Cyclic Electron Flow within PSII Functions in Intact Chloroplasts from Spinach Leaves

doi:10.1093/pcp/pcf113

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Plant and Cell Physiology, 2002, Vol. 43, No. 8 951-957
© 2002 Oxford University Press

Cyclic Electron Flow within PSII Functions in Intact Chloroplasts from Spinach Leaves

Chikahiro Miyake¹^,3, Kuniaki Yonekura¹, Yoshichika Kobayashi¹ and Akiho Yokota²

¹ Graduate School of Bioresource and Bioenvironmental Sciences, Kyushu University, 6-10-1, Hakozaki, Higashi-ku, Fukuoka, 812-8581 Japan
² Graduate School of Biological Science, Nara Institute of Science and Technology, 8916-5 Takayama, Ikoma, Nara, 630-0101 Japan

Using thylakoid membranes, we previously demonstrated that accumulatedelectrons in the photosynthetic electron transport system inducesthe electron flow from the acceptor side of PSII to its donorside only in the presence of a pH gradient ( ${Delta}$ pH) across the thylakoidmembranes. This electron flow has been referred to as cyclicelectron flow within PSII (CEF-PSII) [Miyake and Yokota (2001)Plant Cell Physiol. 42: 508]. In the present study, we examinedwhether CEF-PSII operates in isolated intact chloroplasts fromspinach leaves, by correlating the quantum yield of PSII [ ${Phi}$ (PSII)]with the activity of the linear electron flow [V(O₂)]. The additionof the protonophore nigericin to the intact chloroplasts decreased ${Phi}$ (PSII), but increased V(O₂), and relative electron flux in PSII[ ${Phi}$ (PSII) x PFD] and V(O₂) were proportional to one another. ${Phi}$ (PSII)x PFD at a given V(O₂) was much higher in the presence of ${Delta}$ pHthan that in its absence. These effects of nigericin on therelationship between ${Phi}$ (PSII) x PFD and V(O₂) are consistent withthose previously observed in thylakoid membranes, indicatingthe occurrence of CEF-PSII also in intact chloroplasts. In thepresence of ${Delta}$ pH, CEF-PSII accounted for the excess electron fluxin PSII that could not be attributed to photosynthetic linearelectron flow. The activity of CEF-PSII increased with increasedlight intensity and almost corresponded to that of the water–watercycle (WWC), implying that CEF-PSII can dissipate excess photonenergy in cooperation with WWC to protect PSII from photoinhibitionunder limited photosynthesis conditions.

³ Corresponding author: E-mail, cmiyake@brs.kyushu-u.ac.jp; Fax,+81-92-642-4424.

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