Control by light of hypocotyl growth in de-etiolated mustard seedlings

Abstract

After sowing, mustard (Sinapis alba L.) seedlings were grown for 48 h in white light (25°C). These fully de-etiolated, green seedlings were used as experimental material between 48 and 72 h after sowing to study the control by phytochrome (P_fr) of hypocotyl elongation after a white light→dark transition. It was found that the transfer to darkness leads to a complete loss of sensitivity towards newlyformed P_fr for a period of 12 h while the effectiveness of the P_fr, which was established at the end of the 48 h white light pretreatment was maintained. It is concluded that two kinds of P_fr must be kept apart: “old” P_fr which operates during the first 12 h after the light→dark transition and “new” P_fr the appearance of which is totally ignored by the plant. Between 12 and 24 h after the white light→dark transition the sensitivity of the seedling towards “new” P_fr is restored while an effect of the “old” P_fr is no longer detectable. The restoration process is accelerated by light which operates through phytochrome (“positive feedback”). The implications of these findings for plant growth under natural light/dark regimes are discussed.