Showing 25 of 185 results
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- CRISPRi CRISPR screen in WTC11Homo sapiens WTC11, 14 days post-nucleic acid delivery time genetically modified (insertion) using transduction, using CRISPRi (pgRNA)Lab: Bing Ren, UCSDProject: ENCODE
- proliferation CRISPR screen in glutamatergic neuronHomo sapiens glutamatergic neuron, 14 days post differentiation genetically modified (CRISPRi) using CRISPR, (insertion) using CRISPR, (insertion) using TALEN inserting M. musculus Neurog2Lab: Yin Shen, UCSFProject: ENCODE
- proliferation CRISPR screen in neural progenitor cellHomo sapiens neural progenitor cell, 3 days post differentiation genetically modified (CRISPRi) using CRISPR, (insertion) using CRISPR, (insertion) using TALEN inserting M. musculus Neurog2Lab: Yin Shen, UCSFProject: ENCODE
- proliferation CRISPR screen in WTC11Homo sapiens WTC11, 0 days post differentiation genetically modified (CRISPRi) using CRISPR, (insertion) using CRISPR, (insertion) using TALEN inserting M. musculus Neurog2Lab: Yin Shen, UCSFProject: ENCODE
- STARR-seq in K562Homo sapiens K562 genetically modified (episome) using transient transfectionElements selection method: accessible genome regionsLab: Tim Reddy, DukeProject: 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
- CRISPRi Flow-FISH screen in K562 with HCR-FlowFISH readout of MYBHomo sapiens K562 genetically modified (insertion) using transduction, using CRISPRi (sgRNA) for multiple lociTiling modality: full tilingLab: Pardis Sabeti, BroadProject: ENCODE
- CRISPRi Flow-FISH screen in K562 with HCR-FlowFISH readout of MYBHomo sapiens K562 genetically modified (insertion) using transduction, using CRISPRi (sgRNA) for multiple lociTiling modality: full tilingLab: Pardis Sabeti, BroadProject: ENCODE
- CRISPRi Flow-FISH screen in K562 with HCR-FlowFISH readout of HBS1LHomo sapiens K562 genetically modified (insertion) using transduction, using CRISPRi (sgRNA) for multiple lociTiling modality: full tilingLab: Pardis Sabeti, BroadProject: ENCODE
- CRISPRi Flow-FISH screen in K562 with HCR-FlowFISH readout of HBS1LHomo sapiens K562 genetically modified (insertion) using transduction, using CRISPRi (sgRNA) for multiple lociTiling modality: full tilingLab: Pardis Sabeti, BroadProject: ENCODE
- CRISPRi Flow-FISH screen in K562 with HCR-FlowFISH readout of HBE1Homo sapiens K562 genetically modified (insertion) using transduction, using CRISPRi (sgRNA) for multiple lociTiling modality: full tilingLab: Pardis Sabeti, BroadProject: ENCODE
- CRISPRi Flow-FISH screen in K562 with HCR-FlowFISH readout of HBE1Homo sapiens K562 genetically modified (insertion) using transduction, using CRISPRi (sgRNA) for multiple lociTiling modality: full tilingLab: Pardis Sabeti, BroadProject: ENCODE
- CRISPRi Flow-FISH screen in K562 with HCR-FlowFISH readout of HBG2Homo sapiens K562 genetically modified (insertion) using transduction, using CRISPRi (sgRNA) for multiple lociTiling modality: full tilingLab: Pardis Sabeti, BroadProject: ENCODE
- CRISPRi Flow-FISH screen in K562 with HCR-FlowFISH readout of HBG2Homo sapiens K562 genetically modified (insertion) using transduction, using CRISPRi (sgRNA) for multiple lociTiling modality: full tilingLab: Pardis Sabeti, BroadProject: ENCODE
- CRISPRi Flow-FISH screen in K562 with HCR-FlowFISH readout of HBG1Homo sapiens K562 genetically modified (insertion) using transduction, using CRISPRi (sgRNA) for multiple lociTiling modality: full tilingLab: Pardis Sabeti, BroadProject: ENCODE
- CRISPRi Flow-FISH screen in K562 with HCR-FlowFISH readout of HBG1Homo sapiens K562 genetically modified (insertion) using transduction, using CRISPRi (sgRNA) for multiple lociTiling modality: full tilingLab: Pardis Sabeti, BroadProject: ENCODE
- STARR-seq in K562Homo sapiens K562 genetically modified (episome) using transient transfectionElements selection method: accessible genome regionsLab: Tim Reddy, DukeProject: ENCODE
- STARR-seq in activated T-helper 17 cellMus musculus strain C57BL/6NJ activated T-helper 17 cell genetically modified (episome) using transient transfectionElements selection method: accessible genome regionsLab: Tim Reddy, DukeProject: ENCODE
- STARR-seq in glutamatergic neuronHomo sapiens glutamatergic neuron, 14 days post differentiation genetically modified (episome) using transient transfection, (insertion) using TALEN inserting M. musculus Neurog2 originated from WTC11Lab: Kevin White, UChicagoProject: ENCODE
- STARR-seq in WTC11Homo sapiens WTC11 genetically modified (episome) using transient transfection, (insertion) using TALEN inserting M. musculus Neurog2Lab: Kevin White, UChicagoProject: ENCODE
- STARR-seq in activated CD4-positive, CD25-positive, alpha-beta regulatory T cellMus musculus strain C57BL/6NJ activated CD4-positive, CD25-positive, alpha-beta regulatory T cell genetically modified (episome) using transient transfectionElements selection method: accessible genome regionsLab: Tim Reddy, DukeProject: ENCODE
- STARR-seq in activated T-helper 17 cellMus musculus strain C57BL/6NJ activated T-helper 17 cell genetically modified (episome) using transient transfectionElements selection method: accessible genome regionsLab: Tim Reddy, DukeProject: ENCODE
- STARR-seq in activated T-helper 2 cellMus musculus strain C57BL/6NJ activated T-helper 2 cell genetically modified (episome) using transient transfectionElements selection method: accessible genome regionsLab: Tim Reddy, DukeProject: ENCODE
- STARR-seq in activated T-helper 1 cellMus musculus strain C57BL/6NJ activated T-helper 1 cell genetically modified (episome) using transient transfectionElements selection method: accessible genome regionsLab: Tim Reddy, DukeProject: ENCODE
- STARR-seq in activated naive CD4-positive, alpha-beta T cellMus musculus strain C57BL/6NJ activated naive CD4-positive, alpha-beta T cell genetically modified (episome) using transient transfectionElements selection method: accessible genome regionsLab: Tim Reddy, DukeProject: ENCODE