Project description:To investigate the patterns of global gene expression profiles modulated by the ZnO nanoparticles and ZnSO4, and to differentiate their modes of toxicity, zebrafish (Danio rerio) will be exposed to the ZnO nanoparticles and ZnSO4 (LC25), and used for microarray analysis by Agilent Zebrafish Oligo Microarray system. 244 genes overlaped between ZnO nanopartices and ZnSO4 treatments in a total of 1,586 differential expressed genes.G-protein coupled receptor protein (GPCR)-signaling pathways, cell-surface receptor-linked signal transduction and immune response are most significant GO terms enriched in genes up regulated by two treatments. Cytokine-cytokine receptor interactions pathway and intestinal immune network for IgA production pathway were enriched among ZnO nanoparticles activated genes, and specifically induced by ZnSO4 include cell adhesion molecules (CAMs) pathway.

Project description:Using hMeDIP-seq we validated the single-base resolution hydroxymethylomes (ACE-seq) of sea urchin, lancelet and zebrafish embryos.

Project description:To investigate the events throughout embryogenesis, we performed a series of proteomic analyses using purple sea urchin embryos as a model.

Project description:Purpose: The Tbrain transcription factor has demonstrated an evolved preference for low-affinity, secondary site binding motifs between the sea star and sea urchin orthologs. We sought to identify targets of sea urchin and sea star orthologs of Tbr. Because less is known about the function of Tbr during sea star development, we used RNA-seq in conjuction with ChIP-seq studies (GEO:xxxx) to determine the targets of sea star Tbr in early development. Methods: Sea star (Patiria miniata) embryos were injected with translation-blocking morpholino antisense oligonucleotides to knock-down PmTbr expression, as described previously. Control morpholinos were injected into sibling embryos. Embryos were allowed to develop until hatching (30-36 hpf) at which point injected embryos were collected and RNA was extracted. RNA-seq libraries were prepared, sequenced, and analyzed using standard protocols. Results: There are 2,562 genes that are significantly differentially expressed relative to control morpholino inected embryos (FDR < 0.05). There are roughly equivalent numbers of genes down-regulated (1,041) and up-regulated (1,521) by Pm-tbr knockdown, suggesting that PmTbr may act as both a transcriptional activator and repressor. 1,165 differentially expressed genes are located within 75 kb of a PmTbr binding site determined using ChIP-seq, and this set is used as a basis for comparison between sea star and sea urchin binding sites. Conclusions: 1,165 targets of the PmTbr transcription factor were identified based on differential expression following knockdown and the presence of transcription factor binding sites proximal to differentially expressed genes. There are an equal number of up- and down-regulated targets, suggesting Tbr may function as a transcriptional activator and repressor, depending on context and target gene. There was no clear association of motif utilization with either the direction of differential expression or ontological category of the target gene. There are only a small fraction of target genes (approximately 10%) that are in common between the sea star and sea urchin sets.

Project description:Transcription factor SoxC is required for all neural development in purple sea urchin S. purpuratus embryos. To begin to develop a gene regulatory network for neural development, we used RNA-Seq to compare transcript populations in SoxC knockdown and control embryos.

Project description:The transcriptome of embryos which overexpress Pmar1 is compared to the transcriptomes of embryos which do not express Pmar1. For this purpose, sea urchin embryo RNAs were prepared from 3 experimental conditions: over expression of Pmar, over expression of dominant negative cadherin (dnCad), non injected embryos (NI)

Project description:Transcription factor SoxC is required for all neural development in purple sea urchin S. purpuratus embryos. To begin to develop a gene regulatory network for neural development, we used RNA-Seq to compare transcript populations in SoxC knockdown and control embryos. SoxC function was knocked down by morpholino oligo injection. RNA from about 1000 embryos were collected for both control and knockdown samples.

