Chromatin structure of two genomic sites for targeted transgene integration in induced pluripotent stem cells and hematopoietic stem cells. - Wikidata - wikimedia - TriplyDB

Chromatin structure of two genomic sites for targeted transgene integration in induced pluripotent stem cells and hematopoietic stem cells.

Chromatin structure of two genomic sites for targeted transgene integration in induced pluripotent stem cells and hematopoietic stem cells.

http://www.wikidata.org/entity/Q36867065

about

The role of single-cell analyses in understanding cell lineage commitment Quantifying genome-editing outcomes at endogenous loci with SMRT sequencing.Targeted genomic integration of a selectable floxed dual fluorescence reporter in human embryonic stem cells.Comparison of T7E1 and surveyor mismatch cleavage assays to detect mutations triggered by engineered nucleases.Efficient genome editing in hematopoietic stem cells with helper-dependent Ad5/35 vectors expressing site-specific endonucleases under microRNA regulation.Sensitizing ovarian cancer cells to chemotherapy by interfering with pathways that are involved in the formation of cancer stem cells.Efficient Recombinase-Mediated Cassette Exchange in hPSCs to Study the Hepatocyte Lineage Reveals AAVS1 Locus-Mediated Transgene Inhibition A comprehensive approach to zinc-finger recombinase customization enables genomic targeting in human cells Transcription activator like effector (TALE)-directed piggyBac transposition in human cells Histone deacetylase inhibition rescues gene knockout levels achieved with integrase-defective lentiviral vectors encoding zinc-finger nucleases.Novel fluorescent genome editing reporters for monitoring DNA repair pathway utilization at endonuclease-induced breaks.In vitro Inactivation of Latent HSV by Targeted Mutagenesis Using an HSV-specific Homing Endonuclease Evaluation of novel design strategies for developing zinc finger nucleases tools for treating human diseases.Excision of Expanded GAA Repeats Alleviates the Molecular Phenotype of Friedreich's Ataxia.Rhesus iPSC Safe Harbor Gene-Editing Platform for Stable Expression of Transgenes in Differentiated Cells of All Germ Layers.An integration-defective lentivirus-based resource for site-specific targeting of an edited safe-harbour locus in the human genome.Targeted transgene insertion into the AAVS1 locus driven by baculoviral vector-mediated zinc finger nuclease expression in human-induced pluripotent stem cells.CRISPR/Cas9-based genetic correction for recessive dystrophic epidermolysis bullosa.

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Chromatin structure of two genomic sites for targeted transgene integration in induced pluripotent stem cells and hematopoietic stem cells.

http://www.wikidata.org/entity/Q36867065

description

2012 nî lūn-bûn

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Chromatin structure of two gen ...... and hematopoietic stem cells.

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Chromatin structure of two gen ...... and hematopoietic stem cells.

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A Lieber

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D W Russell

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H Wang

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K Bomsztyk

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M Holmes

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R van Rensburg

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Z-Y Li

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Facioscapulohumeral dystrophy: incomplete suppression of a retrotransposed gene

Gene targeting of mutant COL1A2 alleles in mesenchymal stem cells from individuals with osteogenesis imperfecta

Silencing of RNA polymerases II and III-dependent transcription by the KRAB protein domain of KOX1, a Krüppel-type zinc finger factor

A capsid-modified helper-dependent adenovirus vector containing the beta-globin locus control region displays a nonrandom integration pattern and allows stable, erythroid-specific gene expression.

Microplate-based chromatin immunoprecipitation method, Matrix ChIP: a platform to study signaling of complex genomic events

Targeted genome editing in human cells with zinc finger nucleases constructed via modular assembly

Transcript copy number estimation using a mouse whole-genome oligonucleotide microarray.

In vivo genome editing restores haemostasis in a mouse model of haemophilia

An improved zinc-finger nuclease architecture for highly specific genome editing

Gene editing in human stem cells using zinc finger nucleases and integrase-defective lentiviral vector delivery

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10.1038/GT.2012.25

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2

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Daniel G. Miller

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