Gibberellic acid-stimulated and auxin-stimulated cell growth in relation to RNA synthesis, protein synthesis and development in the wheat coleoptile

Young excised coleoptiles from dark grown wheat have their cell growth promoted by gibberellic acid (GA₃), while sections from older coleoptiles have their cell growth promoted by auxin. The GA₃ response has a much longer lag period than that of auxin. Neither GA₃ nor auxin has any effect on ¹⁴C-leucine and ¹⁴C-uridine incorporation and uptake after 1 h, indicating that the lag in growth stimulation following GA₃ application is not associated with changes in protein or RNA synthesis. Following a 6 h incubation there are small increases in ¹⁴C-leucine and ¹⁴C-uridine incorporation in response to both GA₃ and auxin, and in the case of auxin this is associated with increased uptake. Studies on protein and RNA turnover using pulse-chase experiments have shown that both GA₃ and auxin have no effect on protein and RNA stability. There are, however, developmental changes in RNA and protein synthesis that should be considered in any explanation of the mechanism of action of these hormones on cell growth. Young GA₃-sensitive tissue has high rates of RNA synthesis and low protein and RNA turnover, while auxin-sensitive tissue has low rates of RNA synthesis, slightly higher rates of RNA turnover and much higher rates of protein turnover. The evidence overall favours more effective utilisation by GA₃ and auxin of a basal control level of RNA and protein synthesis and turnover in coleoptile tissue.