Interactions between Ethylene and Gibberellins in Phytochrome-Mediated Shade Avoidance Responses in Tobacco

Ronald Pierik ^*, Mieke L.C. Cuppens , Laurentius A.C.J. Voesenek , and Eric J.W. Visser

Department of Experimental Plant Ecology, Radboud University Nijmegen, Toernooiveld, 6525 ED Nijmegen, The Netherlands (R.P., M.L.C.C., E.J.W.V.); and Department of Plant Ecophysiology, Utrecht University, 3584 CA Utrecht, The Netherlands (R.P., L.A.C.J.V.)

^* Corresponding author; email: r.pierik{at}bio.uu.nl.

Plants respond to proximate neighbors with a suite of responsesthat comprise the shade avoidance syndrome. These phytochrome-mediatedresponses include hyponasty (i.e. a more vertical orientationof leaves) and enhanced stem and petiole elongation. We showedrecently that ethylene-insensitive tobacco (Nicotiana tabacum)plants (Tetr) have reduced responses to neighbors, showing animportant role for this gaseous plant hormone in shade avoidance.Here, we investigate interactions between phytochrome signalingand ethylene action in shade avoidance responses. Furthermore,we investigate if ethylene acts in these responses through aninteraction with the GA class of hormones. Low red to far-redlight ratios (R:FR) enhanced ethylene production in wild-typetobacco, resulting in shade avoidance responses, whereas ethylene-insensitiveplants showed reduced shade avoidance responses. Plants withinhibited GA production showed hardly any shade avoidance responsesat all to either a low R:FR or increased ethylene concentrations.Furthermore, low R:FR enhanced the responsiveness of hyponastyand stem elongation in both wild-type and Tetr plants to appliedGA₃, with the stem elongation process being more responsiveto GA₃ in the wild type than in Tetr. We conclude that phytochrome-mediatedshade avoidance responses involve ethylene action, at leastpartly by modulating GA action.

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