Reversal by Green Light of Blue Light-stimulated Stomatal Opening in Intact, Attached Leaves of Arabidopsis Operates Only in the Potassium-dependent, Morning Phase of Movement

doi:10.1093/pcp/pci249

Plant and Cell Physiology Advance Access originally published online on January 17, 2006
Plant and Cell Physiology 2006 47(3):332-339; doi:10.1093/pcp/pci249

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Reversal by Green Light of Blue Light-stimulated Stomatal Opening in Intact, Attached Leaves of Arabidopsis Operates Only in the Potassium-dependent, Morning Phase of Movement

Lawrence D. Talbott, Jamila W. Hammad, Lucy Cien Harn, Vi Hai Nguyen, Jaynita Patel and Eduardo Zeiger^*

Department of Ecology and Evolutionary Biology, University of California, Los Angeles, 900 Veteran Avenue, Los Angeles, CA 90024, USA

^* Corresponding author: E-mail, zeiger{at}biology.ucla.edu; Fax, +1-310-825-9433.

Green light reversal of blue light-stimulated stomatal openingwas discovered in isolated stomata. The present study showsthat the response also occurs in stomata from intact leaves.Arabidopsis thaliana plants were grown in a growth chamber underblue, red and green light. Removal of the green light openedthe stomata and restoration of green light closed them to baselinevalues under experimental conditions that rule out a mesophyll-mediatedeffect. Assessment of the response to green light over a dailytime course showed that the stomatal sensitivity to green lightwas observed only in the morning, which coincided with the useof potassium as a guard cell osmoticum. Sensitivity to greenlight was absent during the afternoon phase of stomatal movement,which was previously shown to be dominated by sucrose osmoregulationin Vicia faba. Hence, the shift away from potassium-based osmoregulationin guard cells is further postulated to entail a shift fromblue light to photosynthesis as the primary component of thestomatal response to light. Stomata from intact leaves of thezeaxanthin-less, npq1 mutant of Arabidopsis failed to respondto the removal or restoration of green light in the growth chamber,or to short, high fluence pulses of blue or green light. Thesedata confirm previous studies showing that npq1 stomata aredevoid of a specific blue light response. In contrast, stomatafrom intact leaves of phot1 phot2 double mutant plants had areduced but readily detectable response to the removal of greenlight and to blue and green pulses.

(Received October 21, 2005; Accepted December 19, 2005)
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