Expression data from zebrafish pigment cells at adult stage
Ontology highlight
ABSTRACT: In zebrafish, there are interactions between black pigment cells (melanophores) and yellow pigment cells (xanthophores) for pigment-pattern formation. However, the detailed molecular mechanism of these interactions remains largely unknown. We used microarray for identifying the molecular basis of these interactions by comparing gene expression between melanophores and xanthophores. Zebrafish pigment cells were collected from adult-fish fins by centrifugal separation or using cell sorter. melanophores vs. xanthophores
Project description:Using Agilent custom made expression microarrays we analyzed the difference of gene expression in caudal fin tissues of wild type fish and transgenic fish that can form melanomas. For this we used a transgenic line with forced expression of V600EBRAF that resulted in melanocyte hyperplasia, while expression of G12VHRAS resulted in malignant melanocyte neoplasia that initially grows radially (RGP) and then vertically (VGP) This microarray study was designed to determine the gene expression profile of zebrafish caudal fins in wild type or transgenic animals. Total RNA extracted from 3 pools of 10 caudal fins were used for WT, BRAF and RGP samples, whilst for VGP RNA was extracted from 3 pools of 6 caudal fin tumours.
Project description:This experiment investigated the role of mechanical ventilation (MV) in modulating lung's transcriptional response to LPS. Twenty four C57/B6 male mice were randomized to four groups: 1. Control, 2. MV, 3. LPS and 4. MV+LPS. Expression profiling of whole lungs revealed a significant augmentation of the transcriptional response in the combined MV+LPS group relative to the other 3 conditions.
Project description:Injury to the central nervous system (CNS) may result in lifelong loss of function due, in part, to the regenerative failure of CNS neurons. Major barriers to regeneration faced by injured CNS neurons include inhibitory proteins derived from myelin and the astroglial scar. Previously, we described the identification of a novel compound, F05, which promotes neurite growth from neurons challenged with inhibitory substrates in vitro, and promotes axonal regeneration in vivo (Usher et al., 2010). To identify additional regeneration promoting compounds, we used the microarray derived gene expression signature of F05 to query the Broad Institute Connectivity Map, a database of gene expression profiles for cells treated with >1,300 compounds. Unexpectedly, F05 induced changes in gene expression remarkably similar to those seen with a group of piperazine phenothiazine antipsychotics (PhAPs). We found that, in contrast to antipsychotics of other structural classes, PhAPs were able to promote neurite growth of CNS neurons cultured on two different glial-derived inhibitory substrates, but did not promote growth on a permissive substrate. Pharmacological studies suggest that the ability of PhAPs to promote growth depends on antagonism of calmodulin signaling, but not on dopamine receptor antagonism. Our findings shed light on mechanisms underlying neurite-inhibitory signaling, and suggest a potential pathway for development of novel treatments for CNS injury. 3 Biological Replicates of Vehicle Treated (0.05% DMSO) + 3 Biological Replicates of F05 Treated (5 μM)
Project description:We show that Retinal pigment epithelium (RPE) secreted-factor, pigment epithelium derived factor (PEDF) secreted/derived from primary or iPSC-derived retinal pigment epithelium (RPE)RPE, dramatically inhibitsed the cell growth of iPSCs. PEDF was detected abundantly in culture supernatant media of primary and iPSC-derived RPE. We examined the gene expression in primary RPE and iPS-derived RPE. Two samples: RPE derived from 253G1 iPSC, Primary RPE.
Project description:Genome-wide microarray analysis of the effects of swim-training on caudal fin development in zebrafish larvae. Zebrafish were subjected to swim-training from 5 days post fertilization (dpf) until 10 dpf. Subsequently, we performed a genome-wide microarray analysis on the caudal fins of control and trained fish at 10 dpf. The goal of the project was to investigate the effects of swim-training on the gene expression level during caudal fin development in zebrafish larvae. Two-condition experiment: control vs trained fish. RNA was isolated from pooled caudal fins of 15 control fish (in duplo: pooled control samples (C2 and C3)) and of 15 trained fish (in duplo: pooled trained samples( T2 and T3)). Subsequently, each pooled RNA sample of control and trained caudal fins was labeled with Cy3 and Cy5 in order to correct for dye bias. We included a technical replicate of the labeled C2 and T2 samples.
Project description:Zebrafish have the ability to regenerate many organs and tissues including the melanocytes which are elements of the skin. RNA sequencing (RNA-Seq) is a high-throughput sequencing method facilitating transcript identification and quantification of gene expression in a precise manner. The development of RNA-Seq technologies and their extensive data-analysis methods make an investigation of regulatory genes and functional gene annotations possible under specific conditions. Here, we aim to perform large-scale comparative deep transcriptome profiling of regeneration versus cancer in the following two cellular contexts: The skin melanocytes, which can substantially regenerate in mammals and melanoma which is the type of cancer that begins in the melanocytes.
Project description:The objective of the experiment is to determine the genes differentially expressed in the adrenal gland of the chromogranin A knockout mouse (Mahapatra et al., 2005). Adrenal glands from chromogranin A knockout mice (n=3) and wild-type control mice (n=3).
Project description:During pregnancy, pancreatic islets undergo structural and functional changes that lead to enhance insulin release in response to increased insulin demand, which is rapidly reversed at parturition. One of the most important changes is expansion of pancreatic β-cell mass mainly by increased proliferation of β cells. We used microarrays to detail the global programme of gene expression and identified distinct up- or down-regulated genes during pregnancy. Maternal islet were isolated from mice at dpc 0 and 12.5 dpc of pregnancy for RNA extraction and hybridization on Affymetrix microarrays. We sought to identify the responsible factors for the proliferation of islets during pregnancy.
Project description:Previous studies of zebrafish caudal fin regeneration have shown that multiple genetic programs are moduled through regulatory factors. MicroRNAs are short highly conserved non-coding genes that suppress expression of target genes and thereby control multiple genetic programs. Given their important regulatory roles and evolutionary conservation, we hypothesize that microRNAs define a conserved genetic regulatory circuit important for appendage regeneration. We characterized microRNA expression during zebrafish caudal fin regeneration using small RNA sequencing. The stages of caudal fin regeneration were assayed for mRNA expression using mRNA sequencing. Small RNA and mRNA gene expression profiling during 0 and 4 days post amputation.
Project description:We investigated a novel, simple approach to induce the production of cryptic secondary metabolites in actinomycetes by stimulating the organism with high-intensity monochromatic green light (180 radiation unit). Streptomyces coelicolor A3(2) produces blue antibiotic actinorhodin (ACT) and red antibiotic undecylprodigiosin (RED). Using these two pigment antibiotics as indicators, we found that sporulation acceleration and regulation of the antibiotic production pathways can be induced by using high-intensity monochromatic green LEDs. Therefore, we investigated the immediate response of S. coelicolor A3(2) gene expression to the strong green LED stimulation.