Project description:RNA-seq analysis was performed in PDAC patient-derived cell line PANC-1 (NC and METTL16-silenced) to analyze the expression of RNA levels after loss of METTL16.

Project description:We compared the transcriptome of four human PDA lines: HPAF-II, Panc.05.04, Panc.8 and Panc.10.05 transfected with control siRNA or Pdx1 siRNA.

Project description:Analysis of differentially expressing genes in whole genome wide analysis of ALPPL2 expressing Panc-1 cells (Panc-1+ve) via siRNA mediated knockdown of ALPPL2 Panc-1 +ve and Panc-1-ve cell lines were generated from Panc-1 cell line based upon its hetergenous binding to aptamer SQ2. Detailed procedure of generation of these cell lines are described in Pooja Dua, Hye Suk Kang, Seung-Mo Hong, Ming-Sound Tsao, Soyoun Kim, and Dong-ki Lee. 2012 Alkaline Phosphatase ALPPL2 is a novel pancreatic carcinoma-associated protein. Cancer Research

Project description:METTL16 belongs to methyltransferase like (METTL) family and could install m6A marks on its substrates. Here, we uncover a tumor-promoting role of METTL16 in AML and LSC self-renewal. To explore the mechanism underlying the oncogenic function of METTL16 in AML, we performed m6A-seq and RNA-seq. Via integrated analysis of m6A-seq data and RNA-seq data, we identified two bona fide targets of METTL16, BCAT1 and BCAT2. METTL16 functions as an m6A methyltransferase to regulate expression of BCAT1 and BCAT2, which contribute to reprogramming BCAA metabolism.

Project description:Analysis of differentially expressing genes in whole genome wide analysis of ALPPL2 expressing Panc-1 cells (Panc-1+ve) via siRNA mediated knockdown of ALPPL2 Panc-1 +ve and Panc-1-ve cell lines were generated from Panc-1 cell line based upon its hetergenous binding to aptamer SQ2. Detailed procedure of generation of these cell lines are described in Pooja Dua, Hye Suk Kang, Seung-Mo Hong, Ming-Sound Tsao, Soyoun Kim, and Dong-ki Lee. 2012 Alkaline Phosphatase ALPPL2 is a novel pancreatic carcinoma-associated protein. Cancer Research A four chip study using total RNA recovered from Panc-1+ve cells transfected with siALPPL2-2, siALPPL2-3, siGFP control and Lipofectamine 2000 treatament . Each chip measures 45,033 genes with three 60 mer probe pairs per target.

Project description:In this study Panc-1 cells and BxPC-3 cells were cultured. The cells were harvested (untreated control 'cont') for RNA extraction, or treated for 3 hours with various exosomes preparations. The exosomes were collected from BJ human foreskin fibroblast culture supernatant without further processing (control exosomes or 'CE'), or engineered to contain scrambled siRNA ('scr') or KRASG12D siRNA ('iExo). Two or three distinct wells of cells were evaluated per treatment condition and assigned a well number (well -1, -2 or 3).

Project description:Little is known about the role of FOXO3 and PDHA1 in PDAC. We performed microarrays to revealed the transcriptional change of a human pancreatic ductal adenocarcinoma (PDCA) cell line (Panc -1) to scr-siRNA, FOXO3-siRNA and PDHA1-siRNA in order to provide insight into the role of PDHA1 and FOXO3 in Panc-1 cells. Panc-1 Human PDCA cells were treated with scr-siRNA, FOXO3-siRNA and PDHA1-siRNA for 48 h and total RNA was extracted by using TRIzol Reagent. The microarray analysis was conducted on the Panc-1 cells expressing by using Agilent Microarray.

Project description:METTL16, a human m6A RNA methyltransferase, contains multiple RNA binding domains and is known to modify U6 and MAT2A RNAs. Usingmutagensis, we generated HEK293 cell lines stabling expressing nutated or WT forms of METTL16 to dtermine the imapct these mutations have on cell processes after removal of endogenous METTL16. We performed bottom-up, untargeted data dependent proteomics analysison all five cell lines to determine the global changes in peptide/protein abdundances; we identified 200-300 statistically significant altered proteinscompared to the wild-type exogenous METTL16 clone.

Project description:PANC-1 cells were treated with siRNA against SUV420H2 to monitor the progressive transition between epithelial/mesenchymal states. Controls were untreated. Genentech internal expressionplot project id is PRJ0007677

Project description:Little is known about the role of FOXO3 and PDHA1 in PDAC. We performed microarrays to revealed the transcriptional change of a human pancreatic ductal adenocarcinoma (PDCA) cell line (Panc -1) to scr-siRNA, FOXO3-siRNA and PDHA1-siRNA in order to provide insight into the role of PDHA1 and FOXO3 in Panc-1 cells.