@article{EckertBuhlWeberetal.2005, author = {Dawid Eckert and Sandra Buhl and Susanne Weber and Richard J{\"a}ger and Hubert Schorle}, title = {The AP-2 family of transcription factors}, series = {Genome Biology}, volume = {6}, number = {13}, publisher = {BioMed Central}, issn = {1474-760X}, doi = {10.1186/gb-2005-6-13-246}, year = {2005}, abstract = {The AP-2 family of transcription factors consists of five different proteins in humans and mice: AP-2alpha, AP-2beta, AP-2gamma, AP-2delta and AP-2epsilon. Frogs and fish have known orthologs of some but not all of these proteins, and homologs of the family are also found in protochordates, insects and nematodes. The proteins have a characteristic helix-span-helix motif at the carboxyl terminus, which, together with a central basic region, mediates dimerization and DNA binding. The amino terminus contains the transactivation domain. AP-2 proteins are first expressed in primitive ectoderm of invertebrates and vertebrates; in vertebrates, they are also expressed in the emerging neural-crest cells, and AP-2alpha-/- animals have impairments in neural-crest-derived facial structures. AP-2beta is indispensable for kidney development and AP-2gamma is necessary for the formation of trophectoderm cells shortly after implantation; AP-2alpha and AP-2gamma levels are elevated in human mammary carcinoma and seminoma. The general functions of the family appear to be the cell-type-specific stimulation of proliferation and the suppression of terminal differentiation during embryonic development.}, language = {en} }