Transcription profiling of primary rat hepatocyte model toxicology system dosed with carbon tetrachloride using three starting qualities of RNA to evaluate impact on the quality of hybridization signals on Agilent Platform
Ontology highlight
ABSTRACT: Array data from a primary rat hepatocyte model toxicology system dosed with carbon tetrachloride has been produced on Agilent and Codelink microarray platforms using three starting qualities of RNA (high (RIN: 9.0), medium (RIN: 5.0) and low (RIN: 2.5) quality, assessed by RIN number).
Project description:Time course experiment to study the expression profile of cln3-delta bck2-delta G1 arrested yeast cells upon overexpression of CLN3
Project description:In the process of evaluating teratogenic properties of xenobiotica, the consumption of laboratory animals is high and costly which makes the development of alternative methods desirable. The pluripotent embryocarcinoma cell line P19, which closely resembles the early stage of an embryo, may be relevant as an in vitro model of teratogenicity. The antiepileptic drug Valproic acid (VPA) is a potent inducer of neural tube defects (ntd:s) in both human and mouse, but its mechanism of teratogenicity is not know. P19 cells were here treated with sodium valproate in a both time and dose dependent matter to profile the gene expression response with Codelink UniSet Mouse 20K I Bioarrays. This profile may reveal biomarkers of ntd:s as well as give mechanistic input of the teratogenicity of VPA.
Project description:Bi-sex male and female Schistosoma mansoni worms were isolated from mice 7-weeks post-infection. Bi-sex male material or female material was compared in a direct bimodal comparison to single-sex male or female material. Two independent biological batches of both bi- and single-sex males were used. One batch of single-sex female material was used in comparisons to three independent biological batches of bi-sex female material. A dye-swap hybridization was performed for each bimodal comparisons in turn.
Project description:In vitro maturation (IVM) of the oocytes is a routine method in bovine embryo production. The competence of bovine oocytes to develop into embryo after IVM and in vitro fertilization (IVF) is lower as compared to in vivo preovulatory oocytes. Cumulus cells (CC) that enclose an oocyte are involved in the acquisition of oocyte quality during maturation. Using transcriptomic approach we compared cumulus cells gene expression during IVM with that in vivo preovulatory period. Global transcriptional profiling was performed using cumulus cells collected from mature bovine oocytes (metaphase-II stage) after maturation performed either in vivo or in vitro. In vivo matured cumulus cells were collected from ovulatory follicles of Montbeliard adult cows by ovum pick-up in vivo (OPU, n=4). In vitro matured cumulus cells were recovered from the oocytes after 22h of in vitro culture of cumulus-oocyte complexes (50 COC per experiment) from 2-6 mm ovarian follicles of adult cows (MIV, n=4). Gene expression analysis was carried out between in vivo and in vitro matured cumulus representing a total of 8 slides (dye swap protocol)
Project description:In bacteria, two-component regulatory system (TCSs) is generally characterized by a simple phosphotransfer scheme, composed of a sensor domain (a histidine kinase) and a response domain (a response regulator), which is responsible for detection of external stimuli. PhoP-PhoQ TCS of Xanthomonas oryzae pv. oryzae (Xoo), a causal agent of bacterial leaf blight disease in rice, was previously shown to be negatively regulated by RaxR-RaxH, another TCS that senses population cell density as well as modulates the activity of AvrXA21, a bacterial effector, recognized by a bacterial blight resistance gene, Xa21. In this work, whole-genome microarray was performed to analyze transcription profiling and identify member of PhoP regulon under Mg2+ and Ca2+ limited condition. This analysis revealed that PhoP governs broad cellular pathways including stress defense response, cation transportation, general metabolism, broad regulatory system, bacterial motility, and bacterial virulence. Array results provide a set of candidate genes, further biochemical pathway analysis, and signaling pathway crosstalks that need to be characterized to understand PhoP-dependent mechanisms and also suggest a putative regulatory loop between two phoP-phoQ and raxR-raxH TCSs. Implication of this analysis suggested that Xoo adopt PhoP-PhoQ system to perceive extracellular signals from certain environment such as low concentration of metal ions, and to regulate intracellular signals of other regulatory systems. Keywords: Comparative transcription profiling under limited Mg2+ Ca2+ condition Three biological and dye-swap replicates, total six samples for each dataset. Three datasets contained; (i) phoP knockout mutant vs. wildtype PXO99A in low concentration (10 µM) of MgCl2 and CaCl2, (ii) phoP knockout mutant in low (10 µM) vs. high (10mM) concentration of MgCl2 and CaCl2, and (iii) PXO99A in low (10 µM) vs. high (10mM) concentration of MgCl2 and CaCl2.
Project description:Canola plants inoculated with plant growth-promoting bacteria either expressing ACC deaminase or not to determine the effect on plant gene expression using an Arabidopsis microarray. 3 replicates for each ACD+ and ACD- bacteria, each compared with untreated control.
Project description:Copper is an essential cofactor for many enzymes but at high concentrations it is toxic for the cell. Copper ion concentrations ≥50 µM inhibited growth of Corynebacterium glutamicum. The transcriptional response to 20 µM Cu2+ was studied using DNA microarrays and revealed 26 genes that showed a ≥3-fold increased mRNA level, including cg3280-cg3289. Several genes in this genomic region code for proteins presumably involved in the adaption to copper-induced stress, e. g. a multicopper oxidase and a copper-transport ATPase. In addition, this region includes the copRS genes (previously named cgtRS9) which encode a two-component signal transduction system composed of the histidine kinase CopS and the response regulator CopR. Deletion of the copRS genes increased the sensitivity of C. glutamicum towards copper ions, but not to other heavy metal ions. Using comparative transcriptome analysis of the ΔcopRS mutant and the wild type in combination with electrophoretic mobility shift assays and reporter gene studies the CopR regulon and the DNA-binding motif of CopR were identified. Evidence was obtained that CopR binds only to the intergenic region between cg3285 and cg3286 in the genome of C. glutamicum and activates expression of the divergently oriented gene clusters cg3285-cg3280 and cg3286-cg3289. Altogether, our data suggest that CopRS is the key regulatory system in C. glutamicum for the extracytoplasmic sensing of elevated copper ion concentrations and for induction of a set of genes capable of diminishing copper stress. Four or five biological replicates of each experiment were performed. Experiment 1: Transcriptome comparison of wild type grown with 1.25 µM or with 21.25 µM CuSO4; Exp. 2: WT vs. copRS deletion mutant grown with 21.25 µM CuSO4; For analysis via DNA microarrays, the RNA was isolated from exponentially growing cells cultivated in CgXII medium containing glucose as carbon source and either 1.25 uM CuSO4 or 21.25 uM CuSO4.