Abscisic Acid Translocation and Metabolism in Soybeans following Depodding and Petiole Girdling Treatments

Abstract

It was found earlier that depodding and girdling treatments which obstruct translocation, result in increased leaf AbA levels and partial stomatal closure. In the present work (±) [2-¹⁴C]abscisic acid (AbA) was introduced into leaves and the mass, and radioactivity of AbA and AbA-metabolites were analyzed following translocation obstruction to determine whether the increased AbA was due to higher rates of synthesis, or lower rates of catabolism or export. The (±) [2-¹⁴C]AbA was introduced into soybean (Merr.) leaves by injection into the petiole region. AbA and AbA-metabolites (phaseic acid [PA], dihydrophaseic acid [DPA], AbA-conjugate, and an unknown metabolite) were separated with preparative high performance liquid chromatography. Methyl esters of AbA (free and that released after hydrolysis of AbA-conjugate), PA and DPA were determined with gas chromatography using electron capture detection.