Project description:Analysis of gene expression in human CAFs with control (shCtrl) or shRNA against NNMT (shNNMT) expression or normal fibroblasts expressing control (Ctrl) or NNMT overexpression (NNMT) constructs. Cells were infected with lentivirus to express the indicated shRNA construct. Hypothesis is that knockdown of NNMT will affect expression of genes via regulation of histone methylation status.
Project description:Genome-wide DNA methylation profiling in response to overexpression or knockdown of NNMT in stromal cells. The Illumina MethylationEPIC array was used to profiled genome-wide methylation of normal fibroblasts expressing a control construct or NNMT overexpression construt and cancer-associated fibroblasts (CAFs) expressing an shCtrl or shNNMT construct. Two biological replicates of each experimental group were profiled following growth in 10 micromolar methionine growth media for 21 days.
Project description:Analysis of gene expression in human CAFs with control (shCtrl) or shRNA against NNMT (shNNMT) expression. Cells were infected with lentivirus to express the indicated shRNA construct. Hypothesis is that knockdown of NNMT will affect expression of genes via regulation of histone methylation status.
Project description:Proteomes of Mycoplasma gallisepticum strains with overexpression and knockdown of WhiA transcription factor. The overexpression was introduced on a transposon vector carrying M. gallisepticum whiA gene with strong constitutive promoter and strong SD sequence. The knockdown was made by CRISPRi. dCas9 protein and sgRNA against whiA gene were introduced on a transposon vector.
Project description:SRPK2 was identified as a presynaptic protein kinase involved in the regulation of neurotransmitter release. The phosphoproteome of mouse primary neurons was screened, under the conditions of SRPK2 overexpression and SRPK2 knockdown, to identify candidate substrates of SRPK2.
Project description:miR-10b precusor or miR-10b inhibitor was used to overexpress or knockdown miR-10b expression in PANC-1 cells. Microarray analysis was used to characterize the changes in gene expression profiles of PANC-1 upon miR-10b overexpression or knockdown