The epidermal cells of petals of many species are specialized, having a pronounced conical shape. A transcription factor, MIXTA, is required for the formation of conical cells in
Antirrhinum majus
; in shoot epidermal cells of several species, expression of this gene is necessary and sufficient to promote conical cell formation. Ectopic expression has also shown
MIXTA
to be able to promote the formation of multicellular trichomes, indicating that conical cells and multicellular trichomes share elements of a common developmental pathway. Formation of conical cells or trichomes is also mutually exclusive with stomatal formation. In
Antirrhinum
,
MIXTA
normally only promotes conical cell formation on the inner epidermal layer of the petals. Its restricted action in cell fate determination results from its specific expression pattern. Expression of
MIXTA
, in turn, requires the activity of B–function genes, and biochemical evidence suggests that the products of
DEFICIENS
,
GLOBOSA
and
SEPALLATA
–related genes directly activate MIXTA expression late in petal development, after the completion of cell division in the petal epidermis.
A
MIXTA
–like gene,
AmMYBML1
, is also expressed in petals.
AmMYBML1
expression is high early in petal development. This gene may direct the formation of trichomes in petals.
In specifying the fates of different cell types in petals, regulatory genes like
MIXTA
may have been duplicated. Changes in the timing and spatial localization of expression then provides similar regulatory genes which specify different cell fates.