The peanut plant (Arachis hypogaea L.) produces flowers aerially, but burie
s the recently fertilized ovules in the soil in order for the fruit and see
ds to mature underground. The organ that carries the seeds into the soil is
called the gynophore. The growth of the peanut gynophore is regulated prim
arily by indole-3-acetic acid (IAA). A monoclonal antibody raised against I
AA was used to successfully detect and localize this growth substance in th
e tissues of developing peanut gynophores. Five different stages of develop
ment were analysed: (1) before fertilization; (2) after fertilization; (3)
during downwards growth; (4) at soil penetration; and (5) at the early stag
es of fruit formation. While no auxin signal is visible in the unfertilized
ovules and ovary region, an asymmetric signal is observed in the gynophore
wall after fertilization. During downwards growth, the auxin signal is loc
ated in both the meristematic region and in the area encircling the seeds,
as well as in the cortex and epidermis region of the elongation zone. Upon
soil penetration, the auxin signal in the meristematic region disappears, a
nd most of the signal is detected in the gynophore wall near the tip. At th
e early stages of peanut fruit development, auxin signal is found at the lo
wermost area of the bending fruit, which eventually causes the fruit to be
positioned horizontally. The results of this study suggest that the possibl
e source of auxin within the gynophore may be the area of the gynophore wal
l close to the tip. (C) 1999 Annals of Botany Company.