Project description:We investigated differentially regulated genes in human myelomonocytic U937 cells in 20s and 5min microgravity and in hypergravity and compared expression profiles to identify potential gravity-regulated genes and adaptation processes.
Project description:We investigated differentially regulated genes in human myelomonocytic U937 cells in 20s and 5min microgravity and in hypergravity and compared expression profiles to identify potential gravity-regulated genes and adaptation processes.
Project description:Pirin (PIR) is a putative transcriptional regulator whose expression is silenced in cells bearing the AML1/ETO and PML/RAR leukemogenic fusion proteins and is significantly repressed in a large proportion of acute myeloid leukemias. PIR expression increases during in vitro myeloid differentiation of primary hematopoietic precursor cells, and ablation of PIR in the U937 myelomonocytic cell line or in murine primary hematopoietic precursor cells results in impairment of terminal myeloid differentiation. Keywords: Transcriptional regulation, knock-down using shRNA We analyzed gene expression profiles of U937 cells after knock-down of PIR using the shPIR#7 oligonucleotides cloned in the pSICO-R lentiviral vector. No residual PIR protein is detectable in U937-shPIR#7 cells by Western blotting. U937 cells containing the empty cloning vector (U937-pSICO) were used as control. shPIR#7 oligonucleotide sequences: Human PIR#7-for: TGAAGCCACTTTGTCTTAATTTCAAGAGAATTAAGACAAAGTGGCTTCTTTTTTC Human PIR#7-rev: TCGAGAAAAAAGAAGCCACTTTGTCTTAATTCTCTTGAAATTAAGACAAAGTGGCTTCA For each sample, an RNA pool was obtained by mixing equal quantities of total RNA from each of three independent RNA extractions. Each biotin-labeled target was hybridized to two GeneChip HG-U133 Plus v.2 arrays.
Project description:au13-11_gravity - gravity - Cell cycle and cell proliferation are decoupled under altered gravity conditions. We have previously shown that semisolid cell cultures of Arabidopsis suffer overall genome changes in response to altered gravity and also that cell cycle stages duration is altered. By using synchronized cell cultures we will demonstrate the precise alterations in cell cycle duration and also the transcriptional signature in any of them. - Experiments consists on exposures of Arabidopsis cell cultures to 1g control/simulated microgravity (RPM) conditions. Asynchronous cells exposed for 14 h + Syncronous populations choosen to have an enrichment of cell cycle phases were used (being T7/T10 samples on G2 phase, T14/T16 samples on G1 phase). 6 dye-swap - time course,treated vs untreated comparison