Project description:In the present study, we employed the RNA sequencing platform to examine the molecular response of zebrafish liver to arsenic exposure and carry out detailed transcriptomic analyses for further understanding of molecular toxicity. We found that several important biological processes were perturbed by arsenic exposure, including oxidation reduction, translation, iron ion transport, cell redox and homeostasis, as well as related pathways in metabolism and diseases. Furthermore, as there are currently no biomarker genes available for predicting arsenic exposure, we took the advantage of RNA sequencing platform to identify most suitable biomarker genes from top responsive genes to arsenic exposure. We first validated these top responsive genes by RT-qPCR in zebrafish and then in Japanese medaka (Oryzias latipes) at individual fish level for more robustly responsive genes across different fish species. Transcriptome profiling of arsenic-treated sample and control sample were generated by deep sequencing using 3' RNA-SAGE on the SOLiD system.

Project description:We employed a transgenic strain of a small aquarium fish medaka (Oryzias latipes) that overexpresses a malignant melanoma driver gene. In this model, melanoma develops with 100 % penetrance. Using the medaka malignant melanoma model, we tested whether cisplatin and trametinib are able to suppress the transcriptomic changes induced by the transgene.

Project description:To examine the seasonal adaptaion, we compared the gene expression of brains (ventral part of telenchephalon, hypothalamus and pituitary) between SD (short-day conditions: 10 h light/14 h dark and 26 °C) and LD (long-day conditions: 14 h light/10 h dark and 26 °C) conditions in Medaka fish (Oryzias latipes).

Project description:To examine the seasonal adaptation, we compared the gene expression of eyes between SL (short-day and low-temperature conditions: 10 h light/14 h dark and 8 °C) and LD (long-day and warm-temperature conditions: 14 h light/10 h dark and 26 °C) conditions in Medaka fish (Oryzias latipes).

Project description:The aim of this sequencing experiment was to make available tissue expression panels for selected fish species for comparative expression studies between the species. Tissue samples were collected for zebrafish (Danio rerio), medaka (Oryzias latipes), and rainbow trout (Oncorhynchus mykiss). Tissue types included liver, skin, muscle, heart, gut, gill, eye, brain for all three species, with additionally pyloric caeca, kidney, head kidney, and spleen for rainbow trout. Only liver samples were taken in replicate of four or three for rainbow trout. All fish were raised under standard rearing conditions for the species. Total RNA was extracted from the tissue samples and paired‐end sequencing of sample libraries was completed on an Illumina HiSeq 2500 with 125‐bp reads. Processed count tables per species as raw counts, FPKM, or TPM, were generated from read alignment to the Ensembl genomes of the respective species using STAR and gene level counting using RSEM and Ensembl gene annotation.

Project description:Directing both organismal homeostasis and physiological adaptation, the pituitary is a key endocrine gland in all vertebrates. It communicates the needs of the organism to different organs by secreting hormones into the bloodstream. Here, we have used the model fish medaka (Oryzias latipes) to investigate the developmental dynamics in the pituitary using a comprehensive RNA-seq time series from 31 to 375 days post-fertilization.

Project description:Transcriptomic profile of Stage 40 Oryzias latipes (Medaka) embryos wild type and KO for SEDL

Project description:The present study used microarray expression profiling to determine the effects of embryonic arsenic exposure. Fertilized killifish (Fundulus heteroclitus) eggs were exposed to 0, 5, 15, or 25ppm arsenic as sodium arsenite. To examine differentially expressed genes, the microarrays were probed using RNA obtained from the control and 25ppm-exposed killifish just after hatching. No differences were noted in survival or hatching success between any of the groups. After analysis, a set of 332 genes was found to accurately distinguish between the control and 25ppm exposure groups. Expression of several of the genes (CDBP1, Arts1, FetB, and Fbp7) was quantified by qPCR in the lower exposure groups and at earlier time points to examine temporal and dose-responsive expression patterns. These results will enable us to better understand how arsenic impacts development. Killifish eggs were fertilized, divided into petri dishes containing 40 eggs (n=10 replicate petri dishes), and cultured until hatch in 0 or 25 ppm arsenic as sodium arsenite. Four to five hatchlings within each petri dish were pooled to obtain RNA. A total of 20 arrays were probed, 10 with RNA from control fish and 10 with RNA from the arsenic-exposed fish.

Project description:It is often the case that inadequate numbers of biological replicates are utilized in differential gene expression analysis. We describe an easy and effective RNA-seq approach using molecular barcoding to enable profiling a large number of replicates simultaneously. This approach significantly improved the performance of differential gene expression analysis. Using this approach in medaka fish (Oryzias latipes), we discovered novel genes with sexually dimorphic expression, and genes necessary for germ cell development. We appeal that the common practice of using three replicates in differential gene expression analysis should be abandoned.

Project description:Alkalinity stress is considered to be one of the major stressors for fish in saline-alkali water. Thus, it is of great significance from both aquaculture and physiological viewpoint to understand the molecular genetic response of aquatic organisms to alkalinity stress. The objective of this study is to determine genome-wide gene expression profiles to better understand the physiology response of medaka (Oryzias latipes) to high carbonate alkalinity stress. In lab-based cultures, adult fish were exposed to freshwater and high carbonate alkalinity water .We designed a microarray containing 26429 oligonucleotides and describe our experimental results for measuring gene expression changes in the gill of carbonate alkalinity stress exposed fish. The fish were exposed to freshwater (FW) and high carbonate alkalinity water (AW) for 96h, each with three replicates.