p63 is a developmentally regulated transcription factor related to p53, which activates and represses specific genes. The human AEC (Ankyloblepharon-Ectodermal dysplasia-Clefting) and EEC (Ectrodactyly-Ectodermal dysplasia-Cleft lip/palate) syndromes are caused by missense mutations of p63, within the DNA-binding domain (EEC) or in the C-terminal sterile alpha motif domain (AEC). We show here that p63 represses transcription of cell-cycle G(2)/M genes by binding to multiple CCAAT core promoters in immortalized and primary keratinocytes. The CCAAT-activator NF-Y and DeltaNp63alpha are associated in vivo and a conserved alpha-helix of the NF-YC histone fold is required. p63 AEC mutants, but not an EEC mutant, are incapable to bind NF-Y. DeltaNp63alpha, but not the AEC mutants repress CCAAT-dependent transcription of G(2)/M genes. Chromatin immunoprecipitation recruitment assays establish that the AEC mutants are not recruited to G(2)/M promoters, while normally present on 14-3-3sigma, which contains a sequence-specific binding site. Surprisingly, the EEC C306R mutant activates transcription. Upon keratinocytes differentiation, NF-Y and p63 remain bound to G(2)/M promoters, while HDACs are recruited, histones deacetylated, Pol II displaced and transcription repressed. Our data indicate that NF-Y is a molecular target of p63 and that inhibition of growth activating genes upon differentiation is compromised by AEC missense mutations.