Mechanism of phytochrome action in the control of biosynthesis of anthocyanin in Brassica oleracea

-The synthesis of anthocyanin in red-cabbage is very sensitive to control by light, R/FR reversibility being effected by exposures of 5 min duration, The demonstration of this control does not depend upon a preceding irradiation of high-intensity light but depends upon the duration of incubation in darkness subsequent to irradiation. R/FR reversibility is well shown in seedlings kept in darkness for 48 hr after exposure but after 120 hr this reversibility is no longer evident. This is due to the fact that a further synthesis of anthocyanin occurs in unexposed seedlings and in FR and R/FR treated material in the period from 48 to 120 hr but does not occur in the R treatment after 48 hr. Reagents such as n-propanol which are believed to increase membrane permeability, greatly increase anthocyanin synthesis in dark grown material. n-PrOH also reverses the effect of 5 min FR irradiation but, by contrast with R light, does not promote PAL activity. It is concluded that the limitation to synthesis in material unexposed to light is substrate availability at the site of flavonoid biosynthesis, rather than the level of PAL activity. The evidence presented supports the hypothesis that R/FR reversible phytochrome action involves the control of the passage of substrate through a membrane to the site of anthocyanin biosynthesis.