Retardation of leaf senescence by urea cytokinins in Raphanus sativus

Approximately 500 urea derivatives and related compounds were tested for ability to retard leaf senescence as measured by chlorophyll retention in radish (Raphanus sativus) leaf discs. Of the 90 compounds found to be active, some had activity at 10^?6 M of the same order as kinetin. There was a high correlation between ability to promote chlorophyll retention and initiation of cell division. Highly active compounds had a planar ring and a HNCONH bridge; substitution with a HNCSNH bridge reduced activity and all other tested arrangements of the bridge gave inactive compounds. Substitution of both amino hydrogen atoms on one or both sides of the bridge reduced or removed activity. Some N′-substituted phenyl ureas were highly active. Introduction of a N-phenyl ring to a N-phenyl urea increased activity except where one ring was substituted in the para position with chloro, bromo or iodo. The activities of symmetrical disubstituted ureas were generally less than the corresponding N-monosubstituted derivative. The results suggest that the receptor site for cytokinin activity is the same for senescence retadation and cell division initiation.