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Efficient conditional and promoter-specific in vivo expression of cDNAs of choice by taking advantage of recombinase-mediated cassette exchange using FlEx gene traps

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Item Type:Article
Title:Efficient conditional and promoter-specific in vivo expression of cDNAs of choice by taking advantage of recombinase-mediated cassette exchange using FlEx gene traps
Creators Name:Schebelle, L., Wolf, C., Stribl, C., Javaheri, T., Schnuetgen, F., Ettinger, A., Ivics, Z., Hansen, J., Ruiz, P., von Melchner, H., Wurst, W. and Floss, T.
Abstract:Recombinase-mediated cassette exchange (RMCE) exploits the possibility to unidirectionally exchange any genetic material flanked by heterotypic recombinase recognition sites (RRS) with target sites in the genome. Due to a limited number of available pre-fabricated target sites, RMCE in mouse embryonic stem (ES) cells has not been tapped to its full potential to date. Here, we introduce a universal system, which allows the targeted insertion of any given transcriptional unit into 85 742 previously annotated retroviral conditional gene trap insertions, representing 7013 independent genes in mouse ES cells, by RMCE. This system can be used to express any given cDNA under the control of endogenous trapped promoters in vivo, as well as for the generation of transposon 'launch pads' for chromosomal region-specific 'Sleeping Beauty' insertional mutagenesis. Moreover, transcription of the gene-of-interest is only activated upon Cre-recombinase activity, a feature that adds conditionality to this expression system, which is demonstrated in vivo. The use of the RMCE system presented in this work requires one single-cloning step followed by one overnight gateway clonase reaction and subsequent cassette exchange in ES cells with efficiencies of 40% in average.
Keywords:Cinnamates, DNA Nucleotidyltransferases, Complementary DNA, Gene Targeting, Genetic Markers, Genetic Vectors, Hygromycin B, Integrases, Insertional Mutagenesis, Genetic Promoter Regions, Recombinases, Genetic Recombination, Transposases, Animals, Mice
Source:Nucleic Acids Research
ISSN:0305-1048
Publisher:Oxford University Press
Volume:38
Number:9
Page Range:e106
Date:May 2010
Official Publication:https://doi.org/10.1093/nar/gkq044
PubMed:View item in PubMed

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