Project description:Benzo[a]pyrene (BaP), a polycyclic aromatic hydrocarbon (PAH), is implicated in many developmental and behavioral adverse outcomes in offspring of exposed parents. Following a dietary preconceptional exposure to BaP in zebrafish, the objective of this study was to compare parental sex-dependent adverse outcomes in F1 and F2 offspring with the transcriptomic and epigenetic changes in eggs, sperm, and 10-hour post fertilization (hpf) embryos. Adult wild-type (5D) zebrafish were fed 708 µg BaP/g diet (measured) at a rate of 1% body weight twice/day (14 µg BaP/g fish/day) for 21 days. Fish were spawned using a crossover design and parental (F0) behavior and reproductive indexes measured. In offspring behavioral effects were measured at 96 hours post fertilization (hpf) in F1 & F2 larvae, and again when F1s were adult. Compared to controls, there was no significant effect of BaP exposure on adult behavior in F0, but locomotor behavior was significantly increased in F1 adults of both sexes. Larval behavior (96 hpf, photomotor response assay) was significantly altered in both the F1 and F2 generations following parental BaP exposure. To assess parental sex-dependent molecular mechanisms, BaP-mediated differential gene expression and DNA methylation changes were measured using RNAseq and RRBS, respectively, on F0 sperm and eggs and the 10 hpf embryos from all four crosses in F1 generation. Embryos resulting from the BaP male and control female cross had the most differentially methylated regions (DMRs) and differentially expressed genes. Some DMRs were associated with genes encoding chromatin modifying enzymes suggesting regulation of chromatin conformation by DNA methylation. Parental dietary BaP exposure caused persistent behavioral changes wherein the male germline contributed most significantly to the multigenerational adverse outcomes.

Project description:Embryonic period is sensitive window of bisphenol A (BPA) exposure. However, embryonic development is a highly dynamic process with changing cell populations and gene expression profiles. Heterogeneity effects of BPA on fish embryonic development remain not clear. This study applied single-cell RNA sequencing to analyze the impact of BPA exposure on transcriptome heterogeneity of 64683 cells from zebrafish embryos at 8, 12 and 30 hpf. A total of 38 cell populations were identified, and gene expression profiles of 16 cell populations were significantly altered by BPA exposure. The strongest toxic effects of BPA were found at 12 hpf of segmentation stage, which is an active stage of cell differentiation. At 8 hpf, BPA mainly influenced the outer layer cell populations of embryos, such as neural plate border and enveloping layer cells. At 12 and 30 hpf, nervous system formation and heart morphogenesis were disturbed. Differential process of neural plate border, neural crest, and neuron cells was altered, leading to increased neurogenesis. For the forebrain, midbrain, neurons, and optic cells, the altered cell division and DNA replication and repair were identified. Our study for the first time provides the comprehensive understanding of BPA toxicity on fish embryo development at single-cell levels.

Project description:In triplicate for each condition, 12 WT and acbd6 F0 crispant Danio rerio (zebrafish) embryos were incubated with 20 μM YnMyr for 24 h, either between 48-72 hpf or 96-120 hpf. After labelling, zebrafish were washed twice with fresh egg water, deyolked, flash frozen in liquid nitrogen and stored at -80°C until further analysis.

Project description:In triplicate for each condition, 12 WT and acbd6 F0 crispant Danio rerio (zebrafish) embryos were incubated with 20 μM YnMyr for 24 h, either between 48-72 hpf or 96-120 hpf. After labelling, zebrafish were washed twice with fresh egg water, deyolked, flash frozen in liquid nitrogen and stored at -80°C until further analysis.

Project description:To comprehensively understand the genes affected by beta-arrestin1 depletion in zebrafish fish embryos at 12 hpf, microarray analysis was performed. As controls, zebrafish embryos depleted of beta-arrestin2 and double depletion of beta-arrestin1 and beta-arrestin2 were also analyzed.

Project description:Purpose: This study aimed to identify differentially expressed genes and transcripts in zebrafish embryos and larvae following benzo[a]pyrene (BaP) exposure. Methods: Adult zebrafish (2 males × 4 females, N=6 replicate tanks for each treatment) were acclimated for 7 days in an 818 Low Temp Illuminated Incubator (Precision Scientific, Chennai, India) at 28.5°C. Next, adult fish were waterborne exposed to control or 50 μg/L (ppb) BaP for 7 days; ethanol was used as vehicle solvent, and final ethanol concentration was 0.1 mL/L (100 ppm) in all treatment groups. This dose of ethanol is not teratogenic to zebrafish. Water was changed and/or re-dosed daily. From day 7 to 11 of the parental exposure, eggs were collected, counted, and raised in normal conditions (control) or continuously exposed to 50 μg/L BaP until 3.3 and 96 hours post fertilization (hpf). At 3.3 or 96 hpf, embryos (200/pool) or larvae (10/pool) were collected and pooled. Total RNA was isolated for transcriptomic RNA sequencing with Illumina HiSeq2000 (2X100bp). RNA-seq reads were uploaded to the galaxy platform https://main.g2.bx.psu.edu/. RNA-seq reads were trimmed, filtered, and aligned to the zebrafish genome (Danio_rerio.Zv9.68) with the Tophat for Illumina tool. Counting and annotation of RNA-seq reads were performed with Partek Genomics Suite version 6.11. Refseq Transcripts (2013-04-10) and Ensembl Transcripts release 70 databases were used for gene and transcript annotation. Differential expression of gene and transcript reads between treatments was analyzed with R package EdgeR. Genes/transcripts with false discovery rate (FDR) less than 0.05 and absolute fold change greater than 1.5 were considered as significant. Differentially expressed genes were defined as genes with altered expression at either gene or transcript level. Results: Differential expression analysis with EdgeR revealed that gene expression was vastly different between 3.3 hpf zebrafish embryos and 96 hpf larvae. Using Refseq annotation, we found that 10644 out of 13950 transcribed zebrafish genes were differentially expressed between the two developmental time-points, with 5961 up-regulated genes and 4683 down-regulated genes in 96 hpf larvae compared with 3.3 hpf embryos. Similarly, using Ensembl annotation, 16529 out of 19886 transcribed zebrafish genes were differentially expressed, with 9318 up-regulated genes and 7211 down-regulated genes in 96 hpf larvae compared with 3.3 hpf embryos. In 3.3 hpf embryos, four genes and seven transcripts were differentially expressed after BaP exposure. In 96 hpf larvae, 447 and 484 zebrafish genes were significantly up- and down-regulated, respectively, by BaP exposure. Conclusions: Parental and developmental BaP exposure caused gene expression changes in zebrafish embryos and larvae.

