Project description:Each total RNA sample is hybridized to two different arrays: Affymetrix U133A (GPL96) and U133B (GPL97). For most of the normal tissue samples there is a renal clear cell carcinoma sample from the same patient. There is no matching tumor sample for normal sample N1. For most of the renal clear cell carcinoma samples there is a corresponding adjacent normal tissue sample from the same patient. There are no matching normal tissue samples for C011 or C032. Keywords = kidney Keywords = renal Keywords = RCC Keywords = carcinoma Keywords = cancer Keywords: parallel sample

Project description:The level of trypsin-2 has been shown to correlate with the malignancy and metastatic potential of many cancer. We used microarrays to detail how tryspin-2 overexpression changes the gene profile of human tongue squamous cell carcinoma cell line (HSC-3).

Project description:At one site (#10), three different batches of MTRRM (see E-TABM-16), were labeled with two different kits (Enzo and Affymetrix) and hybridized to two different Affymetrix Arrays (RAE230A and RAE230_2).

Project description:Peripheral whole blood-based gene expression profiling has become one of the most common strategies exploited in the development of clinically relevant biomarkers. However, the ability to identify biologically meaningful conclusions from gene expression patterns in whole blood is highly problematic. First, it is difficult to know whether or not expression patterns in whole blood capture those in primary tissues. Second, if explicit steps are not taken to accommodate the extremely elevated expression levels of globin in blood then large-scale multi-probe microarray-based studies can be severely compromised. Many studies consider the use of mouse blood as a model for human blood in addition to considering blood gene expression levels as a general surrogate for gene expression levels in other tissues. We explored the effects of globin reduction on peripheral mouse blood in the detection of genes known to be expressed in human tissues. Globin reduction resulted in 1.) a significant increase in the number of probes detected (5840 ± 944 vs 12411 ± 1904); 2.) increased expression for 4128 probe sets compared to non-globin reduced blood (p < .001, ≥ two-fold); 3.) improved detection of genes associated with many biological pathways and diseases; and 4.) an increased ability to detect genes expressed in 27 human tissues (p < 10-4). This study suggests that although microarray-based mouse blood gene expression studies that do not consider the effects of globin are severely compromised, globin-reduced mouse whole blood gene expression studies can be used to capture the expression profiles of genes known to contribute to various human diseases. Whole and GLOBINclear-treated paired blood samples from 18 mice representing 3 mice from 6 different isogenic mice strains.

Project description:HSC-3-5 cells, which drived from human HSC-3 cells via transwell invasion assay was high invasive.Tumor cells were injected into the tongue of SCID mice. After 1 week, transcriptional profiling of human HSC-3 tumor comparing with high invasive HSC-3-5 tumor. Goal was to determine the effects of invasion on global HSC-3-5 gene expression during tumor metastasis. HSC-3 and HSC-3-5 oral cancer cells were respectively injected into the tongue of SCID mice. After 1 weeks, total RNA was respectively extracted from the tumor tissue on tongue of SCID mice for gene expression profiling during metastasis. Briefly, two-condition experiment,HSC-3 vs. HSC-3-5 cells.

Project description:MAF1 represses Pol III-mediated transcription by interfering with TFIIIB and Pol III. Herein, we found that MAF1 knockdown induced CDKN1A transcription and chromatin looping concurrently with Pol III recruitment. Simultaneous knockdown of MAF1 with Pol III or BRF1 (subunit of TFIIIB) diminished the activation and looping effect, which indicates that recruiting Pol III was required for activation of Pol II-mediated transcription and chromatin looping. ChIP analysis after MAF1 knockdown indicated enhanced binding of Pol III and BRF1, as well as of CFP1, p300, and PCAF, which are factors that mediate active histone marks, along with the binding of TBP and POLR2E to the CDKN1A promoter. Simultaneous knockdown with Pol III abolished these regulatory events. Similar results were obtained for GDF15. Our results reveal a novel mechanism by which MAF1 and Pol III regulate the activity of a protein-coding gene transcribed by Pol II. Knockdown assay was performed using siRNA obtained from MISSION®RNA (Sigma). Inhibition of expression of Pol III (SASI_Hs01_00046568) and MAF1 (SASI_Hs01_00135954) was achieved by transfection with LipofectamineTM RNAiMax (Invitrogen) according to the manufacturer’s protocol. MISSION® siRNA Universal Negative Control (Sigma) was used as knockdown control. Cells were transfected in serum-free medium. After 8 h, the siRNA containing medium was replaced with complete medium.

Project description:We treated intestinal organoids continuously for 5 days with or without TgfbR1/2 inhibitor (LY2109761) or Tgfb1 ligand Organoids were continuously treated for 5 days, then RNA was extracted and hybridized to Affymetrix Mouse Genome 430 2.0

Project description:The dermal papilla (DP) of the hair follicle plays crucial roles in the hair follcie morphogenesis and cycling. Thus, the elucication of human DP molecular signature is of great interest. DP cell culture by conventional method impairs intrinsic properties of DP cells. Isolatoion of human DP is hampered by the lack of specific cell surface markers. Thus, it still depends on manual microdissection, with which the removal of minor contamination is unfeasible. Cultured DP cells are mostly pure. Aggregation of cultured DP cells was shown to restore some intrinsic properties in cultured DP cells. Fibroblasts are distinct dermal cell population and provide baseline for DP arrays. Four sets of Genechip microarrays were generated from freshly-microdissected DPs (fDP), cultured DP cells (cDP), cultured fibroblasts (Fibro) collected from respective volunteers. Two sets of Genechips were additionally prepared from aggregated DP cells (agDP) and cultured DP cells which were used for the generation of agDPs (each set derived from respective volunteer). These Genechips can be compared to elucidate the genes possibly contribute to intrinsic property of intact human DPs. For instance, comparisons between cultured DP (cDP) and fibroblast (Fibro) or between aggregated DP (agDP) and cDP could sort out potential DP signature genes, as each population is predominantly consisted of DP cells. When the expression levels of those genes were compared between fDP and cDP chips, the genes up- or equally expressed in fDPs should represent DP signature genes.

Project description:To systemically explore how RNA quality affects microarray assay results, a set of rat liver RNA samples with a progressive change in RNA quality was generated either by thawing frozen tissue or by ex vivo incubation of fresh tissue.

Project description:Proliferating C2C12 myoblasts were induced to differentiate into myotubes and then infected with adenovirus expressing E1A (Ad-E1A), which induces cell cycle re-entry and dedifferentiation. We analyzed the transcriptional profile of E1A infected C2C12-myotubes through the Affymetrix Mouse Genome 430 2.0 Array, searching for genes that were significantly regulated between two independent biological replicates at two different time points (24h and 36h after infection with Ad-E1A). In addition, we took advantage of the E1A mutant known as YH47/dl928 (hereafter referred as YH47), which bears two mutations in the pocket-binding region of E1A (Y48H, C124G) able to disrupt the interaction with Rb and its cognate proteins and to impair cell-cycle re-entry phenotype. YH47 mutant was used to identify the Rb independent transcriptional reprogramming of C2C12. C2C12 cells were differentiated in vitro to myotubes as previously described. Myotubes were, then, infected with an adenovirus carrying the 12S form of E1A (dl520), with the YH47 E1A mutant (dl928) or with a control adenovirus (CTR) expressing a deletion of essentially the entire E1A gene (dl312). Two different time points after infection were considered (24 hours and 36 hours) to evaluate changes in C2C12 cells expression profile. Technical (A or B) and biological replicates (EXP1 or EXP2) were done for each condition.