Hydroxyproline-rich cell wall protein (extensin): role in the cessation of elongation in excised pea epicotyls

The synthesis and accumulation of cell wall hydroxyproline increases coincident with the cessation of elongation growth in pea epicotyls. We examined the relationship between these biochemical and physiological events by using epicotyl sections challenged with α, α′-dipyridyl. This chelator blocked hydroxyproline biosynthesis without affecting overall protein synthesis. Epicotyl sections mimicked elongation growth in situ when placed in indoleacetic acid. Elongation was blocked by the addition of benzimidazole or Ethrel. These latter compounds acted independently as judged by their kinetics of action and the inhibition of Ethrel's effect only by CO₂.During rapid elongation growth in indoleacetic acid, there was no increase in cell wall hydroxyproline. However, incubation in either growth-inhibitory agent increased hydroxyproline 3-fold. When this increase was blocked by dipyridyl incubation, growth was not inhibited in benzimidazole or Ethrel, but proceeded at the maximal rate. During long-term incubations in buffer, cell wall hydroxyproline increased and the sections eventually became unable to grow. However, if dipyridyl was added to block the hydroxyproline increase, growth potential remained. Elongation was inhibited by supraoptimal concentrations of indoleacetic acid. However, such inhibition did not occur in the presence of dipyridyl.These results indicate that an hydroxyproline-containing component is necessary in rendering the cell wall inextensible when elongation growth ceases.