Project description:Vitamin D receptors (VDR) are abundantly expressed in developing zebrafish as early as 48 hours post-fertilization, and prior to the development of a mineralized skeleton, and mature intestine and kidney. We probed the role of VDR in zebrafish biology by examining changes in expression of RNA by whole transcriptome shotgun sequencing (RNA-seq) in fish treated with picomolar concentrations of the VDR ligand and hormonal form of vitamin D3, 1a,25-dihydroxyvitamin D3 (1a,25(OH)2D3). We observed significant changes in RNAs encoding proteins of fatty acid, amino acid, and xenobiotic metabolism pathways, and RNAs of transcription factors, leptin, peptide hormones, receptor-activator of NFkB ligand (RANKL), and calcitonin-like ligand receptor pathways. Early small, and subsequent massive changes in >10% of expressed cellular RNAs were observed. At day 2 (24h 1a,25(OH)2D3-treatment), only 5 RNAs were differentially expressed (hormone vs. vehicle). On day 4 (72h-treatment), 78 RNAs; on day 6 (120h-treatment) 1040 RNAs; and on day 7 (144h-treatment), 1755 RNAs were differentially expressed in response to 1a,25(OH)2D3. Fewer RNAs (n = 482) were altered in day 7 embryos treated for 24h with 1a,25(OH)2D3 vs. those treated with hormone for 144h. At 7 days, in 1a,25(OH)2D3-treated embryos, pharyngeal cartilage was larger and mineralization was greater. Changes in expression of RNAs for transcription factors, peptide hormones, and RNAs encoding proteins integral to fatty acid, amino acid, leptin, calcitonin-like ligand receptor, RANKL and xenobiotic metabolism pathways, demonstrate heretofore unrecognized mechanisms by which 1a,25(OH)2D3 functions in vivo in developing eukaryotes. Zebrafish embryos were obtained from mating of Segrest wild-type (SWT) parents under controlled barrier conditions, in the Mayo Clinic Zebrafish Core Facility, in Instant Ocean media . Zebrafish embryos (25-30) were placed in 20 mL embryo medium (pH 7.2) containing 1-phenyl-2-thiourea (PTU) (0.003% (w/v) and were maintained at 28-30 oC. At 24 hpf (1 day post fertilization, dpf), 10 microliters of 1a,25(OH)2D3 in ethanol was added to embryos maintained in 20 mL fresh embryo medium with PTU. The final concentration of 1a,25(OH)2D3 was 300 pM. Control zebrafish were treated with 10 microliters ethanol alone (vehicle controls). The medium containing either 300 pM 1a,25(OH)2D3 or vehicle was changed every 24 h . In experiment 1, at 2, 4, 6 and 7 dpf embryos/larvae were removed and immediately frozen at -80 0C for later RNA preparations. 25-30 embryos per set were used for preparation on RNA. At the same times, 7-12 embryos were fixed in 4% paraformaldehyde in 0.75 X DulbeccoM-bM-^@M-^Ys phosphate buffered saline (DPBS). In experiment 2, 6 dpf larvae were treated with 1a,25(OH)2D3 (300 pM) or vehicle for 24 h. RNA was prepared from three sets of larvae.

Project description:Zebrafish (Danio rerio) model system have used widespread vertebrate investigations for genetic and cell biological analyses, and is suitable for small molecular screens such as chemical, toxicity and drug in order to use for human diseases and drug discovery . Recently, These powerful zebrafish model increasingly apply to human metabolic disease such as obesity and diabetes and toxicology. Despite a lot of advantages, proteomics research at zebrafish has received little interest in comparison with genetic and biological research using histology and in situ hybridization. Protein lysine acetylation is one of the most known post-translational modifications with dynamic and reversibly controlled by lysine acetyltransferase such as histone acetyltransferases and lysine deacetylase such as histone deacetylases and sirtuins family.Also, during the past year, global lysine acetylome studies using MS-based proteomics approach was in diverse species such as human, mouse, E. coli, Yeast and plants. Based on global acetylome data, our understanding of the roles of lysine acetylation in various cellular processes has increased. . The aim of this study was to identify Lysine acetylation in zebrafish embryos and determine the homology from Human at modified site level. Here we showed the global lysine acetylation study in Zebrafish embryos using MS-based zebrafish embryos.

Project description:transcriptome profiling of zebrafish liver tumors comparing with healthy liver tissues Zebrafish liver tumors were induced by exposure to 7,12-dimethylbenz(α)anthracene (DMBA). 5 zebrafish liver tumors and 6 healthy zebrafish livers were used to detect gene signatures in zebrafish liver tumors. A mixture of the 11 total RNA samples was used as the common reference.

Project description:The purpose of this study was to identify transcripts differentially expressed in zebrafish embryos exposed to two oxygenated PAHs, 1,9-benz-10-anthrone and benzanthracene-7,12-dione, which cause abnormal development.

Project description:We investigated the features of cells eliminated during early mouse embryogenesis by means of Single Cell RNA-Sequencing (RNA-Seq). To enrich for apoptotic cells, we treated a number of embryos with caspase inhibitor, and then collected and sequenced single-cells isolated from them.

Project description:In the present study transcriptome analysis was employed to investigate the early molecular responses to exposure to the fungicide difenoconazole, a sterol biosynthesis inhibitor according to Fungicide Resistance Action Committee (FRAC) classification. Zebrafish embryos were exposed to difenoconazole according to OECD guidelines (OECD test No. 236). At the end of exposure time (96 hours), simultaneous RNA and protein extraction from 10 embryos was performed using a Macherey & Nagel RNA/protein extraction kit. The obtained RNA extracts were sequenced using Illumina HiSeq 4000 System and the obtained sequences went through bioinformatic analysis pipeline to Identify and count the detected gene sequences followed by differential gene expression analysis. Finally, potential substance specific biomarker candidates were refined and selected based on the differential expression patterns and the biological functions investigation of the detected DEGs.