Project description:Zinc Oxide nanoparticles (ZnO NPs) are being rapidly developed for use in consumer products, wastewater treatment and chemotherapy providing several possible routes for ZnO NP exposure to humans and aquatic organisms. Recent studies have shown that ZnO NPs undergo rapid dissolution to Zn+2, but the relative contribution of Zn+2 to ZnO NP bioavailability and toxicity is not clear. Gene expression profiling of D. magna exposed to ZnO NPs or ZnSO4 at equitoxic concentrations demonstrated that the particles cause toxicity through a distinct mechanism compared with Zn+2. D. magna were also exposed to a SiO NPs as a particle control at equimolar concentrations. The SiO NPs resulted in few differentially expressed genes and there was very little overlap between the genes affected by the ZnO NPs and the SiO NPs, suggesting that ZnO NPs cause a distinct pattern of differentially expressed genes. In the ZnO NP exposures, effects were observed to genes involved in cytoskeletal transport, cellular respiration and reproduction. Three biomarker genes including a multi-cystatin, ferritin and a C1q containing gene were confirmed as differentially expressed in a specific pattern by ZnO NP and provide a suite of biomarkers for identifying environmental exposure to ZnO NP and differentiating between NP and ionic exposure. We exposed Daphnia magna to the 1/10 LC50 and LC25 of ZnO nanoparticles and Zn++ as ZnSO4 for 24-h. For each exposure condition, we performed 3 exposures and 2 technical replicates (as dye swap) for each exposure (6 microarrays total). All exposures were compared to a unexposed laboratory control

Project description:N. oceanica IMET1 was inoculated into modified f/2 liquid medium, which was prepared with 35 g L−1 sea salt, 1 g L−1 NaNO3, 67 mg L−1 NaH2PO4*H2O, 3.65 mg L−1 FeCl3*6H2O, 4.37 mg L−1 Na2EDTA*2H2O, trace metal mix (0.0196 mg L−1 CuSO4*5H2O, 0.0126 mg L−1 NaMoO4*2H2O, 0.044 mg L−1 ZnSO4*7H2O, 0.01 mg L−1 CoCl2, and 0.36 mg L−1 MnCl2*4H2O), and vitamin mix (2.5 µg L−1 VB12, 2.5 µg L−1 biotin, and 0.5 µg L−1 thiamine HCl). The algal cells were grown in liquid cultures under continuous light (∼500 µmol photons m−2 s−1) at 25°C and aerated by bubbling with a mixture of 1.5% CO2 in air.

Project description:There is still a lot of contradiction on whether metal ions are solely responsible for the observed the toxicity of ZnO and CuO nanoparticles to aquatic species. While most tests have studied nanoparticle effects at organismal levels (e.g. mortality, reproduction), effects at suborganismal levels may clarify the role of metal ions, nanoparticles and nanoparticle aggregates. In this study, the effect of ZnO, CuO nanoparticles and zinc, copper salts was tested on the gene expression levels in Daphnia magna. D. magna was exposed during 96 hours to 10% immobilization concentrations of all chemicals, after which daphnids were sampled for a differential gene expression analysis using microarray. When comparing the nanoparticle exposed daphnids (ZnO or CuO) to the metal salt exposed daphnids (zinc or copper salt), the microarray results showed no significantly differentially expressed genes. These results indicate that the toxicity of the tested ZnO and CuO nanoparticles to D. magna caused is solely caused by toxic metal ions. 4 replicate exposures of ZnO nanoparticles, ZnCl2, Blank (for Zn); 4 replicate exposures of CuO nanoparticles, CuCl2.2H2O, Blank (for Cu); Individual reference design with swapped dyes for zinc (e.g. ZnO-REFZn; REFZn-bl) and copper exposure (e.g. CuO-REFCu; REFCu-bl); Zinc reference sample is a mixture of equal aliquots of ZnO nanoparticle, ZnCl2 and blank; Copper reference sample is a mixture of equal aliquots of CuO nanoparticle, CuCl2.2H2O and blank