Project description:The objectives of this study are to understand the regulatory roles of MAZ in biological processes using the NGS-deriveed ChIP-seq, DNA-MEDIP-seq and RNA-seq data in HAP1 control cells and MAZ knockout cells. Our comparative analysis of these data generated from the HAP1 control and MAZ KO cells shows that MAZ is required for recruiting STAT1 to its target sites by reshaping epigenetic landscape in the human genome, thereby mediating antiviral response cells. Chromatin immunoprecipitation DNA-sequencing (ChIP-seq) for STAT1 and H3K4me3, H3K27Ac in HAP1 cells.

Project description:The objectives of this study are to understand the regulatory roles of MAZ in biological processes using the NGS-deriveed ChIP-seq, DNA-MEDIP-seq and RNA-seq data in HAP1 control cells and MAZ knockout cells. Our comparative analysis of these data generated from the HAP1 control and MAZ KO cells shows that MAZ is required for recruiting STAT1 to its target sites by reshaping epigenetic landscape in the human genome, thereby mediating antiviral response cells. MEDIP-seq was performed using the MagMeDIP-seq Package from Diagenode in HAP1 control and HAP1 MAZ knockout cells following manufacturer's instructions.

Project description:The objectives of this study are to understand the regulatory roles of MAZ in biological processes using the NGS-deriveed ChIP-seq, DNA-MEDIP-seq and RNA-seq data in HAP1 control cells and MAZ knockout cells. Our comparative analysis of these data generated from the HAP1 control and MAZ KO cells shows that MAZ is required for recruiting STAT1 to its target sites by reshaping epigenetic landscape in the human genome, thereby mediating antiviral response cells.

Project description:Activating Transcription Factor 4 (ATF4) is a transcription factor induced by the integrated stress response (ISR). This experiment is a genome-wide occupancy profiling of ATF4 in human HAP1 cells. HAP1 is a near-haploid human cell line that was derived from KBM-7 cells isolated from a patient with Chronic Myelogenous Leukemia. We induced ATF4 expression by mimicking amino acid starvation with the drug histidinol. We identified peaks of ATF4 binding using three independent antibodies. Examination of ATF4 binding in HAP1 cells treated with 2 mM histidinol for 24 hours.

Project description:Activating Transcription Factor 4 (ATF4) is a transcription factor induced by the integrated stress response (ISR). This experiment is a genome-wide profiling of ATF4-dependent RNA expression in human HAP-1 cells. HAP-1 is a near-haploid human cell line that was derived from KBM-7 cells isolated from a patient with Chronic Myelogenous Leukemia. We analyzed WT and ATF4 KO cells. We induced ATF4 expression by mimicking amino acid starvation with the drug histidinol. RNA expression profiles were generated for WT and ATF4 KO HAP1 cells. ATF4 genes were mutated using Cas9 genome editing technology. Amino acid starvation was mimicked by treating WT and ATF4 KO cells with 2 mM histidinol for 24 hours, which increases ATF4 expression.

Project description:We performed a genome-scale screen for suppressors of interferon stimulated gene (ISG) expression in human haploid cells (HAP1). Ubiquitin specific peptidase 14 (USP14) was a significant hit. In order to validate USP14 as a regulator of ISG expression, we created knockouts of USP14 in HAP1 cells using CRISPR-Cas9 and performed RNA-seq on coding RNA from USP14 KO and WT cells. This data was used to determine if ISGs were upregulated in USP14 KO HAP1 cells.

Project description:We performed a genome-scale screen for suppressors of interferon stimulated gene (ISG) expression in human haploid cells (HAP1). DEAD-box helicase 6 (DDX6) was a significant hit. In order to validate DDX6 as a regulator of ISG expression, we created knockouts of DDX6 in HAP1 cells using CRISPR-Cas9 and performed RNA-seq on coding RNA from DDX6 KO and WT cells. This data was used to determine if ISGs were upregulated in DDX6 KO HAP1 cells.

Project description:In this study, we aimed at determining RNA interactors of L1TD1 RNPs. To achieve this, DNMT1 KO and DNMT1 L1TD1 DKO HAP1 cells were generated by Crispr/Cas9 gene editing tool and L1TD1 RIP was performed by using these cell lines. Our study reveals a comprehensive analysis of differentially enriched transcripts in L1TD1 containing RNPs.

Project description:Activating Transcription Factor 4 (ATF4) is a transcription factor induced by the integrated stress response (ISR). This experiment is a genome-wide occupancy profiling of ATF4 in human HAP1 cells. HAP1 is a near-haploid human cell line that was derived from KBM-7 cells isolated from a patient with Chronic Myelogenous Leukemia. We induced ATF4 expression by mimicking amino acid starvation with the drug histidinol. We identified peaks of ATF4 binding using three independent antibodies.

Project description:The aim of this study is to analyze the change in genome wide expression levels in HAP1 cells upon loss of SMARCB1, SMARCA4 or both these genes together. The SMARCB1 and SMARCA4 genes were the hits from a genome wide screen involving genetrap mutagenesis to find new players that are involved in sensitivity to Doxorubicin (Dox). It was found that loss of SMARCB1 and SMARCA4 genes impart resistance in HAP1 cells to Dox. To validate this, the genes were knocked out in HAP1 cells with CRISPR-Cas9 technology. Gene expression levels in SMARCB1 null, SMARCA4 null and SMARCB1-SMARCA4 double null cells were compared to wildtype HAP1 cells using RNAseq. From these experiments it was found that SMARCB1 loss caused several fold increase in ABCB1 gene levels. ABCB1 is an efflux pump in cells responsible for flushing out many small-molecule drugs. Further analysis of this gene confirmed that ABCB1 was the main factor responsible for Dox resistance upon SMARCB1 loss.