Project description:Rat has been treated with different compounds with the purpose of investigating toxicological mechanisms. But toxic and non-toxic compounds has been administered. 3 toxic (ANIT, DMN, NMF) 3 non-tox (Caerulein, dinitrophenol(DNP), Rosiglitazone) in 5-plicates (30 arrays in all) and 9 untreated (control), 39 samples in all. The array data was used to identify genes with biomarker potential for detecting toxic properties of compounds. Keywords: other Rats was treated with different compounds and RNA from liver was extracyed after 48 hours. Microarrays (GeneChip Rat230 version 2) was run on the RNA
Project description:Rat has been treated with different compounds with the purpose of investigating toxicological mechanisms. But toxic and non-toxic compounds has been administered. 3 toxic (ANIT, DMN, NMF) 3 non-tox (Caerulein, dinitrophenol(DNP), Rosiglitazone) in 5-plicates (30 arrays in all) and 9 untreated (control), 39 samples in all. The array data was used to identify genes with biomarker potential for detecting toxic properties of compounds. Keywords: other
Project description:The liver has the unique capacity to regenerate after surgical resection. However, the regulation of liver regeneration is not completely understood. We performed miRNA microarray analyses of liver tissue from Wistar rats at different time points after 70% partial hepatectomy (0, 2, 6, 12, 24, 48 hours, and 5 days) and after sham laparotomy (12, 24, and 48 hours). We demonstrate that miRNA expression patterns changed during liver regeneration and that these changes were most evident during the peak of DNA replication at 24 hours after resection. Expression of 13 miRNAs, including five members of the let-7 family, was significantly reduced 12-48 hours after resection, whereas 3 miRNAs were significantly upregulated (> 25% change). We provide a temporal miRNA expression dataset of the regenerating rat liver, which indicates a primary function for miRNA during the peak of DNA replication. These data will assist further functional studies on the role of miRNAs during liver regeneration.
Project description:This study provides an evaluation of changes in gene expression associated with phenobarbital treatment of rat hepatocytes in vitro. Primary rat hepatocytes were treated for 24 and 48 hours with two doses (300 uM and 3 mM) of phenobarbital and water vehicle control. Five replicates of each treatment were performed. Cells were then extracted and RNA processed for microarray analysis. This series is part of a SuperSeries in which primary rat hepatocytes were treated with two doses of ten chemical compounds (and corresponding vehicle controls) for 24 and 48 hours. Each compound/vehicle treatment group was an individual study performed at different times. Each study was analyzed separately and themes common between studies were reported. Time Course/Dose Response
Project description:This study provides an evaluation of changes in gene expression associated with acetominophen treatment of rat hepatocytes in vitro. Primary rat hepatocytes were treated for 24 and 48 hours with two doses (500 uM and 5 mM) of acetominophen and 1% DMSO vehicle control. Five replicates of each treatment were performed. Cells were then extracted and RNA processed for microarray analysis. This series is part of a SuperSeries in which primary rat hepatocytes were treated with two doses of ten chemical compounds (and corresponding vehicle controls) for 24 and 48 hours. Each compound/vehicle treatment group was an individual study performed at different times. Each study was analyzed separately and themes common between studies were reported. Time Course/Dose Response
Project description:This study provides an evaluation of changes in gene expression associated with chlorpromazine HCl treatment of rat hepatocytes in vitro. Primary rat hepatocytes were treated for 24 and 48 hours with two doses (0.8 uM and 20 uM) of chlorpromazine HCl and 1% DMSO vehicle control. Five replicates of each treatment were performed. Cells were then extracted and RNA processed for microarray analysis. This series is part of a SuperSeries in which primary rat hepatocytes were treated with two doses of ten chemical compounds (and corresponding vehicle controls) for 24 and 48 hours. Each compound/vehicle treatment group was an individual study performed at different times. Each study was analyzed separately and themes common between studies were reported. Time Course/Dose Response
Project description:This study provides an evaluation of changes in gene expression associated with clofibrate treatment of rat hepatocytes in vitro. Primary rat hepatocytes were treated for 24 and 48 hours with two doses (60 uM and 1 mM) of clobibrate and 1% DMSO vehicle control. Five replicates of each treatment were performed. Cells were then extracted and RNA processed for microarray analysis. This series is part of a SuperSeries in which primary rat hepatocytes were treated with two doses of ten chemical compounds (and corresponding vehicle controls) for 24 and 48 hours. Each compound/vehicle treatment group was an individual study performed at different times. Each study was analyzed separately and themes common between studies were reported. Time Course/Dose Response
Project description:This study provides an evaluation of changes in gene expression associated with dioctyl phthalate treatment of rat hepatocytes in vitro. Primary rat hepatocytes were treated for 24 and 48 hours with two doses (250 uM and 1 mM) of dioctyl phthalate and 1% DMSO vehicle control. Five replicates of each treatment were performed. Cells were then extracted and RNA processed for microarray analysis. This series is part of a SuperSeries in which primary rat hepatocytes were treated with two doses of ten chemical compounds (and corresponding vehicle controls) for 24 and 48 hours. Each compound/vehicle treatment group was an individual study performed at different times. Each study was analyzed separately and themes common between studies were reported. Time Course/Dose Response
Project description:This study provides an evaluation of changes in gene expression associated with beta-naphthaflavone treatment of rat hepatocytes in vitro. Primary rat hepatocytes were treated for 24 and 48 hours with two doses 1 uM and 100 mM) of beta-naphthaflavone and 1% DMSO vehicle control. Five replicates of each treatment were performed. Cells were then extracted and RNA processed for microarray analysis. This series is part of a SuperSeries in which primary rat hepatocytes were treated with two doses of ten chemical compounds (and corresponding vehicle controls) for 24 and 48 hours. Each compound/vehicle treatment group was an individual study performed at different times. Each study was analyzed separately and themes common between studies were reported. Time Course/Dose Response