Highly efficient scarless knock-in of reporter genes into human and mouse pluripotent stem cells via transient antibiotic selection

Highly efficient scarless knock-in of reporter genes into human and mouse pluripotent stem cells via transient antibiotic selection

Pluripotent stem cells (PSCs) edited with genetic reporters are useful tools for differentiation analysis and for isolation of specific cell populations for study. Reporter integration into the genome is now commonly achieved by targeted DNA nuclease-enhanced homology directed repair (HDR). However,...

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Veröffentlicht in:PloS one 2018-11, Vol.13 (11), p.e0201683-e0201683
Hauptverfasser: Sluch, Valentin M, Chamling, Xitiz, Wenger, Claire, Duan, Yukan, Rice, Dennis S, Zack, Donald J
Format: Artikel
Sprache:eng
Schlagworte:
Analysis
Animals
Antibiotics
Biology and Life Sciences
Biomedical research
Cell cycle
Cell Line
Clinical trials
CRISPR
Deoxyribonucleic acid
DNA
DNA repair
Drug resistance
Efficiency
Flow cytometry
Fluorescence
Gene expression
Gene Knock-In Techniques - methods
Genes
Genes, Reporter
Genetic engineering
Genetic research
Genomes
Genomics
Homology
House mouse
Humans
Luminescent Proteins - biosynthesis
Luminescent Proteins - genetics
Medicine
Mice
Nuclease
Plasmids
Pluripotency
Pluripotent Stem Cells - cytology
Pluripotent Stem Cells - metabolism
Population studies
Puromycin
Reporter gene
Research and Analysis Methods
Stem cell transplantation
Stem cells
Transgenes
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Zusammenfassung:Pluripotent stem cells (PSCs) edited with genetic reporters are useful tools for differentiation analysis and for isolation of specific cell populations for study. Reporter integration into the genome is now commonly achieved by targeted DNA nuclease-enhanced homology directed repair (HDR). However, human PSCs are known to have a low frequency of gene knock-in (KI) by HDR, making reporter line generation an arduous process. Here, we report a methodology for scarless KI of large fluorescent reporter genes into PSCs by transient selection with puromycin or zeocin. With this method, we can perform targeted KI of a single reporter gene with up to 65% efficiency, as well as simultaneous KI of two reporter genes into different loci with up to 11% efficiency. Additionally, we demonstrate that this method also works in mouse PSCs.
ISSN:1932-6203
1932-6203
DOI:10.1371/journal.pone.0201683