Project description:This study is to develop a short term and highly accurate prediction method of renal carcinogenicity based on gene expression profile of rats administrated by carcinogens. We conducted 28 days-repeated dose experiments in male SD rats with cisplatin, and the gene expression profiles of renal cortex were analyzed using custom microarrays.

Project description:This study is to develop a short term and highly accurate prediction method of renal carcinogenicity based on gene expression profile of rats administrated by carcinogens. We conducted 28 days-repeated dose experiments in male SD rats with phenylbutazone, and the gene expression profiles of renal cortex were analyzed using custom microarrays.

Project description:This study is to develop a short term and highly accurate prediction method of renal carcinogenicity based on gene expression profile of rats administrated by carcinogens. We conducted 28 days-repeated dose experiments in male SD rats with phenolphthalein, and the gene expression profiles of renal cortex were analyzed using custom microarrays.

Project description:This study is to develop a short term and highly accurate prediction method of renal carcinogenicity based on gene expression profile of rats administrated by carcinogens. We conducted 28 days-repeated dose experiments in male SD rats with monuron, and the gene expression profiles of renal cortex were analyzed using custom microarrays.

Project description:This study is to develop a short term and highly accurate prediction method of renal carcinogenicity based on gene expression profile of rats administrated by carcinogens. We conducted 28 days-repeated dose experiments in male SD rats with bromodichloromethane, and the gene expression profiles of renal cortex were analyzed using custom microarrays.

Project description:This study is to develop a short term and highly accurate prediction method of renal carcinogenicity based on gene expression profile of rats administrated by carcinogens. We conducted 28 days-repeated dose experiments in male SD rats with anthraquinone, and the gene expression profiles of renal cortex were analyzed using custom microarrays.

Project description:This study is to develop a short term and highly accurate prediction method of renal carcinogenicity based on gene expression profile of rats administrated by carcinogens. We conducted 28 days-repeated dose experiments in male SD rats with chlorothalonil, and the gene expression profiles of renal cortex were analyzed using custom microarrays.

Project description:This study is to develop a short term and highly accurate prediction method of renal carcinogenicity based on gene expression profile of rats administrated by carcinogens. We conducted 28 days-repeated dose experiments in male SD rats with potassium bromate, and the gene expression profiles of renal cortex were analyzed using custom microarrays.

Project description:This study is to develop a short term and highly accurate prediction method of renal carcinogenicity based on gene expression profile of rats administrated by carcinogens. We conducted 28 days-repeated dose experiments in male SD rats with n-nitrosodimethylamine, and the gene expression profiles of renal cortex were analyzed using custom microarrays.

Project description:This study is to develop a short term and highly accurate prediction method of renal carcinogenicity based on gene expression profile of rats administrated by carcinogens. We conducted 28 days-repeated dose experiments in male SD rats with o-nitroanisole, and the gene expression profiles of renal cortex were analyzed using custom microarrays.