Endogenous Levels and Transport of 1-Aminocyclopropane-1-Carboxylic Acid in Stamens of Ipomoea nil (Convolvulaceae).

Filament and corolla growth in flowers of Ipomoea nil are inhibited by ethylene production. Anthers inhibited filament growth in vitro during younger stages of development even in the presence of the growth promoter gibberellic acid (GA(3)). To test whether the anthers could be sources of 1-aminocyclopropane-1-carboxylic acid (ACC) endogenous levels of ACC and ethylene production were monitored using gas chromatography. To also test whether the filaments could be transport vectors for ACC the movement of [(14)C]ACC was assessed by scintillation counting from donor agarose blocks, through filament sections, and into receiver agarose blocks. While ACC levels fluctuated in anthers 87 to 21 h before anthesis, anthers contained increased levels of ACC from 15 to 6 hours before anthesis. Ethylene production also fluctuated but peak levels were shifted about 6 hours closer to anthesis than ACC levels within the anthers. Both ACC and ethylene levels in filaments showed fluctuations similar to those in the anthers. [(14)C]ACC movement became increasingly basipetal during development. Older stages showed greater polar [(14)C]ACC efflux rates, while all stages showed constant polar influx rates. Low levels of endogenous ACC were transported basipetally from the anther through the filament into agarose blocks at all stages of development. Corresponding levels of endogenous ethylene production remained constant between the various stages during ACC transport. We have evidence that stamens of I. nil have a role as source tissues and transport vectors for ACC, to stimulate corolla growth, such as corolla unfolding and senescence.