The Metabolism and Translocation of Zeatin in Intact Radish Seedlings

After the roots of intact radish seedlings had taken up ³H]zeatinfor 1 h, the seedlings were transferred to nutrient lackingzeatin and extracted at intervals. After 23 h in the absenceof zeatin, 6 per cent of the radioactivity extracted per seedlingwas recovered from the de-ribbed cotyledon laminae, 4 per centfrom the hypocotyls, and 87 per cent from the roots. Per unitweight of tissue, the radioactivity extracted from the rootwas about 40 times that recovered from any other region. Zeatin was rapidly metabolized by the root tissue, and 4 to9 h after transfer of the seedlings to nutrient lacking zeatin,accounted for a negligible proportion of the radioactivity.Initially zeatin riboside 5'-monophosphate was the principalroot metabolite, but after 9 h, 7-glucosylzeatin (raphanatin)was the dominant metabolite. Conversion of zeatin to dihydrozeatinwas not detected. Raphanatin was also the major metabolite inthe cotyledon laminae where some free zeatin was detectable.The principal metabolites in hypocotyl extracts were AMP andzeatin riboside 5'-monophosphate but zeatin riboside was theonly significant source of radioactivity in the xylem sap. When ³H]zeatin was applied directly to cotyledon laminae, 99per cent of the radioactivity was localized in the treated laminae;however traces of zeatin were detected in the roots. In radish seedlings, zeatin riboside appears to be the translocationalform of zeatin, while raphanatin may be a storage form.