The effects of endogenous cytokinin content on benzyladenineenhanced nitrate reductase induction

Foliar application of benzyladenine (BA) has been shown to enhance nitrate-dependent induction of nitrate reductase (NR; EC 1.6.6.1) in etiolated wheat ( Triticum aestivum L.) seedlings. Whether similar enhancement occurs in light-grown plants, or whether endogenous cytokinin content affects this enhancement is unknown. Since the cytokinin content of etiolated plants probably differs from that of light-grown seedlings, the NR response of each to exogenous root- or shoot-applied BA in wheat (cv. Red Bob) was examined. Endogenous cytokinins present in untreated control tissues prior to BA application and changes that occurred after a 22 h (12 h dark followed by 10 h of light) period were determined using a combined HPLC-immunoassay method. Shoot application of BA enhanced the induction of NR in etiolated seedlings in a concentration-dependent manner but failed to enhance NR induction in light-grown plants. Root-applied BA enhanced NR induction in both etiolated and light-grown seedlings. Endogenous root cytokinin levels were similar in both etiolated and light-grown plants. In contrast, shoots of 6 day-old light-grown seedlings contained at least 20 times the amount of total cytokinins measured in shoots from etiolated plants of the same age. Total cytokinin content of the light-grown plants diminished after the 22-h period while that measured in etiolated seedlings increased. The responsiveness of seedlings to BA was correlated with endogenous cytokinin levels in that enhancement of NR induction by exogenous BA was low in tissues which contained high concentrations of cytokinin at the time of BA application. These results may prove useful in interpretation of gene responses to exogenous plant growth regulators.