The transport and metabolism of gibberellins A1 and A5 in excised segments from internodes of Phaseolus coccineus

Jacobs, W. P., Beall, F. D. and Pharis, R. P. 1988. The transport and metabolism of gibberellins A₁ and A₅ in excised segments from internodes of Phaseolus coccineus. -Physiol. Plant. 72: 529–534. The transport and metabolism of gibberellins (GAs) (³H]-GA, and ³H]-GA₅) of high specific radioactivity were investigated in excised segments from young internodes of Phaseolus coccineus L. Both GA₁ and GA₅ are native to this species and present in shoot tissue. The segments, 5.1 mm long, were incubated for 6 h in the horizontal position with agar donor blocks containing the ³H]-GA on the morphological apical or basal ends and with plain agar receiver blocks on the opposite end. At the end of incubation, the individual agar blocks were analyzed immediately for total radioactivity, or both blocks and intervening tissue were frozen and freeze-dried for later chromatographic analysis. The movement of both ³H]-GA, and ³H]-GA₅ was found to be consistently without polarity. However, approximately 5-fold more ³H]-GA, than ³H]-GA₅ was transported through the Phaseolus segments into receivers when equal amounts were in the donors. The extractable radioactivity from receiver blocks was primarily that of the donor GA. No putative GA conjugates were found in any class of receivers, but more GA metabolites were found in the free acid fraction from acropetal than basipetal receivers. Chromatographic analysis by reversed phase C₁₈ high performance liquid chromatography of the tissue segments showed that ³H]-GA, was metabolized more than ³H]-GA₅. Tissue adjacent to receiver blocks contained not only the precursor GA from the donor, but also polar ‘free GA metabolites’ and putative GA glucosyl conjugates. These results provide evidence that GA., which is the known ‘effector’ GA for elongation in shoot tissue of several species, is more effectively transported than GA₅ (a known precursor of GA₁) or than GA₁s more polar metabolites.