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Plant Signaling & Behavior Volume 3, 2008 - Issue 9
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Article Addendum

PA, a stress-induced short cut to switch-on ethylene signalling by switching-off CTR1?

Christa Testerink University of Amsterdam; Amsterdam, the Netherlands
,
Paul B. Larsen University of California-Riverside; Riverside, California USA
,
Fionn McLoughlin University of Amsterdam; Amsterdam, the Netherlands
,
Dieuwertje van der Does University of Amsterdam; Amsterdam, the Netherlands
,
John A.J. van Himbergen University of Amsterdam; Amsterdam, the Netherlands
&
Teun Munnik University of Amsterdam; Amsterdam, the Netherlands
Pages 681-683 | Received 21 Feb 2008, Accepted 28 Feb 2008, Published online: 01 Sep 2008

Figures & data

Figure 1 Only long-term ethylene treatment triggers PA accumulation in Arabidopsis suspension cells. Arabidopsis seedlings (A and C) or suspension cells (B) were labeled with 32Pi and subsequently treated with 500 µM ethephon (A and B) or 100 µM ACC (C). As a positive control for PA accumulation, seedlings were treated with 500 mM NaCl (C). Phospholipids were extracted, separated by alkaline TLC, visualized by autoradiography and quantified by PhosphoImaging.

Figure 1 Only long-term ethylene treatment triggers PA accumulation in Arabidopsis suspension cells. Arabidopsis seedlings (A and C) or suspension cells (B) were labeled with 32Pi and subsequently treated with 500 µM ethephon (A and B) or 100 µM ACC (C). As a positive control for PA accumulation, seedlings were treated with 500 mM NaCl (C). Phospholipids were extracted, separated by alkaline TLC, visualized by autoradiography and quantified by PhosphoImaging.

Figure 2 Model showing how PA could induce ethylene responses by inhibition of CTR1 activity and its interaction with the ethylene receptor ETR1. (A) Current model (adapted from Chen et al.Citation3) on the ethylene signaling cascade in air and in the presence of ethylene. Note that CTR1 is a negative regulator of all downstream ethylene responses. (B) By directly interfering with CTR1 activity, PA could in theory induce downstream ethylene responses even in the absence of ethylene itself. Alternatively, PA could supplement the effects of ethylene on CTR1 activity, potentially resulting in an increase in level of response with regard to magnitude or length.

Figure 2 Model showing how PA could induce ethylene responses by inhibition of CTR1 activity and its interaction with the ethylene receptor ETR1. (A) Current model (adapted from Chen et al.Citation3) on the ethylene signaling cascade in air and in the presence of ethylene. Note that CTR1 is a negative regulator of all downstream ethylene responses. (B) By directly interfering with CTR1 activity, PA could in theory induce downstream ethylene responses even in the absence of ethylene itself. Alternatively, PA could supplement the effects of ethylene on CTR1 activity, potentially resulting in an increase in level of response with regard to magnitude or length.

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