Inhibition of Photosystems I and II and Enhanced Back Flow of Photosystem I Electrons in Cucumber Leaf Discs Chilled in the Light

doi:10.1093/pcp/pce109

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Plant and Cell Physiology, 2001, Vol. 42, No. 8 842-848
© 2001 Oxford University Press

Inhibition of Photosystems I and II and Enhanced Back Flow of Photosystem I Electrons in Cucumber Leaf Discs Chilled in the Light

Sun-Ju Kim^,1^,3, Choon-Hwan Lee¹^,3, Alexander B. Hope¹^,2 and Wah Soon Chow^,1^,4

¹ Research School of Biological Sciences, Australian National University, GPO Box 475, Canberra, ACT 2601, Australia ² School of Biological Sciences, Flinders University, GPO Box 2100, Adelaide, SA 5001, Australia

Pre-illumination of cucumber leaf discs at a chilling temperaturein low-irradiance white light resulted in accelerated re-reductionof P700⁺ [the special Chl pair in the photosystem I (PSI) reactioncentre] when the far-red measuring light was turned off. Measurements(in ± methyl viologen or ± DCMU conditions) ofthe re-reduction half time suggest that accelerated re-reductionof P700⁺ appeared to be predominantly due to charge recombinationand only partly due to reductants sustained by previous cyclicelectron flow around PSI. Apparently, charge recombination inPSI was greatly enhanced by inhibition of forward, linear electronflow. Inhibition of PSII electron transport was observed tooccur to a lesser extent than that of PSI, but only if the measurementof PSII functionality was free from complications due to downstreamaccumulation of electrons in pools. We suggest that promotionof controlled charge recombination and cyclic electron flowround PSI during chilling of leaves in the light may partlyprevent further damage to both photosystems.

³ Permanent address: Department of Molecular Biology, Pusan NationalUniversity, Pusan, 609-735 Korea.

⁴ Corresponding author: E-mail, chow@rsbs.anu.edu.au; Fax, +61-2-6125-8056.

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