to infection by the insect pathogenic nematodes Heterorhabditis bacteriophora and their mutualistic bacteria Photorhabdus luminescens, either separately or together. We find that Heterorhabditis and Photorhabdus differentially modulate a large number of genes, many of which participate in metabolic functions, stress responses, repression of gene transcription and neuronal activities. We have also identified Drosophila genes with potential role in nematode recognition and others with putative anti-nematode properties. These findings generate novel insights into how the host immune function is shaped to respond against nematode parasites and their associated bacteria. Transcriptional profiles of Drosophila wild-type adult flies infected with Heterorhabditis bacteriophora carrying or lacking Photorhabdus or the bacteria alone were generated at 12 and 30 hours post infection using Illumina deep sequencing technology.

Project description:In order to polish a long-read genome assembly, short-read illumina data was obtained from Heterodera schachtii cysts (Woensdrecht population from IRS, the Netherlands). Cysts where obtained from infected plant material. Nematodes were cleaned using a sucrose gradient centrifugation step. Thereafter DNA was extracted and used for library preparation and sequencing by Illumina NextSeq500.

Project description:Hsp90 is a molecular chaperone involved in the regulation and maturation of kinases and transcription factors. In C. elegans Hsp90 participates in the development of fertility, maintenance of muscle structure and the regulation of stress response and dauer state. To understand the consequences of Hsp90-depletion we studied Hsp90 RNAi-treated nematodes by DNA microarrays and mass spectrometry. We find that upon development of phenotypes the levels of chaperones and cofactors are increased, while specific proteins related to the innate immune response are specifically depleted. We further uncover Hsp90-dependent signatures of gonad development and larval development. Using reporter strains for the responsive genes skr-5, dod-24 and clec-60, we confirm an influence on the innate immune response in intestinal tissues, while alterations to development become evident in strains reporting on the presence of ZIP-8, CAV-1 and SEPA-1 in the gonad arms and very early embryos. These observations add molecular details to the Hsp90-dependent processes during development and stress responses and imply that multiple interactions of this chaperone system are relevant for the nematode’s life and development.

Project description:Chemosynthetic symbioses between bacteria and invertebrates occur worldwide in a wide range of marine habitats. Although they have been intensively investigated, molecular physiological studies of chemoautotrophic bacteria colonizing the surface of animals (ectosymbioses) are scarce. Stilbonematinae nematodes are the only known invertebrates capable of cultivating monocultures of thiotrophic Gammaproteobacteria on their surface. Crucially, as these nematodes migrate through the redox zone of marine sediments, the ectosymbionts directly experience drastic variations in oxygen concentration. Here, by applying an array of omics, Raman microspectroscopy and stable isotope labeling-based techniques, we investigated the effect of varying concentrations of dissolved oxygen on physiology and metabolism of Candidatus Thiosymbion oneisti, the longitudinally dividing ectosymbiont of Laxus oneistus. We show that, unexpectedly, sulfur oxidation genes were upregulated in anoxic relative to oxic conditions, and that carbon fixation genes and incorporation of 13C-labeled bicarbonate were not. Instead, several genes involved in carbon fixation in addition to genes responsible for assimilating organic carbon compounds and polyhydroxyalkanoate (PHA) biosynthesis, as well as nitrogen fixation and urea utilization genes were upregulated in oxic versus anoxic conditions. Furthermore, in the presence of oxygen, stress-related genes were upregulated together with vitamin and cofactor biosynthesis genes likely necessary to withstand its deleterious effects. Based on this first global physiological study of an uncultured, chemosynthetic ectosymbiont, we propose that, in anoxic pore water, it proliferates by utilizing nitrate to oxidize reduced sulfur compounds, whereas, when exposed to oxygen, it exploits aerobic respiration to facilitate energetically costly assimilation of carbon and nitrogen to survive oxidative stress. Both anaerobic sulfur oxidation and its decoupling from carbon fixation represent unprecedented adaptations among chemosynthetic symbionts. We postulate that Ca. T. oneisti originated from an obligate anaerobic, denitrifying sulfur-oxidizer, which, while transitioning from the free-living to the symbiotic lifestyle, evolved mechanisms to survive the oxidative stress inherent to a life attached to an animal.

