Miyake Chikahiro, Miyata Momoko, Shinzaki Yuki, Tomizawa Ken-ichi
Research Institute of Innovative Technology for the Earth, 9-2 Kizugawadai, Kizu-cho, Soraku-gun, Kyoto, 619-0292 Japan.
Plant Cell Physiol. 2005 Apr;46(4):629-37. doi: 10.1093/pcp/pci067. Epub 2005 Feb 8.
We hypothesized that cyclic electron flow around photosystem I (CEF-PSI) participates in the induction of non-photochemical quenching (NPQ) of chlorophyll (Chl) fluorescence when the rate of photosynthetic linear electron flow (LEF) is electron-acceptor limited. To test this hypothesis, the relationships among photosynthesis rate, electron fluxes through both PSI and PSII [Je(PSI) and Je(PSII)] and Chl fluorescence parameters were analyzed simultaneously in intact leaves of tobacco plants at several light intensities and partial pressures of ambient CO2 (Ca). At low light intensities, decreasing Ca lowered the photosynthesis rate, but Je(PSI) and Je(PSII) remained constant. Je(PSI) was larger than Je(PSII), indicating the existence of CEF-PSI. Increasing the light intensity enhanced photosynthesis and both Je(PSI) and Je (PSII). Je(PSI)/Je(PSII) also increased at high light and at high light and low Ca combined, showing a strong, positive relationship with NPQ of Chl fluorescence. These results indicated that CEF-PSI contributed to the dissipation of photon energy in excess of that consumed by photosynthesis by driving NPQ of Chl fluorescence. The main physiological function of CEF-PSI in photosynthesis of higher plants is discussed.
我们假设,当光合线性电子流(LEF)速率受电子受体限制时,围绕光系统I的循环电子流(CEF-PSI)参与叶绿素(Chl)荧光非光化学猝灭(NPQ)的诱导。为验证这一假设,我们在几种光照强度和环境CO₂分压(Ca)条件下,对烟草植株完整叶片中的光合速率、通过光系统I和光系统II的电子通量[Je(PSI)和Je(PSII)]以及Chl荧光参数之间的关系进行了同步分析。在低光照强度下,降低Ca会降低光合速率,但Je(PSI)和Je(PSII)保持恒定。Je(PSI)大于Je(PSII),表明存在CEF-PSI。增加光照强度会增强光合作用以及Je(PSI)和Je(PSII)。在高光强以及高光强和低Ca组合条件下,Je(PSI)/Je(PSII)也会增加,与Chl荧光NPQ呈强正相关。这些结果表明,CEF-PSI通过驱动Chl荧光NPQ,有助于光合过程中过剩光子能量的耗散。本文还讨论了CEF-PSI在高等植物光合作用中的主要生理功能。