Project description:Adar-mediated A-to-I editing is required for establishment of embryonic body axes in zebrafish. To assess the effect of Adar KD and OE, uninjected wild-type and embryos injected with 1 ng of adar MO or 50 pg of adar mRNA were kept until desired developmental stage: 128-cell or 50% epiboly. Two replicates of 20 pooled embryos from each time point were isolated for RNA extraction. For the analysis at 12 hpf, a separate batch of uninjected control, as well as Adar KD and OE samples were generated in three replicates.

Project description:The Cyprinus carpio is one of the most important food fish with over hundred varieties in the world. It shows many morphological and genetic variations after selection breeding. It is also considered an alternative vertebrate fish model to zebrafish. MicroRNAs (miRNAs) and long non-coding RNAs (lncRNAs) have been suggested to have a crucial role in embryonic development. However, systemic research on the lncRNAs and miRNAs during embryonic development of C. carpio has not been reported yet. In this study, we investigated the miRNA, lncRNA and mRNA expression profiles during six main embryonic development stages (cleavage (2 hours post-fertilization hpf)), blastocyst (6 hpf), gastrulation (12 hpf), organ formation (20 hpf), hatching (64 hpf) and 1 day post-hatching). A total of 323.43 Gb high-quality reads were obtained from lncRNA library. After filtering, 51,979 lncRNAs were identified. The results would open the way for future genetic, genomic, and evolutionary studies and enable better understanding of gene regulation during embryonic development of C. carpio.

Project description:The Cyprinus carpio is one of the most important food fish with over hundred varieties in the world. It shows many morphological and genetic variations after selection breeding. It is also considered an alternative vertebrate fish model to zebrafish. MicroRNAs (miRNAs) and long non-coding RNAs (lncRNAs) have been suggested to have a crucial role in embryonic development. However, systemic research on the lncRNAs and miRNAs during embryonic development of C. carpio has not been reported yet. In this study, we investigated the miRNA, lncRNA and mRNA expression profiles during six main embryonic development stages (cleavage (2 hours post-fertilization hpf)), blastocyst (6 hpf), gastrulation (12 hpf), organ formation (20 hpf), hatching (64 hpf) and 1 day post-hatching). A total of 9,888,123 clean reads were obtained frommiRNA library. After filtering, 2886 miRNAs were identified. The results would open the way for future genetic, genomic, and evolutionary studies and enable better understanding of gene regulation during embryonic development of C. carpio.

Project description:Estrogen signaling is important for vertebrate embryonic development. Here we have used zebrafish (Danio rerio) as a vertebrate model to identify estrogen regulated genes during the first 4 days of development. Zebrafish embryos were exposed to 1 M-BM-5M 17M-NM-2-estradiol from 3 hours post fertilization to 4 days post fertilization, harvested daily and subjected to RNA extraction for transcriptome analysis using microarrays. Estrogen responsive genes were analyzed with hierarchical clustering followed by gene function and tissue expression analysis. Markedly distinct sets of genes were up and down-regulated by estrogen treatment at different time points. Among these genes, only the well-known estrogenic marker vtg1 was co-regulated at all time points. Despite this, the biological functional categories targeted by estrogen were similar throughout zebrafish development. Estrogen responsive genes were enriched mainly in the liver, pancreas and brain. In conclusion, our data shows that in zebrafish distinct cohorts of E2 responsive genes are expressed in a tissue specific manner at different developmental stages. However, the biological pathways that are affected are conserved. 30 embryos were pooled as one sample and exposed to 1 M-NM-<M E2 or vehicle (0.1% DMSO) at approximately 3 hours post fertilization (hpf). At different time points, 1 dpf (24 hpf), 2 dpf (48 hpf), 3 dpf (72 hpf) and 4 dpf (104 hpf), embryos were collected for total RNA extractions. Time points 1 and 2 dpf were performed in biological triplicates of independent pools of RNA while time points 3 and 4 dpf were performed in quadruplicates.