Project description:This study compared the different gene expression of Bursaphelenchus xylophilus in two growth conditions (growing on Botrytis cinerea and inoculating Pinus thunbergii). The goal was to analyze the specifically-expressed genes of the pine wood nematode involved in the early interaction between B. xylophilus and P. thunbergii and screen the pathogenesis related genes of B. xylophilus. Two-condition experiment, Growing on Botrytis cinerea vs. Inoculating Pinus thunbergii . Biological replicates: 3 replicates.

Project description:Humans are exposed to both inorganic and organic mercury. While the toxicity of mercury is well established, much remains to be resolved about how different mercurials act at the molecular level. To address this issue, we employed a toxicogenomics approach using the nematode C. elegans. Using sub-, low- or high-toxic exposures of either HgCl2 or CH3HgCl the effects of these mercurials on steady-state mRNA levels for the entire genome were determined. A total of 473 and 2,865 genes were differentially expressed in the HgCl2 and CH3HgCl treatments, respectively. Hierarchical clustering, principal components and pattern analyses indicated that the transcriptional responses of the mercurials were unique. Mixed-stage C. elegans populations were exposed to 0, 2, 7.5 or 20 uM HgCl2 or 0, 0.75, 2, 7.5 uM CH3HgCl for 24 hours. Three independent experiments were performed for each treatment condition.

Project description:This investigation was designed to follow the parasitic fungus Monacrosporium haptotylum during infection of the nematode Caenorhabditis elegans. M. haptotylum traps nematodes using a spherical structure called knob, which develops on the apex of a hyphal branch. The advantage of using this species is that the unicellular knobs can be separated from the mycelium that has been grown in liquid culture. The isolated knobs retain the function as infection structures. The cDNA microarray contained 2,778 M. haptotylum and 588 C. elegans gene reporters. The experiments was designed as a time course study including infected and non-infected tissue, over 24 hours which involves stages of adhesion, penetration and digestion of the infected nematodes.

Project description:The silkworm silk gland is one of the most efficient protein synthesis systems among all organisms. Its amazingly efficient protein synthesis makes the silk gland a desirable object for basic studies on gene expression and regulation and for biotechnological applications. At the early stages of the fifth (final) instar, the cellular structures necessary for the synthesis of fibroin are rapidly formed, and at the later stage the synthesis of fibroin proceeds at a maximum rate. The posterior silk gland (PSG) is the longest suborgan and is responsible for the synthesis of the silk core protein fibroin, which is composed of heavy (H) and light (L) chains plus P25. We used microarrays to detail the global programme of gene expression in silkworm PSG during the late larval stages, including the fourth molting (M4) and day 1 (V1), day 3 (V3), day 5 (V5), and day 7 (wandering stage, W) of the fifth instar, and to reveal the correlations of differential expression genes with the PSG development and fibroin synthesis. Silkworm PSGs were collected at M4, V1, V3, V5, and W stages for RNA extraction and hybridization on 23K Silkworm Genome Arrays (CapitalBio Corp., Beijing, China). Three groups of biological replicates were prepared at each time point.Dual-dye experiments were performed for the PSG at M4, V1, V3, V5, and W; a total of 15 samples were tested including three biological replicates at each stage. Aliquots of each test sample were pooled as a common reference sample (CKA). The test samples and CKA were labeled with Cy3 and Cy5, respectively.

Project description:The pinewood nematode (PWN), Bursaphelenchus xylophilu (Bx) s, one of the most serious forest pests, worldwide, is considered the causal agent of the pine wilt disease (PWD). The main host species belong to the genus Pinus and a variation in the susceptibility of several pine species to PWN infection is well-known. Additionally, it is also recognized that there is variation in the virulence among different B. xylophilus isolates. In the present study, we applied a quantitative mass spectrometry-based proteomics approach to perform a deep characterization of proteomic changes across two B. xylophilus isolates from different hosts and geographical origins and with different virulence. A total of 1456 proteins were quantified and compared between the two isolates secretomes and a total of 2741 proteins were quantified and compared between the nematode proteomes in two different conditions, pine tree extract and fungus stimuli.