Showing 25 of 418 results
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- MPRA in SK-N-SHHomo sapiens SK-N-SH, 24 hours post-nucleic acid delivery time genetically modified (episome) using transient transfectionLab: Ryan Tewhey, JAXProject: ENCODE
- MPRA in HepG2Homo sapiens HepG2, 24 hours post-nucleic acid delivery time genetically modified (episome) using transient transfectionLab: Ryan Tewhey, JAXProject: ENCODE
- MPRA in K562Homo sapiens K562, 24 hours post-nucleic acid delivery time genetically modified (episome) using transient transfectionLab: Ryan Tewhey, JAXProject: ENCODE
- MPRA in HepG2Homo sapiens HepG2, 24 hours post-nucleic acid delivery time genetically modified (episome) using transient transfectionLab: Ryan Tewhey, JAXProject: ENCODE
- MPRA in K562Homo sapiens K562, 24 hours post-nucleic acid delivery time genetically modified (episome) using transient transfectionLab: Ryan Tewhey, JAXProject: ENCODE
- MPRA in K562Homo sapiens K562, 24 hours post-nucleic acid delivery time genetically modified (episome) using transient transfectionLab: Ryan Tewhey, JAXProject: ENCODE
- STARR-seq in glutamatergic neuronHomo sapiens glutamatergic neuron, 7 days post differentiation genetically modified (episome) using transient transfection, (insertion) using TALEN inserting M. musculus Neurog2Lab: Kevin White, UChicagoProject: ENCODE
- CRISPR cutting CRISPR screen of GATA1 locus in K562CRISPR screen targeting candidate CREs following survival
- CRISPR cutting CRISPR screen of GATA1 locus in K562CRISPR screen targeting candidate CREs following survival
- CRISPR cutting CRISPR screen of GATA1 locus in K562Control for CRISPR screen targeting candidate CREs
- CRISPR cutting CRISPR screen of GATA1 locus in K562Control for CRISPR screen targeting candidate CREs
- MPRA in K562Homo sapiens K562, 24 hours post-nucleic acid delivery time genetically modified (episome) using transient transfectionElements selection method: sequence variantsLab: Ryan Tewhey, JAXProject: ENCODE
- CRISPRi proliferation screen in K562Functional characterization experiment for CRISPRi/dCas9-RYBP sparse-tiling proliferation screens at ~7500 cCREs around ~450 essential genes in K562Elements selection method: DNase hypersensitive sitesTiling modality: sparse peakLab: Will Greenleaf, StanfordProject: ENCODE
- CRISPRi proliferation screen in K562Functional characterization experiment for CRISPRi/dCas9-KRAB-WSR7EEE sparse-tiling proliferation screens at ~7500 cCREs around ~450 essential genes in K562Elements selection method: DNase hypersensitive sitesTiling modality: sparse peakLab: Will Greenleaf, StanfordProject: ENCODE
- CRISPRi proliferation screen in K562Functional characterization experiment for CRISPRi/dCas9-RYBP sparse-tiling proliferation screens at ~7500 cCREs around ~450 essential genes in K562Elements selection method: DNase hypersensitive sitesTiling modality: sparse peakLab: Will Greenleaf, StanfordProject: ENCODE
- CRISPRi proliferation screen in K562Functional characterization experiment for CRISPRi/dCas9-KRAB-WSR7EEE sparse-tiling proliferation screens at ~7500 cCREs around ~450 essential genes in K562Elements selection method: DNase hypersensitive sitesTiling modality: sparse peakLab: Will Greenleaf, StanfordProject: ENCODE
- CRISPRi proliferation screen in K562Functional characterization experiment for CRISPRi/dCas9-KRAB-MGA1-MGA2 sparse-tiling proliferation screens at ~7500 cCREs around ~450 essential genes in K562Elements selection method: DNase hypersensitive sitesTiling modality: sparse peakLab: Will Greenleaf, StanfordProject: ENCODE
- CRISPRi proliferation screen in K562Functional characterization experiment for dCas9-ZNF705-KRAB/CRISPRi tiling proliferation screens at a subset of cCREs around essential genesElements selection method: DNase hypersensitive sitesTiling modality: peak tilingLab: Will Greenleaf, StanfordProject: ENCODE
- CRISPRi proliferation screen in K562Functional characterization experiment for dCas9-RYBP/CRISPRi tiling proliferation screens at a subset of cCREs around essential genesElements selection method: DNase hypersensitive sitesTiling modality: peak tilingLab: Will Greenleaf, StanfordProject: ENCODE
- CRISPRi proliferation screen in K562Functional characterization experiment for dCas9-KRAB-WSR7EEE/CRISPRi tiling proliferation screens at a subset of cCREs around essential genesElements selection method: DNase hypersensitive sitesTiling modality: peak tilingLab: Will Greenleaf, StanfordProject: ENCODE
- CRISPRi proliferation screen in K562Functional characterization experiment for dCas9-KRAB/CRISPRi tiling proliferation screens at a subset of cCREs around essential genesElements selection method: DNase hypersensitive sitesTiling modality: peak tilingLab: Will Greenleaf, StanfordProject: ENCODE
- CRISPR dCas proliferation screen in K562Functional characterization experiment for dCas9 tiling proliferation screens at a subset of cCREs around essential genesElements selection method: DNase hypersensitive sitesTiling modality: peak tilingLab: Will Greenleaf, StanfordProject: ENCODE
- CRISPR cutting proliferation screen of CTCF locus in K562Functional characterization experiment for Cas9/CRISPR fine-mapping proliferation screens at hit and non-hit CTCF motifs in loop anchors (and their partner anchors) from the CTCF growth screenElements selection method: TF binding sitesLoci: CTCFTiling modality: peak tilingLab: Will Greenleaf, StanfordProject: ENCODE
- CRISPR cutting proliferation screen of CTCF locus in K562Functional characterization experiment for Cas9/CRISPR fine-mapping proliferation screens at hit and non-hit CTCF motifs in loop anchors (and their partner anchors) from the CTCF growth screenElements selection method: TF binding sitesLoci: CTCFTiling modality: peak tilingLab: Will Greenleaf, StanfordProject: ENCODE
- CRISPR cutting proliferation screen of CTCF locus in K562Functional characterization experiment for tiling, Cas9/CRISPRk proliferation screens at CTCF motifs in loop anchorsElements selection method: TF binding sitesLoci: CTCFTiling modality: sparse peakLab: Will Greenleaf, StanfordProject: ENCODE