The postpollination syndrome of development in orchids, including ovary development, involves coordinated interorgan regulation of expression of ethylene biosynthetic genes and ethylene production. In addition, ethylene and auxin together contribute to the regulation of female and male gametophyte development in orchid flowers. Characterization of both the temporal and spatial regulation of the genes encoding ethylene biosynthetic enzymes has led to the development of a model of interorgan regulation of postpollination flower development by spatial separation of expression of ethylene biosynthetic genes and translocation of the hormone precursor, ACC.

These results have provided insights into the mechanism of interorgan regulation of postpollination development and the role of ethylene and auxin in initiating several of these developmental events. In addition, mechanisms that regulate the events leading to autocatalytic ethylene biosynthesis in spatially distinct tissues have been elucidated in this system. Additional research is in progress to elucidate the primary molecular signals associated with the pollination event that initiates the biosynthesis of ACC and ethylene in the stigma because this step reflects the initial signal-response coupling event between pollen and stigma.