Interactive signalling by phytochromes and cryptochromes generates de-etiolation homeostasis in Arabidopsis thaliana

Single, double, triple and quadruple mutants of phyA, phyB, cry1 and cry2 were exposed to different sunlight irradiances and photoperiods to investigate the roll played by phytochrome A, phytochrome B, cryptochrome 1 and cryptochrome 2 during de-etiolation of Arabidopsis thaliana seedlings under natural radiation. Even the quadruple mutant retained some hypocotyl-growth inhibition by sunlight. Hypocotyl length was strongly affected by interactions among photoreceptors. Double phyA phyB, phyA cry1, and cry1 cry2 mutants were taller than expected from the additive action of single mutations. Some of these redundant interactions required the presence of phytochromes A and/or B. Interactions among photoreceptors resulted in a 44% reduction of the response to irradiance and a 70% reduction of the response to photoperiod. The complex network of interactions among photoreceptors is proposed to buffer de-etiolation against changes in irradiance and photoperiod, i.e light fluctuations not related to the positions of the shoot above or below soil level.