| Abstract: | Polyribosome formation was stimulated by cytokinin treatmentof cultured cells of Glycine max cv. Funk Delicious. When suspensioncultures were given 0·5 µM zeatin after 24 h inculture in medium lacking a cytokinin, a nearly 2-fold increasein the polyribosome/monoribosome ratio occurred over the subsequent3 h. The effect of actinomycin D and of 5-fluorouridine on RNAsynthesis and on the polyribosome/monoribosome ratios of thesecells was examined. Actinomycin D at 5 and 20 µg/ml–1inhibitedtotal RNA synthesis by 39 and 60%, respectively, as measuredby 3H]uridine incorporation into acid-precipitable material.The degree of inhibition of precursor incorporation into polyribosomalRNA was similar. At 0·1 mM, 5-fluorouridine inhibited3H]uridine incorporation by 76%, and 3H]guanosine incorporationby 66% into polyribosomal RNA after 3 h of treatment. Fractionationof the polyribosomal RNA by oligo(dT)-cellulose chromatographydemonstrated that low concentrations of both actinomycin D (5µg ml–1) and 5-fluorouridine (0·1 mM) inhibitedthe synthesis of ribosomal RNA to a greater extent than thepoly(A)-containing fraction of the messenger RNA. Synthesisof the poly(A)-containing RNA was inhibited by 24% with 5µgml–1 actinomycin D and by 30% with 0·1 mM 5-fluorouridine.At the above concentrations, these two inhibitors reduced thepolyribosome/monoribosome ratio of the cytokinin-deprived cellsover a 3 h period, but they did not prevent cytokinin-inducedpolyribosome formation. These results provide further evidencethat cytokinin regulates polyribosome levels through an effecton protein synthesis at the translational level |
