Project description:Ovarian cancer is a deadly gynecological malignancy for which novel biomarkers and therapeutic targets are imperative for improving survival. To investigate the role of histone H1 in ovarian cancer cells, we overexpress a histone H1 variant, H1.3, in the OVCAR-3 epithelial ovarian cancer cell line. RNA was extracted from OV-3/H1.3(H) cells (OVCAR-3 with overexpression of H1.3) and control cells of OVCAR-3 transfected with vectors without H1.3. The microarray chip used was human Affymetrix ST1.0 array. Gene expression changes caused by overexpression of H1.3 in OVCAR-3 cells were identified.
Project description:Ovarian cancer is a deadly gynecological malignancy for which novel biomarkers and therapeutic targets are imperative for improving survival. To investigate the role of histone H1 in ovarian cancer cells, we overexpress a histone H1 variant, H1.3, in the OVCAR-3 epithelial ovarian cancer cell line. RNA was extracted from OV-3/H1.3(H) cells (OVCAR-3 with overexpression of H1.3) and control cells of OVCAR-3 transfected with vectors without H1.3. The microarray chip used was human Affymetrix ST1.0 array. Gene expression changes caused by overexpression of H1.3 in OVCAR-3 cells were identified. Affymetrix Human Exon 1.0 ST array was used to identify the changes in transcriptome of OVCAR-3 caused by overexpression of H1.3
Project description:The study was designed to determine the biological effects of novel marine alkaloid analog, FBA-TPQ on human ovarian cancer cells for its anti-tumor potential and the underlying mechanisms as a novel chemotherapeutic agent. Transcriptional profiling of human ovarian cancer cells comparing control vehicle-treated OVCAR-3(a human ovarian cancer cell line) cells with OVCAR-3 cells treated with 1000nM FBA-TPQ for 24 hours. Goal was to determine the effects of FBA-TPQ on global OVCAR-3 cells gene expression. One-condition experiment, control vehicle-treated OVCAR-3 vs. FBA-TPQ treated-OVCAR-3 cells. Biological replicates: 2 replicates.
Project description:The study was designed to determine the biological effects of novel marine alkaloid analog, FBA-TPQ on human ovarian cancer cells for its anti-tumor potential and the underlying mechanisms as a novel chemotherapeutic agent. Transcriptional profiling of human ovarian cancer cells comparing control vehicle-treated OVCAR-3(a human ovarian cancer cell line) cells with OVCAR-3 cells treated with 1000nM FBA-TPQ for 24 hours. Goal was to determine the effects of FBA-TPQ on global OVCAR-3 cells gene expression.
