Induction of Zygotic Polyembryos in Wheat: Influence of Auxin Polar Transport.

Abstract

The effects of two auxin polar transport inhibitors, N-1-naphthylphthalamic acid (NPA) and 3,3[prime],4[prime],5,7-pentahydroxyflavone (quercetin), on attaining bilateral symmetry from radial symmetry during early wheat embryogenesis were investigated by using an in vitro culture system. Although NPA and quercetin belong to two different classes of auxin transport inhibitors, the phytotropins and the flavonoids, respectively, they induced the same specific abnormal phenotypes during embryo development. These abnormal embryos differentiated multiple meristems (i.e., multiple shoot and root meristems) and multiple organs (i.e., multiple coleoptiles and scutella). Multiple shoot apical meristem phenotypes were characterized by partly multiplied embryonic axes and supernumerary scutella. The differentiation of multiple primary roots in addition to multiple shoot meristems and multiple scutella led to the formation of polyembryos. The occurrence of multiple shoot meristem phenotypes depended on the concentration of the inhibitor and the developmental stage of the isolated embryo. Embryos treated with NPA or quercetin developed multiple radicle phenotypes less frequently than they developed multiple shoot meristem phenotypes. Our observations suggest that the root meristem differentiates later than the shoot meristem. Our data support the hypothesis that polar transport of auxin has a determining influence on the differentiation of the embryonic axis and the scutellum.