Project description:The purpose of the study is to understand the impacts of cohesin knockdown on epidermal gene expression. Primary human keratinocytes were knocked down for SMC1A, SMC3, or control to determine its genome-wide gene expression profile. Global gene expression profiling using U133 plus 2.0 arrays were used to deteremine the genes perturbed by knockdown of SMC1A or SMC3.
Project description:We performed RNA-sequencing in c-Kit+ cells that were infected with retroviruses expressing shRNAs for Renilla, Rad21, Smc1a, Smc3 or Stag2. These cells were grown in methylcellulose (M3434) for either one passage (P1) or replated for five passages (P5). RNA-sequencing control (Ren) and cohesin (Rad21, Smc1a, Smc3 and Stag2) knockdown cells.
Project description:GSM1056261-GSM1056272: NFX1-123 has been shown to associate with a number of RNA processing proteins, such as cytoplasmic poly(A) binding proteins (PABPC), to affect mRNA stability and translational efficiency of target genes. The high-risk human papillomavirus type 16E6 (HPV 16E6) induces telomerase activity by activation of hTERT, the catalytic subunit of telomerase. NFX1-123 can bind to hTERT mRNA and increase its stability in HPV 16E6 expressing keratinocytes (16E6 NHKs). Little is known regarding what other transcripts, and downstream signaling pathways, may be dependent on NFX1-123. In order to determine additional cellular transcripts affected by HPV 16E6 and NFX1-123, we assessed global gene expression changes in cells in which NFX1-123 was overexpressed or knocked down by short hairpin RNAs (shRNA) when compared to an isogenic scramble control, in three independently derived 16E6 NHKs GSM1212499-GSM1212510: NFX1-123 has been shown to associate with a number of RNA processing proteins, such as cytoplasmic poly(A) binding proteins (PABPC), to affect mRNA stability and translational efficiency of target genes. The high-risk human papillomavirus type 16E6 (HPV 16E6) induces telomerase activity by activation of hTERT, the catalytic subunit of telomerase. NFX1-123 can bind to hTERT mRNA and increase its stability in HPV 16E6 expressing keratinocytes (16E6 NHKs). Little is known regarding what other transcripts, and downstream signaling pathways, may be dependent on NFX1-123. In order to determine additional cellular transcripts affected solely by NFX1-123, we assessed global gene expression changes in cells in which NFX1-123 was overexpressed or knocked down by short hairpin RNAs (shRNA) when compared to an isogenic scramble control, in three independently derived NHKs. GSM1056261-GSM1056272: Three independent 16E6 expressing NHK cell lines were expanded and transduced with: short hairpin RNA (sh1) that knocked down NFX1-123 by 20%, short hairpin RNA (sh3) that knocked down NFX1-123 by 80%; a non-targeting isogenic shRNA scramble control; or a NFX1-123 overexpression construct with a FLAG-tag (FNFX1-123WT) that increased its RNA expression on average 3.5-fold. In total, twelve samples were used for the microarray, derived from the three initial NHK cell lines. GSM1212499-GSM1212510: Three independent NHK cell lines were expanded and transduced with: short hairpin RNA (sh1) that knocked down NFX1-123 by 40%, short hairpin RNA (sh3) that knocked down NFX1-123 by 83%; a non-targeting isogenic shRNA scramble control; or a NFX1-123 overexpression construct with a FLAG-tag (FNFX1-123WT) that increased its RNA expression on average 14.0-fold. In total, twelve samples were used for the microarray, derived from the three initial NHK cell lines.
Project description:HLF was knocked down in a primary human triple mutated AML sample using shRNA against human HLF versus shRNA against luciferase (shLuc) as control to determine gene expression changes 72 hours after lentiviral transduction.
Project description:We performed RNA-sequencing in LSK cells (Lin(neg)/c-Kit(+)/Sca-1(+)) from shRNA mice carrying an shRNA for Renilla, Smc1a or Stag2. RNA-sequencing control (Renilla) and cohesin (Smc1a and Stag2) knockdown cells.
Project description:To identify the downstream target genes of PUS1 on breast cancer cells, we established MDA-MB-231 cell lines in which PUS1 has been knocked down by shRNA. We then performed gene expression profiling analysis using data obtained from RNA-seq of PUS1 knockdownMDA-MB-231 cells as well as negative control shRNA group
