A single reporter mouse line for Vika, Flp, Dre, and Cre-recombination

A single reporter mouse line for Vika, Flp, Dre, and Cre-recombination

Abstract Site-specific recombinases (SSR) are utilized as important genome engineering tools to precisely modify the genome of mice and other model organisms. Reporter mice that mark cells that at any given time had expressed the enzyme are frequently used for lineage tracing and to characterize new...

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Detalles Bibliográficos
Autores principales: Madina Karimova, Oliver Baker, Aylin Camgoz, Ronald Naumann, Frank Buchholz, Konstantinos Anastassiadis
Formato: article
Lenguaje:EN
Publicado: Nature Portfolio 2018
Materias:
Reporter Mice
Viking
Recombination Target Sites
Conditional Mutagenesis
Recombinase System
Medicine
R
Science
Q
Acceso en línea:https://doaj.org/article/0bdfdff459e04664809de4437ac08886
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Sumario:Abstract Site-specific recombinases (SSR) are utilized as important genome engineering tools to precisely modify the genome of mice and other model organisms. Reporter mice that mark cells that at any given time had expressed the enzyme are frequently used for lineage tracing and to characterize newly generated mice expressing a recombinase from a chosen promoter. With increasing sophistication of genome alteration strategies, the demand for novel SSR systems that efficiently and specifically recombine their targets is rising and several SSR-systems are now used in combination to address complex biological questions in vivo. Generation of reporter mice for each one of these recombinases is cumbersome and increases the number of mouse lines that need to be maintained in animal facilities. Here we present a multi-reporter mouse line for loci-of-recombination (X) (MuX) that streamlines the characterization of mice expressing prominent recombinases. MuX mice constitutively express nuclear green fluorescent protein after recombination by either Cre, Flp, Dre or Vika recombinase, rationalizing the number of animal lines that need to be maintained. We also pioneer the use of the Vika/vox system in mice, illustrating its high efficacy and specificity, thereby facilitating future designs of sophisticated recombinase-based in vivo genome engineering strategies.

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