Abstract
In most terrestrial plants, stomata open during the day to maximize the update of CO2 for photosynthesis, but they close at night to minimize water loss. Blue light, among several environmental factors, controls this process. Stomata response to diverse stimuli seems to be dictated by the behaviour of neighbour stomata creating leaf areas of coordinated response. Here individual stomata of Arabidopsis leaves were illuminated with a short blue-light pulse by focusing a confocal argon laser. Beautifully, the illuminated stomata open their pores, whereas their dark-adapted neighbours unexpectedly experience no change. This induction of individual stomata opening by low fluence rates of blue light was disrupted in the phototropin1 phototropin2 (phot1 phot2) double mutant, which exhibits insensitivity of stomatal movements in blue-illuminated epidermal strips. The irradiation of all epidermal cells making direct contact with a given stoma in both wild type and phot1 phot2 plants does not trigger its movement. These results unravel the stoma autonomous function in the blue light response and illuminate the implication of PHOT1 and/or PHOT2 in such response. The micro spatial heterogeneity that solar blue light suffers in partially shaded leaves under natural conditions highlights the physiological significance of the autonomous stomatal behaviour.
Highlights
Stomatal pores are located on the plant epidermis and regulate CO2 uptake for photosynthesis and water loss to drive transpiration
Stomatal opening is induced by several environmental factors, among them, blue light [1,2,3]
The bluelight receptors PHOTOTROPIN1 (PHOT1) and (PHOTOTROPIN2) PHOT2 control this response. They mediate the stomatal opening, with both phot1 and phot2 single mutants being indistinguishable from wild-type plants when epidermal strips are illuminated with blue light, and phot1 phot2 double mutant exhibiting insensitivity of stomatal opening under these conditions [4]
Summary
Stomata open during the day to maximize the update of CO2 for photosynthesis, but they close at night to minimize water loss. The illuminated stomata open their pores, whereas their dark-adapted neighbours unexpectedly experience no change. This induction of individual stomata opening by low fluence rates of blue light was disrupted in the phototropin phototropin (phot phot2) double mutant, which exhibits insensitivity of stomatal movements in blue-illuminated epidermal strips. The irradiation of all epidermal cells making direct contact with a given stoma in both wild type and phot phot plants does not trigger its movement. These results unravel the stoma autonomous function in the blue light response and illuminate the implication of PHOT1 and/or PHOT2 in such response.
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