Showing 24 of 24 results
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- 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
- 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
- MPRA of TERT locus in glial cellElements cloned into the pGL4.11 vector upstream of the reporter, with barcode located in the 3' UTR of the reporter. Elementas are generated by error-prone PCR of the TERT promoter.
- MPRA of TERT locus in glial cellElements cloned into the pGL4.11 vector upstream of the reporter, with barcode located in the 3' UTR of the reporter. Elementas are generated by error-prone PCR of the TERT promoter.
- MPRA of TERT locus in glial cellElements cloned into the pGL4.11 vector upstream of the reporter, with barcode located in the 3' UTR of the reporter. Elementas are generated by error-prone PCR of the TERT promoter.
- 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 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
- STARR-seq in pancreas organoidHomo sapiens organoid with pancreatic ductal adenocarcinoma; pancreas genetically modified (episome) using transient transfectionElements selection method: accessible genome regions, histone modificationsLab: Kevin White, UChicagoProject: ENCODE
- STARR-seq in pancreas organoidHomo sapiens organoid with pancreatic ductal adenocarcinoma; pancreas genetically modified (episome) using transient transfectionElements selection method: accessible genome regions, histone modifications, DNase hypersensitive sitesLab: Kevin White, UChicagoProject: ENCODE
- STARR-seq in pancreas organoidHomo sapiens organoid with pancreatic ductal adenocarcinoma; pancreas genetically modified (episome) using transient transfectionElements selection method: accessible genome regions, histone modificationsLab: Kevin White, UChicagoProject: ENCODE
- STARR-seq in pancreas organoidHomo sapiens organoid with pancreatic ductal adenocarcinoma; pancreas genetically modified (episome) using transient transfectionElements selection method: accessible genome regions, histone modifications, DNase hypersensitive sitesLab: Kevin White, UChicagoProject: ENCODE
- MPRA in mammary epithelial cellHomo sapiens mammary epithelial cell female genetically modified (episome) using transient transfectionElements selection method: sequence variantsLab: Ryan Tewhey, JAXProject: ENCODE
- CRISPR cutting FACS screen of FMR1 locus in glutamatergic neuron with endogenous protein Sort-seq readout of FMR1Homo sapiens glutamatergic neuron genetically modified (insertion) using CRISPR (pgRNA) targeting H. sapiens FMR1, (insertion) using transduction, using CRISPR cutting (pgRNA) for FMR1 locus
- CRISPR cutting FACS screen of APP locus in glutamatergic neuron with endogenous protein Sort-seq readout of APPHomo sapiens glutamatergic neuron genetically modified (insertion) using CRISPR (pgRNA) targeting H. sapiens APP, (insertion) using transduction, using CRISPR cutting (pgRNA) for APP locus
- CRISPR cutting FACS screen of SIN3A locus in glutamatergic neuron with endogenous protein Sort-seq readout of SIN3AHomo sapiens glutamatergic neuron genetically modified (insertion) using CRISPR (pgRNA) targeting H. sapiens SIN3A, (insertion) using transduction, using CRISPR cutting (pgRNA) for SIN3A locus
- CRISPR cutting FACS screen of MECP2 locus in glutamatergic neuron with endogenous protein Sort-seq readout of MECP2Homo sapiens glutamatergic neuron genetically modified (insertion) using CRISPR (pgRNA) targeting H. sapiens MECP2, (insertion) using transduction, using CRISPR cutting (pgRNA) for MECP2 locus
- CRISPR cutting FACS screen of APP locus in glutamatergic neuron with endogenous protein Sort-seq readout of APPHomo sapiens glutamatergic neuron genetically modified (insertion) using CRISPR (pgRNA) targeting H. sapiens APP, (insertion) using transduction, using CRISPR cutting (pgRNA) for APP locus
- CRISPR cutting FACS screen of SIN3A locus in glutamatergic neuron with endogenous protein Sort-seq readout of SIN3AHomo sapiens glutamatergic neuron genetically modified (insertion) using CRISPR (pgRNA) targeting H. sapiens SIN3A, (insertion) using transduction, using CRISPR cutting (pgRNA) for SIN3A locus