PLoS ONE (Jan 2009)

Split-cre complementation indicates coincident activity of different genes in vivo.

  • Johannes Hirrlinger,
  • Anja Scheller,
  • Petra G Hirrlinger,
  • Beate Kellert,
  • Wannan Tang,
  • Michael C Wehr,
  • Sandra Goebbels,
  • Andreas Reichenbach,
  • Rolf Sprengel,
  • Moritz J Rossner,
  • Frank Kirchhoff

DOI
https://doi.org/10.1371/journal.pone.0004286
Journal volume & issue
Vol. 4, no. 1
p. e4286

Abstract

Read online

Cre/LoxP recombination is the gold standard for conditional gene regulation in mice in vivo. However, promoters driving the expression of Cre recombinase are often active in a wide range of cell types and therefore unsuited to target more specific subsets of cells. To overcome this limitation, we designed inactive "split-Cre" fragments that regain Cre activity when overlapping co-expression is controlled by two different promoters. Using transgenic mice and virus-mediated expression of split-Cre, we show that efficient reporter gene activation is achieved in vivo. In the brain of transgenic mice, we genetically defined a subgroup of glial progenitor cells in which the Plp1- and the Gfap-promoter are simultaneously active, giving rise to both astrocytes and NG2-positive glia. Similarly, a subset of interneurons was labelled after viral transfection using Gad67- and Cck1 promoters to express split-Cre. Thus, split-Cre mediated genomic recombination constitutes a powerful spatial and temporal coincidence detector for in vivo targeting.