Project description:Analysis of serum starved prelamin A-accumulating hMSCs at gene expression level. The hypothesis tested in the present study was that prelamin A accumulation induces the dysregulation of genes that are essensial for cell survival under a stress condition such as serum starvation. The results provide important information about these genes and the functional categories that are dysregulated due to prelamin A accumulation in serum starved hMSCs.
Project description:HEK293T cells grown to confluence in media +10% fetal bovine serume. Media was removed and replaced with serum free media, and cultured for 3 days. RNA was harvested from day0 (serum supplemented), control, and day3 (serum starved) cultures, experiment.
Project description:Analysis of serum starved prelamin A-accumulating hMSCs at gene expression level. The hypothesis tested in the present study was that prelamin A accumulation induces the dysregulation of genes that are essensial for cell survival under a stress condition such as serum starvation. The results provide important information about these genes and the functional categories that are dysregulated due to prelamin A accumulation in serum starved hMSCs. Two samples are analyzed in this microarray experiment: human mesenchymal stem cell cultured under serum starvation conditions (during 24 hours) which accumulate prelamin A (pre-hMSCs) and control mesenchymal stem cells (ctrl-hMSCs). 2 biological replicates (hMSCs derived from 2 different bone marrow donors) and 1 technical replicate are included in this analysis.
Project description:To identify genes involved in survival to prolonged hypoxia we exposed HCT116 to hypoxia for 3 days. Control cells were exposed to normoxic conditions. HCT116 colon cancer cells were serum starved and exposed to hypoxia (1%O2) or normoxia (21%O2) for 3 days.
Project description:We sought to identify microRNAs that were differentially regulated in cultured primary human aortic smooth muscle cells (SMCs) when exposed to growth arrest via serum starvation over two time points - 48 hours and 72 hours, when compared with serum-fed cells. This treatment leads to increased expression of SMC differentiation markers such as ACTA2, MYH11 and TAGLN. We identified 31 significantly regulated miRNA candidates during this process, 28 rising and 3 falling. Human aortic SMCs (AoSMCs) were propagated in growth media. Control plates were harvested, and the remaining plates were serum starved for 48 (SS48) or 72 hours (SS72) in serum-free basal media. Several arrays were excluded from final analysis after QC, resulting in a final set of 10.
Project description:Foreskin fibroblasts CRL 2091 (ATCC) were serum starved for 48 hours, and harvested at the indicated time points after switching to media with 10% FBS essentially as described (Iyer et al., 1999). RNA from all of the sampled time points were pooled as reference RNA to compare with RNA from individual time points as described (Iyer et al., 1999).
Project description:Mtb appears to have developed specialized biomolecular infrastructure to survive and persist within granulomas, where it is subjected to a diverse set of stress conditions. One of these stress conditions is hypoxia. We hypothesized that host cell response is radically altered with hypoxia stressed Mtb and designed in-vitro experiments to study this phenomenon. Hypoxia-stressed as well as aerobically grown Mtb were used to infect rhesus macaque bone marrow derived macrophages (Rh-BMDMs) and the host global transcriptional response compared. Using 4 x44 k Agilent arrays specific for rhesus macaque genome, we tested in biological duplicate the effect of aerogically grown Mtb on rhesus macaque BMDMs and compared this to the corresponding effect of the hypoxia-conditioned Mtb on rhesus macaque BMDMs