Project description:From the parental breast cancer cell line MCF7 (weakly invasive), we progressively selected hyperinvasive subclones. We compared the gene expression between the parental MCF7-I0 and the hyper-invasive cells MCF7-I6. We used Affymetrix U133 Plus 2 microarrays to detail the global programme of gene expression underlying weakly and highly invasive breast cancer cells derived from the human breast cancer cell line MCF7. The hyper-invasive subclones were selected using Matrigel invasion chambers as a model for the invasion process in vivo. The cells that invaded through the membrane were cultured and re-introduced into an additional invasion assay. This methodology was repeated to give rise to a subclone of MCF7 cells that had invaded six times; these were termed MCF7-I6 cells. The invasive capacity of MCF7-I6 cells was shown to be more than 11 times greater than the parental cells, which we denote as MCF7-I0. Thus, these hyper-invasive cells were present within the heterogeneous population, and we speculated that differences in gene expression between the MCF7-I6 cells and the parental cells MCF7-I0 may be involved in the invasion process.
Project description:To understand transcriptional regulation of Eubacterium limosum KIST612 across different carbon/energy/electron sources, RNAseq analysis was carried out over different substrate conditions (glucose, CO, H2/CO2).
