Light-dependent anthocyanin synthesis: A model system for the study of plant photomorphogenesis

Abstract

The biosynthesis of anthocyanins in plant tissues either requires light or is enhanced by it. Light-dependent anthocyanin synthesis has been extensively used as a model system for studies of the mechanism of photoregulation of plant development. Two components can be distinguished in the action of light on anthocyanin production. The first component is the red-far red reversible, phytochrome-mediated response induced by short irradiations; the amount of anthocyanin formed in response to a single, short irradiation is small. The second component is the response to prolonged exposures; the formation of large amounts of anthocyanin requires prolonged exposures to high fluence rates of visible and near-visible radiation (290 to 750 nm) and shows the typical properties of the “High Irradiance Reaction” (HIR) of plant photomorphogenesis. Phytochrome is involved in the photoregulation of the HIR response and is the only photoreceptor mediating the action of prolonged red and far red irradiations. The response to prolonged ultraviolet and blue radiation is probably mediated, at least in some systems, by two photoreceptors: phytochrome and cryptochrome, the latter being a specific ultraviolet-blue-light photoreceptor. The nature of the interaction between phytochrome and cryptochrome in the regulation of plant photomorphogenic responses is still unclear.