Cyclase-associated protein family

rdf:langString Cyclase-associated protein family

rdf:langString CAP C-terminal

rdf:langString CAP N-terminal

rdf:langString PDOC00835

rdf:langString structure of the n-terminal domain of the adenylyl cyclase-associated protein from dictyostelium discoideum.

rdf:langString c-terminal domain of cyclase associated protein with pro 505 replaced by ser

rdf:langString IPR013912

rdf:langString IPR013992

rdf:langString PF01213

rdf:langString PF08603

rdf:langString CL0391

rdf:langString CAP_C

rdf:langString CAP_N

rdf:langString In molecular biology, the cyclase-associated protein family (CAP) is a family of highly conserved actin-binding proteins present in a wide range of organisms including yeast, flies, plants, and mammals. CAPs are multifunctional proteins that contain several structural domains. CAP is involved in species-specific signalling pathways. In Drosophila, CAP functions in Hedgehog-mediated eye development and in establishing oocyte polarity. In Dictyostelium discoideum (social amoeba), CAP is involved in microfilament reorganisation near the plasma membrane in a PIP2-regulated manner and is required to perpetuate the cAMP relay signal to organise fruitbody formation. In plants, CAP is involved in plant signalling pathways required for co-ordinated organ expansion. In yeast, CAP is involved in adenylate cyclase activation, as well as in vesicle trafficking and endocytosis. In both yeast and mammals, CAPs appear to be involved in recycling G-actin monomers from ADF/cofilins for subsequent rounds of filament assembly. In mammals, there are two different CAPs (CAP1 and CAP2) that share 64% amino acid identity.