Project description:We use the zebrafish embryo model to study the innate immune response against Staphylococcus epidermidis. Therefore, we injected S. epidermidis into the yolk at 2 hpf and took samples at 5 days post injection. This deep sequence study was designed to determine the gene expression profile by Staphylococcus epidermidis infection. RNA was isolated from embryos at 5 days post injection. Wildtypes zebrafish embryos were micro-injected into the yolk (2hpf) with 20 CFU of S. epidermdis O-47 mCherry bacteria suspended in PVP (Polyvinylpyrrolidone), or Non-injected as a control. After injections embryos were transferred into fresh egg water and incubated at 28M-BM-0C. At 5 days post injection 100-200 embryos per group were snap-frozen in liquid nitrogen, and total RNA was isolated using TRIZOL reagent.

Project description:We compared Agilent custom made expression microarrays with Illumina deep sequencing for RNA analysis of zebrafish embryos 5 days post fertilization, showing as expected a high degree of correlation of expression of a common set of 15,927 genes for untreated fish. The transcriptomes were also compared for fish injected in the yolk with Mycobacterium marinum This RNA deep sequencing study was designed to determine the gene expression profile of zebrafish embryos 5 days post fertilization. We also have compared expression with embryos that were injected with Mycobacterium marinum in the yolk at 2 hours post fertilization. After injections embryos were transferred into fresh egg water and incubated at 28M-BM-0C. 150 embryos of mock-injected embryos or 200 embryos injected with 12 CFU bacteria were snap-frozen in liquid nitrogen, and total RNA was isolated using TRIZOL reagent.

Project description:In the present study transcriptome analysis was employed to investigate the early molecular responses to exposure to the fungicide metalaxyl, a nucleic acids metabolism inhibitor according to Fungicide Resistance Action Committee (FRAC) classification. Zebrafish embryos were exposed to metalaxyl according to OECD guidelines (OECD test No. 236). At the end of exposure time (96 hours), simultaneous RNA and protein extraction from 10 embryos was performed using a Macherey & Nagel RNA/protein extraction kit. The obtained RNA extracts were sequenced using Illumina HiSeq 4000 System and the obtained sequences went through bioinformatic analysis pipeline to Identify and count the detected gene sequences followed by differential gene expression analysis. Finally, potential substance specific biomarker candidates were refined and selected based on the differential expression patterns and the biological functions investigation of the detected DEGs.

Project description:Transcription factors play diverse roles during embryonic development, combinatorially controlling multiple cellular states in a spatially and temporally defined manner. Resolving the dynamic transcriptional profiles that underlie these patterning processes is essential for understanding embryogenesis at the molecular level. Here we show how temporal, tissue-specific changes in embryonic transcription factor function can be discerned by integrating caged morpholinos (cMOs) with photoactivatable fluorophores, fluorescence-activated cell sorting (FACS), and microarray technologies. As a proof of principle, we have dynamically profiled No tail-a (Ntla)-dependent genes at different stages of axial mesoderm development in zebrafish, discovering and characterizing discrete sets of transcripts that are coincident with either notochord cell fate commitment or differentiation. Our studies demonstrate how optically controlled chemical tools can be use to probe developmental processes with spatiotemporal precision and reveal the sequential activation of distinct transcriptomes within a cell lineage by a single transcriptional factor. Zebrafish zygotes were injected with a mixture of ntla caged morpholino (cMO) and caged fluorescein dextran (cFD), and a 100 µm-diameter region of the shield was UV-irradiated at 6 hours post fertilization (hpf). The UV irradiation generated an active morpholino targeting the ntla 5'UTR and simultaneously labeled the cells with green fluorescence. By 36 hpf, the irradiated, green-fluorescent cells contributed to the medial floor plate rather than the notochord, consistent with earlier proposals that Ntla acts as a transcriptional switch between these two cell fates. Combining these caged reagents with microarray analysis identified transcriptional changes coincident with loss of ntla at 9 hpf and subsequent notochord fate respecification. Zebrafish zygotes were injected with a mixture of ntla cMO/cFD, and a 100 µm-diameter region of the shield was UV-irradiated at 6 hpf. Control embryos were injected with cFD and similarly irradiated at 6 hpf. Experimental and control sets of embryos were enzymatically dissociated at 9 hpf, green-fluorescent cells were isolated by FACS, and collected in trizol. Thirty embryos were used for each experiment or controls, each yielding approximately 8,000 green fluorescent cells. Five biological replicates were performed along with five paired controls. Total RNA was isolated from each sample, reverse transcribed, and amplified using WTA2 TransPlex Complete Whole Transcriptome Amplification kit (Sigma) using a miniaturized procedure and manufacturer-recommended incubation steps. The synthesized cDNA was sent to Nimblegen for dye labeling and hybridization. Samples were hybridized to the Nimblegen 2007 (Zv 7) Danio rerio Gene Expression Array chip using one dye per chip. Raw probe data (.pair file) was subjected to RMA, normalization, background correction, and generation of gene expression summary (.calls file) by Nimblegen. Processed data was analyzed in ArrayStar software (DNAStar). Significantly affected genes (fold change > 2 and p-value < 0.10) were identified using a moderated t-test.