Hormones are no causal links in phytochrome-mediated adventitious root formation in mustard seedlings (Sinapis alba L.) |
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Authors: | W Pfaff P Schopfer |
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Institution: | (1) Biologisches Institut II der Universität Freiburg, Schänzlestrasse 1, D-7800 Freiburg, Federal Republic of Germany |
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Abstract: | The question of whether or not hormones are causal links in the realization of phytochrome control during photomorphogenesis was investigated using the phytochrome-dependent formation of adventitious roots in hypocotyl cuttings excised from mustard seedlings as a test system. Histological examination of regenerating rest seedlings revealed that phytochrome (operationally, continuous far-red light) mediates the de novo formation of root primordia in the pericycle region of the hypocotyl near the cutting surface withing 12–24 h after excision.Auxin (IAA), gibberellin (GA3), Cytokinin (kinetin), abscisic acid (ABA), and ethylene had no promotive effect on primordium formation in dark-grown or far-red irradiated rest seedlings. Depending on concentration, the application of these hormones was either ineffective or inhibitory in the rooting response. It is concluded that phytochrome does not operate through changes of hormone (auxin, gibberellin, cytokinin, ABA, ethylene) levels.While externally applied ethylene had no specific effect on primordium formation, the number of primordia produced in darkness could be increased to the far-red light level by removing the endogenously formed ethylene. Since the stimulatory effect of light could not be related to a lower ethylene level, it is concluded that ethylene interferes with primordium formation by modulating the susceptibility of this process to phytochrome control. This ethylene effect takes place in a concentration range below the range that can be manipulated by external application of the hormone.Abbreviations ABA
abscisic acid
- GA3
gibberellic acid
- IAA
indole-3-acetic acid
- Pr Pfr
red and far-red absorbing forms of phytochrome |
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Keywords: | Adventitious roots Ethylene Root formation Phytochrome Sinapsis |
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