Project description:To investigate the transcriptomic alterations following 24hpf knockdown of the gene HNRNPAB in zebrafish, we injected HNRNPAB morpholino with 3ng and 6ng into 1-cell zebrafish embryos separately, and the 24hpf embryos were collected for RNA-seq.

Project description:Identification of genes differentially regulated after treatment of zebrafish embryos from 50% epiboly to 24hpf with 6.5uM leflunomide

Project description:Identification of genes differentially regulated after treatment of zebrafish embryos from 50% epiboly to 24hpf with 6.5uM leflunomide A six chip study comparing expression levels of zebrafish embryos treated with leflunomide 6.5uM

Project description:Zebrafish 24hpf mutant sk8 gene expression

Project description:Bulk tissue RNA-sequencing of individual 24hpf zebrafish larvae to compare the gene expression values between wild type and foxg1a nonsense mutants (heterozygous and homozygous mutants). The mutation is a 5bp deletion (32bp from canonical start codon; AAATG deleted).

Project description:We performed a zebrafish forward genetic screen by Tol2 mediated gene-trap approach and uncovered one mutant stac (The number of the transgenic line: B55) that showed severe cell-death distributed in the various brain and trunk in the homozygote embryos. Analysis of stac homozygous embryos demonstrates typical apoptosis. So it is necessary to analyze whether the apoptosis and cell cycle regulated signaling transductions are changed in the mutant, in order to provide valuable clues to some other species. And the up-regulated and down-regulated genes in the mutant compared to the WT were examined by zebrafish cDNA microarray. Total RNA was isolated from wild-type and mutant embryos in 24hpf and 30hpf and their quality was checked by the company with LAB-ON-A â??CHIP system. The reverse transcription and Biotin-labeling has been done with the RNA as template. The hybridization and elution was performed with Affymetrix GeneChip® Zebrafish Genome Array. Both the control group (wild-type) and the experimental group (mutant) have two repeats.

Project description:Here we describe successful implementation of CUT&Tag for profiling protein-DNA interactions in zebrafish embryos. We optimized CUT&Tag protocol to generate high resolution maps of enrichment for the histone variant H2A.Z during zebrafish development. We were able to establish dynamics of H2A.Z genomic patterning from shield stage to 24hpf embryos. Our work demonstrates the power of combining CUT&Tag with the strengths of the zebrafish system to better understand the changing embryonic chromatin landscape and its roles in shaping development.

Project description:Prenatal exposure to ethanol leads to a myriad of developmental disorders known as fetal alcohol spectrum disorder, often characterized by growth and mental retardation, central nervous system damage and specific craniofacial dysmorphic features. Although the exact mechanisms of ethanol toxicity are not well understood it is known that ethanol exposure during development affects the expression of several genes involved in cell cycle control, apoptosis and transcription. MicroRNAs (miRNAs) are implicated in some of these processes however it is unclear if they are involved in ethanol-induced toxicity. Here we tested whether ethanol deregulates miRNA expression in zebrafish embryos and if a miRNA deregulation signature could be inferred. For this, zebrafish embryos were exposed to two different ethanol concentrations (1% and 1.5%) from 4 hours post-fertilization (hpf) to 24hpf. MicroRNA expression profiles revealed that ethanol exposure induces deregulation of miRNA expression significantly. Seven miRNAs are commonly up-regulated after both ethanol treatments, namely miR-153a, miR-725, miR-30d, let-7k, miR-100, miR-738 and miR-732, whereas downregulation of miR-23a, miR-203, let-7c, miR-128 and miR-193b is detected after 1% ethanol exposure only. Target prediction of deregulated miRNAs shows that putative targets are involved in cell cycle control, apoptosis and transcription, which are the main processes affected by ethanol toxicity. The overall study shows that the effects of ethanol on miRNA deregulation are dose-dependent and that miRNAs are relevant in the context of alcohol toxicity. Moreover, a miRNA toxicity signature for embryonic ethanol exposure was obtained. Zebrafish embryos were obtained from spawning adults in groups of about 10 males and 10 females. Zebrafish embryos were collected and Petri dishes with approximately 250 eggs each were incubated at 28M-BM-:C to allow normal zebrafish development until 4hpf, when blastula is reached. At this stage, embryos were examined under a dissecting microscope and those that had developed normally were selected for EtOH exposure (approximately 200 eggs). Briefly, 200 embryos were randomly distributed into plastic Petri dishes containing 20 mL of EtOH test solutions (1% EtOH, 1.5% EtOH). All solutions were made by dilution of absolute EtOH in system water. Exposure was from 4hpf to 24hpf. At this stage, solutions were changed by system water and embryos were allowed to grow until 24hpf. The control group was allowed to grow in plain system water. Zebrafish embryos were collected at 24hpf for microarray analysis. Two biological replicates were performed for each assay.

Project description:The dataset contained concentration course exposures of 24hpf old zebrafish embryos with tetrachloroethylene (PCE). The exposure duration was set to 12h and 24h and the concentrations were chosen to be not higher than the LC10.

Project description:Comparison of conserved TAD boundaries reveals that diverging CTCF sites is an evolutionary conserved signature associated with TAD borders 4C-seq samples for six gene family promoters in different samples: E9.5 and E14.5 mouse embryos ; 24hpf, 48hpf, 80%epiboly and Dome zebrafish embryos ; 48hpf S.purpuratus embryos