Phytochrome control mechanisms in leaf expansion of Phaseolus vulgaris cv. Limburg.

Abstract

Abstract. The effectiveness of a red-light pulse acting through phytochrome in inducing primary leaf expansion in 9-d-old etiolated bean (Phaseolus vulgaris L. ev. Limburg) seedlings is strongly increased by a continuous far-red light (CFR) pretreatment. This increase in effectiveness of a red pulse is positively correlated with the time and the fluence rate of the CFR pretreatment. Escape from photoreversibility of this red pulse after the CFR pretreatment is extremely slow (more than 3 d). When a dark period is interposed between the end of the CFR pretreatment and the inductive red pulse the photoreversible part of the response to this pulse is highly dependent upon the photostationary state of phytochrome at the onset of the dark period. The results give strong evidence for the synergistic activity of two components of phytochrome action during leaf growth induction, one of them acting via a very stable Pfr fraction.