John S. Taylor

The effect of drought on levels of abscisic acid, cytokinins, gibberellins and ethylene in aeroponically-grown sunflower plants

Abscisic acid (ABA), cytokinins and gibberellin-like substances (GAs) were extracted from the roots and shoots of 17-day-old sunflower seedlings which had been droughted or were unstressed. Plants were grown in an aeroponic chamber which allowed for good control over degree of water stress and easy access to roots. Following methanolic extraction of lyophilized material, cytokinins were separated from the acidic growth-regulators on a cellulose PO4 cationic exchange column. The cytokinins were analysed by paper chromatography and HPLC and the soybean hypocotyl section assay. Semipurified acidic regulators were chromatographed on SiO2 columns and HPLC and aliquots assayed with the dwarf rice cv. Tan-ginbozu bioassay for GAs. Fractions known to contain ABA were purified by sequential reverse-phase HPLC of the acid and then of the methyl ester forms followed by quantitation as Me-ABA on GLC-EC. ABA losses were measured by using an internal standard [3H]-ABA). Ethylene production was also monitored in stressed and unstressed seedlings.The effect of drought on GAs and ethylene was minimal. The ABA levels were markedly higher in droughted plants. Stressed roots had 32 times more ABA than controls. The levels of cytokinins in the shoots of droughted plants were about half those in unstressed shoots, and qualitative differences occurred in the roots. Under stress a large peak of activity was present similar to zeatin glucoside which was not present in the unstressed condition. The results are discussed in relation to drought-effects on metabolism.

Changes in endogenous hormones in apple during bud burst induced by defoliation

Under the tropical conditions of East Java, terminal buds of apple burst at any time of the year in response to removal of the subtending leaves. Following two such defoliations, two weeks apart on separate trees, there was a decrease in abscisic acid (ABA), a three-fold increase in gibberellin-like substances (GAs) and only a slight increase in cytokinin-like substances (CKs) in the apex tissue of closed buds. These changes preceded bud opening and the associated increases in fresh and dry weight, and may be causally related to bud burst. In open buds (i.e. young expanding leaves) the concentration of CKs was greater, and the concentrations of ABA and GAs less, than the concentrations in closed buds. As the leaves expanded, ABA increased and GAs and CKs decreased in concentration. The decrease in concentration of GAs and CKs, however, was due to the rise in dry weight of the expanding tissue; the amounts of all three hormones (per apex) increased. During bud burst there was a concurrent decrease in the CKs of subtending stems, suggesting a transfer into the expanding bud tissues. Removal of the old leaves by defoliation may remove the source of ABA and allow the amount of GAs in the apex to rise, bud burst following. Stem CKs may be utilized in the expansion of the new leaves in the bursting buds.

Endogenous gibberellin- and cytokinin-like substances in cultured shoot tissues of apple, Malus pumila cv. Jonathan, in relation to adventitious root formation

The frequencies of adventitious root formation in vitro of isolated shoots from bud cultures of apple (Malus pumila cv. Jonathan) after 1, 7 and 31 subcultures (weeks 5, 29 and 109 after the initial culture) were 5, 78 and 95% respectively. Endogenous gibberellin-like substances (GA) were extracted, chromatographed on SiO2 partition columns, and assayed on dwarf rice (Oryza sativa cv. Tan-ginbozu). The levels of GA in shoots from the 1st, 7th and 31st subcultures were 40, 19 and 14 ng GA3 eq./g dry weight of tissue, respectively, a trend which suggests an inverse relationship between endogenous GA level and rooting ability. This is consistent with the fact that applied GA3 inhibits rooting in apple and many other species. The major peak of GA activity eluted coincidentally with GA1/GA3/GA19. Endogenous cytokinin-like substances (CK) were chromatographed on paper and assayed with soybean hypocotyl sections. In contrast to the decrease in GA activity, CK activity increased 1.5–2.7 fold in the later subcultures (cytokinin activity per shoot, however, declined).

Identification of Gibberellins A19and A20in Vegetative Tissue of Apple

Gibberellins A19 and A20 were identified in the vegetative tissue (leaf and bud) of apple (Malus domestica Borkh.) by sequential Si gel partition column chromatography→reversed phase C18 high performance liquid chromatography (HPLC)→gas chromatography-selected ion monitoring (GC/SIM) or gas chromatography-mass spectrometry (GC/MS) of the biologically active fractions from HPLC. Trace amounts of gibberellins A1 and A9 were also observed (based on GC/SIM of the biologically active fraction after the Si gel→HPLC sequence) in vegetaitve tissues.