Abnormal flowers have been recognized for thousands of years, but only in t
he past decade have the mysteries of flower development begun to unfold. Am
ong these mysteries is the differentiation of four distinct organ types (se
pals, petals, stamens and carpels), each of which may be a modified leaf(1)
. A landmark accomplishment in plant developmental biology is the ABC model
of flower organ identity(2,3). This simple model provides a conceptual fra
mework for explaining how the individual and combined activities of the ABC
genes produce the four organ types of the typical eudicot flower. Here we
show that the activities of the B and C organ-identity genes require the ac
tivities of three closely related and functionally redundant MADS-box genes
, SEPALLATA1/2/3 (SEP1/2/3). Triple mutant Arabidopsis plants lacking the a
ctivity of all three SEP genes produce flowers in which all organs develop
as sepals. Thus SEP1/2/3 are a class of organ-identity genes that is requir
ed for development of petals, stamens and carpels.