Project description:Purpose: Aim of the study is to determine how many of the dysregulated genes in the RNAseq are direct targets of (P1) HNF4α2 and (P2) HNF4α8 and examine HNF4α and TCF4 binding in vivo. We performed ChIPseq on TCF4 in the absense or presence of DOX in the Tet-On inducible HCT116 HNF4α2 and HNF4α8 lines, and ChIPseq for HNF4α (a445 Ab) in the presence of DOX. Methods: HNF4α2 and HNF4α8 lines were induced with 0.3 μg/mL DOX for 24 hours. Samples were generated by deep sequencing, using the NEXTflex ChIPseq. Result: There were more HNF4α2 peaks than HNF4α8 peaks, with some common peaks bound by HNF4α2 and HNF4α8. Binding patterns were observed between HNF4α and TCF4. Conclusion: HNF4α2 can displace TCF4 better than HNF4α8 on AP-1 bound sites. Tet-On inducible HCT116 cell (HNF4α2 and HNF4α8) lines, treated with (0.3 μg/mL) or without DOX for 24 hours, were 50bp single-end sequenced using Illumina-compatible-NEXTflex ChIP kit (Bioo Scientific).
Project description:We performed single-cell RNA-Seq to determine the effects of CENP-A overexpression and p53 status on cell fate over time. We established clonal MCF10-2A TetOn-CENPA-FLAG-HA cell lines where CENP-A can be reversibly induced by Doxycycline (Dox) treatment. We compared prolonged, continuous CENP-A overexpression (chronic induction) to acute CENP-A overexpression, as well as non-overexpressing conditions, in p53 wild-type and defective cells. We grew MCF10-2A TetOn-CENPA-FLAG-HA cells expressing either an empty control vector (p53-WT) or dominant-negative p53 (p53-DN) without Dox or with continuous exposure to Dox (10ng/ml, ++, chronic) for 69 days in parallel. Cells in the no Dox condition were split into two dishes at day 67 and Dox was added to one set on day 68 for 24h of CENP-A overexpression (10ng/ml, +, acute) while the other remained without Dox (-, control). We prepared samples in singlet according to the 10x Genomics Sample Preparation Demonstrated Protocol. In brief, we harvested cells by trypsinization, resuspended in typical media and mixed thoroughly by pipette, passed cells through a 40µm cell strainer, and counted cells by Beckman Automated Cell Counter. We resuspended cells in 1x PBS + 0.04% BSA, mixed, centrifuged gently, aspired supernatant and repeated wash two times. We passed cells through another cell strainer (40µm), counted again and diluted to a final concentration between 700 and 1200 cells/µl. We then proceeded directly to GEM generation and barcoding at the NGS platform, Institut Curie, using the Single-cell 3’ Reagent Kits v2 protocol with a targeted cell recovery of 2000 cells per sample, followed by post GEM-RT cleanup and cDNA amplification, then 3’ Gene Expression Library Construction, according to the manufacturer’s instructions. Sequencing was performed by the NGS platform with a NovaSeq 6000 sequencer.
Project description:We tested if the changes in cell invasion and migration observed after MCM7 depletion manifested in an altered gene expression profile. For this purpose, we performed RNAseq analysis after MCM7 knock-down in A549 and A375 cells expressing a Dox-inducible shMCM7. As controls, we used shMCM7 cells that had not been induced with Dox, as well as the parental A549 and A375 cell lines grown in the presence or absence of Dox. To exclude possible effects caused by changes in cell cycle progression, all RNA samples were extracted from double thymidine synchronized cell populations, in which >98% cells were arrested at the G1/S phase boundary.
Project description:Assess the on- and off-target effects of dox-inducible CRISPR/Cas9 and CRISPRi constructs in a human iPS cell line. Transcript quantification of 3 cell lines, each plus or minus doxycycline and with or without specific single guide RNAs (sgRNAs), with 2 biological replicates each.
Project description:Geminin is a small nucleoprotein that neuralizes ectoderm in the Xenopus embryo. Geminin promotes neural fate acquisition of mouse embryonic stem cells: Geminin knockdown during neural fate acquisition decreased expression of neural precursor cell markers (Pax6, Sox1), while increasing expression of Pitx2, Lefty1 and Cited2, genes involved in formation of the mouse node. Here we differentiated mouse embryonic stem cells into embryoid bodies to study Geminin's ability to repress primitive streak mesendoderm fate acquisition. We used microarrays to define the sets of genes that are regulated by Geminin during cell fate acquisition in embryoid bodies, using Dox-inducible Geminin knockdown or overexpression mouse embryonic stem cell lines. ES cell lines for Geminin over-expression (GemOE) were treated without or with Dox from day 3 to day 5 of EB differentiation and were collected on days 4 or 5 for microarray analysis. Gem knockdown (KD) ES cell lines were treated without or with Dox from day 0 to day 4 of EB differentiation and were collected on day 4 for microarray analysis.
Project description:This dataset contains single cell RNAseq of human iPSCs undergoing cytokine-mediated differentiation alongside targeted CRISPR-mediated endogenous gene activation. For this experiment we sequenced single cells at day 10 of the differentiation protocol, when the cells undergo the endothelial-to-hematopoietic transition described in the paper Petazzi et al, BiorXiv DOI 10.1101/2022.10.04.510611 The dataset contains four libraries: (1) iSAM line infected with non-targeting guide RNA, (2) iSAM line infected with non-targeting guide RNA treated with Dox, (3) iSAM line infected with targeting guide RNAs library, (4) iSAM line infected with targeting guide RNAs library treated with Dox
Project description:We report the application of single-molecule-based sequencing technology for high-throughput profiling of HePG2i cell line with and without DOX induced GATA4 expression by obtaining over four billion bases of sequence from chromatin immunoprecipitated DNA.
