Regulation of Phospholipase D Activity by Light and Phytohormones in Oat Seedlings

The effect of synthetic analogs of phytohormones and red light absorbed by phytochrome on the phospholipase D activity (PLD) was studied in oat (Avena sativa L.) seedlings. ABA manifested a short-term stimulating effect on PLD activity in the green seedlings and inhibited phospholipase activity in the etiolated plants. Kinetin inhibited enzyme activity in the etiolated seedlings and did not affect its activity in light. GA did not markedly affect PLD activity in the etiolated plants and activated this enzyme in the green seedlings. Finally, IAA did not affect the enzyme activity. The relationship of the regulatory effects of phytohormones and light on PLD activity is discussed.     

Light-Dependence of Phospholipase D Activity in Oat Seedlings

The effect of light on the activity of phospholipase D (PLD) in oat (Avena sativa L.) seedlings and the dependence of this enzyme activity on the regime of their illumination were studied. The PLD activity in etiolated seedlings was 1.5–2.0-fold higher than in green plants. The illumination of etiolated seedlings with white light resulted in a decrease in PLD activity to its level in the seedlings grown under light. In contrast, the transfer of green seedlings to darkness enhanced the activity of the enzyme up to its level in etiolated seedlings. The illumination of etiolated seedlings with red light inhibited the PLD as well. It was shown that this photoeffect decreased with seedling aging and correlated with a phytochrome content in plants. Far-red light reversed the effect of red light. The involvement of phytochrome in the control of the PLD activity is discussed.     

Red/far-red light modulates phospholipase D activity in oat seedlings: relation of enzyme photosensitivity to photosynthesis

Phospholipase D (PLD) activity was found to be higher in etiolated oat seedlings than in green seedlings. White and red (R) light exposure inhibited PLD activity in etiolated seedlings. Far-red light eliminated R-light-induced decrease in PLD activity, indicating phytochrome participation in observed photomodulation. Inhibitor of electron transport in chloroplast 3-(3,4-dichlorophenyl)-1,1-dimethylurea stimulated and glucose suppressed PLD activity in green and etiolated oat seedlings, respectively. These results suggest that PLD activity in oat seedling is regulated by light with involvement of phytochrome photoreceptor, and associated with photosynthesis process.