Spectral-dependence of light-inhibited hypocotyl elongation in photomorphogenic mutants of Arabidopsis: evidence for a UV-A photosensor.

Photon fluence rate-response curves at different wavelengths were generated for the light-induced inhibition of hypocotyl elongation in seedlings of wildtype and photomorphogenic mutants of Arabidopsis thaliana. (L.) Heynh. Treatment of wild-type seedlings with continuous low-fluence-rate light (< 1.0 μmol photons · m(-2) · s(-1)) induced some inhibition of hypocotyl elongation at all wavelengths tested, with maximum inhibition in blue light. At higher fluence rates, inhibition reached a maximum of 70-80% in UV-A, blue, and far-red light. Fluence rate-response curves for seedlings of blu1, a blue light-response mutant, showed a specific reduction in their response to blue light, but their response to UV-A, red, and far-red light was similar to that in wild-type seedlings. In contrast, the phytochromedeficient mutant hy6 showed a loss of response to lowfluence-rate light at all wavelengths, as well as to highfluence-rate far-red light. However, hy6 seedlings retained sensitivity to high-fluence-rate blue and UV-A light. The data support the conclusion that blue-lightand phytochrome-dependent photosensory systems regulate hypocotyl elongation independently and in an additive manner. Furthermore, hypocotyl inhibition in wild-type, blul, hy6 and blul-hy6 double mutants was indistinguishable in UV-A light, whereas marked differences were observed at other wavelengths, indicating the involvement of a third photosensory system with an absorption maximum in the UV-A.