Axin1 is a critical negative regulator of the canonical Wnt-signaling pathway. It is a concentration-limiting factor in the β-catenin degradation complex. Axin1 null mutant mouse embryos died at embryonic day 9.5, precluding direct genetic analysis of the roles of Axin1 in many developmental and physiological processes using these mutant mice. In this study, we have generated mice carrying two directly repeated loxP sites flanking the exon 2 region of the Axin1 gene. We show that floxed-allele-carrying mice (Axin1( fx/fx) ) mice appear normal and fertile. Upon crossing the Axin1( fx/fx) mice to the CMV-Cre transgenic mice, the loxP-flanked exon 2 region that encodes the N-terminus and the conserved regulation of G-protein signaling domain was efficiently deleted by Cre-mediated excision in vivo. Moreover, we show that mouse embryos homozygous for the Cre/loxP-mediated deletion of exon 2 of the Axin1 gene display embryonic lethality and developmental defects similar to those reported for Axin1(-/-) mice. Thus, this Axin1(fx/fx) mouse model will be valuable for systematic tissue-specific dissection of the roles of Axin1 in embryonic and postnatal development and diseases.
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