Arabidopsis LEAFY COTYLEDON1 represents a functionally specialized subunit of the CCAAT binding transcription factor

LEAFY COTYLEDON1 (LEC1) is a central regulator that is required for many aspects of Arabidopsis embryogenesis and sufficient to induce embryo development in vegetative cells when expressed ectopically. We previously showed that LEC1 encodes an HAP3 subunit of the CCAAT binding factor and that the 10 Arabidopsis HAP3 (AHAP3) subunits can be divided into two classes, the LEC1-type and the non-LEC1-type, based on sequence similarity within their B domains. By analyzing the ability of chimeric HAP3 subunits containing different combinations of domains from LEC1 and a non-LEC1-type AHAP3 subunit to suppress genetically the lec1 mutation, we show that the B domain of LEC1 is necessary and sufficient within the context of the protein for its activity in embryogenesis. Moreover, we identify one amino acid residue, Asp-55, specific to the LEC1-type B domain that is required for LEC1 activity in embryogenesis and sufficient to confer partial LEC1 activity to a non-LEC1-type B domain. Based on structural similarities between the HAP3 B domain and histone fold motif, we discuss how the Asp-55 residue may functionally differentiate LEC1 from the non-LEC1-type AHAP3 subunits.