Project description:Ascl1 is a master transcription factor for neuroendocrine differentiation. RNA-sequencing analysis on CMT64 cells transduced with Ascl1 revealed a subset of genes possibly regulated by Ascl1.
Project description:ASCL1 is a master transcription factor for neuroendocrine differentiation. RNA-sequencing analysis on VMRC-LCD cells following ASCL1 knockdown revealed a subset of genes possibly regulated by ASCL1.
Project description:Molecular subtypes of SCLC have been defined by the expression status of ASCL1, NEUROD1, YAP1, and POU2F3 transcription regulators. ASCL1 knockdown resulted in decreased and increased expression of miR-375 and miR-455-3p, respectively. Analyses of publicly available transcriptome datasets suggested that miR-375 induced by ASCL1 is involved in YAP1 suppression whereas miR-455-3p is higher in non-neuroendocrine SCLC cells lacking ASCL1 expression.
Project description:ChIP-seq analysis was performed in an neuroblastoma cell line to analyze DNA bindings of H3K27ac in GI-MEN DOX-ASCL1 cells and ASCL1-HA in GI-MEN DOX-ASCL1-tag-HA cells.
Project description:Molecular subtypes of SCLC have been defined by the expression status of ASCL1, NEUROD1, YAP1, and POU2F3 transcription regulators. ASCL1 knockdown resulted in decreased and increased expression of miR-375 and miR-455-3p, respectively. Analyses of publicly available transcriptome datasets suggested that miR-375 induced by ASCL1 is involved in YAP1 suppression whereas miR-455-3p is higher in non-neuroendocrine SCLC cells lacking ASCL1 expression.
Project description:To identify the downstream targets of transcription factor Ascl1, transcriptional profiling of rat glial cell line, CG4 cell, transfected with either Ascl1 or mock control was performed. Comparison was performed between Ascl1 overexpressing CG4 cell and mock control transduced cell on 3D-Gene rat mRNA oligo 12k chip. Biological replication was not prepared. The results were confirmed by real time RT-PCR in several genes.
Project description:H3K27ac HiChIP analysis was performed in GI-MEN DOX-ASCL1 cells to analyze active chromatin-chromatin interactions in GI-MEN DOX-ASCL1 cells.
Project description:Hut78 cell line was used as Sezary syndrome cell model. Comparative transcriptome profiles of SATB1 transduced Hut78 cells (Hut78-SATB1) relative to empty MIG vector transduced control Hut78 cells (Hut78-MIG) were analyzed. The primary goal is to establish a list of genes with differential expression between SATB1 transduced Hut78 cells and control Hut78 cells to identify the gene expression regulation effect of SATB1 expression in Sezary cells.