The evolutionary analysis reveals domain fusion of proteins with Frizzled-like CRD domain.

Frizzleds (FZDs) are transmembrane receptors in the Wnt signaling pathway and they play pivotal roles in developments. The Frizzled-like extracellular Cysteine-rich domain (Fz-CRD) has been identified in FZDs and other proteins. The origin and evolution of these proteins with Fz-CRD is the main interest of this study. We found that the Fz-CRD exists in FZD, SFRP, RTK, MFRP, CPZ, CORIN, COL18A1 and other proteins. Our systematic analysis revealed that the Fz-CRD domain might have originated in protists and then fused with the Frizzled-like seven-transmembrane domain (7TM) to form the FZD receptors, which duplicated and diversified into about 11 members in Vertebrates. The SFRPs and RTKs with the Fz-CRD were found in sponge and expanded in Vertebrates. Other proteins with Fz-CRD may have emerged during Vertebrate evolution through domain fusion. Moreover, we found a glycosylation site and several conserved motifs in FZDs, which may be related to Wnt interaction. Based on these results, we proposed a model showing that the domain fusion and expansion of Fz-CRD genes occurred in Metazoa and Vertebrates. Our study may help to pave the way for further research on the conservation and diversification of Wnt signaling functions during evolution.