Project description:Pannexin 1 (Panx1) forms ATP-permeable membrane channels that play roles in the nervous system. The analysis of roles in both standard and pathological conditions benefits from a model organism with rapid development and early onset of behaviors. Such a model was developed by ablating the zebrafish panx1a gene using TALEN technology. Here, RNA-seq data of 6dpf wild type and knock-out zebrafish is reported which have been generated by gene editing of exon 4 of the panx1a gene.
Project description:the gene expression profiling results provide important information for the genes regulated by crosstalk between Shp2 and Pten mediated signal pathways Total RNA was extracted from CD71mid Ter119high erythroblasts isolated from the bone marrow of wide type, Shp2 knock-out, Pten knock-out and double knock-out mice
Project description:Goal: elucidate transcriptomic changes upon knock-out of components of the FERRY complex Methods: RNA extraction from HeLa wildtype and fy-1, fy-2, fy-4 and fy-5 knock-out celllines and subsequent RNASeq Results: We observed differences in the transcriptome of all four knock-out cell lines Conclusions: In the Analysis we focused on genes that were differentially expressed in all four KO cell lines or upon KO of fy-1 and fy-2.
Project description:Pannexin 1 (Panx1) forms ATP-permeable membrane channels that play roles in the nervous system. The analysis of roles in both standard and pathological conditions benefits from a model organism with rapid development and early onset of behaviors. Such a model was developed by ablating the zebrafish panx1a gene using TALEN technology. Here, RNA-seq data of 6dpf wild type and knock-out zebrafish is reported which have been generated by gene editing of exon 4 of the panx1a gene.
Project description:To confirm the lack of expression of most miRNAs in DICER1 knock-out cell lines, we performed miRNA microarray analysis. The purpose of this study is to classify DICER1-dependent Small RNA and independent Small RNA using DICER1 cells using deficient cell lines, and to identify novel small RNA and small RNA processing mechanisms.