Abstract
Thehypothesis that chemically induced stress tolerance in plants can betransferredto a larger clonal population regenerated by somatic embryogenesis wasevaluatedusing the triazole compound paclobutrazol as a chemical inducer of stresstolerance in Geranium (Pelargonium horturum Bailey). Seedswere imbibed in 3.4, 10.2 or 17.0 μM (1, 3, 5 mgL−1) paclobutrazol for 24 h and germinatedfor 7 days. Hypocotyl explants were cultured in vitro toinduce somatic embryogenesis. Plants regenerated from somatic embryos wereexposed to heat stress at 56 °C. Explants treated with3.4 μM paclobutrazol yielded a substantially higher number ofsomatic embryos compared with untreated explants. In contrast, 17.0μM paclobutrazol treatment inhibited embryogenesis producing asignificantly lower number of somatic embryos. There was no difference in theembryo number between control and 10.2 μM treatment. Somaticembryos derived from 3.4 and 10.2 μM paclobutrazol treatedexplants developed into plants at a faster rate than the control and 17.0μM treatments. Plants derived from paclobutrazol-treatedexplants displayed a greater tolerance to heat stress compared with thecontrols. Observations in this study provide a technique for regeneratingplantsin tissue/cell culture with additional desirable traits such as stresstolerancewith minimal chemical contamination of the environment.
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Senaratna, T., Bunn, E. & Bishop, A. Triazole treatment of explant source provides stress tolerance in progeny of Geranium (Pelargonium hortorum Bailey) plants regenerated by somatic embryogenesis. Plant Growth Regulation 36, 169–174 (2002). https://doi.org/10.1023/A:1015046402331
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DOI: https://doi.org/10.1023/A:1015046402331