Electron flow to oxygen in higher plants and algae: rates and control of direct photoreduction (Mehler reaction) and rubisco oxygenase

Abstract: Linear electron transport in chloroplasts produces a number of reduced components associated with photosystem I (PS I) that may subsequently participate in reactions that reduce O 2 . The two primary reactions that have been extensively studied are: ¢rst, the direct reduction of O 2 to superoxide by reduced donors associated with PS I (the Mehler reaction), and second, the rubisco oxygenase (ribulose 1,5-bisphosphate carboxylase oxygenase EC 4.1.1.39) reaction and associated peroxisomal and mitochondrial react… Show more

“…However, photorespiration is not a protective mechanism when there is a chill-induced decrease in photosynthesis because the loss of Rubisco carboxylation is mirrored by a decline in oxygenase activity and therefore a reduction in photorespiration (Allen & Ort 2001). Furthermore, oxygenase has a relatively low affinity for O 2 compared with Mehler reactions, thus allowing these to proceed more effectively at low O 2 (Badger et al 2000). It has been argued that the water-water cycle is largely suppressed at 2% O 2 pressure (Wu, Neimanis & Heber 1991;Brestic et al 1995;Lovelock & Winter 1996;Kingston-Smith, Thomas & Foyer 1997;Miyake & Yokota 2000).…”

The relationship between CO₂ assimilation, photosynthetic electron transport and water–water cycle in chill‐exposed cucumber leaves under low light and subsequent recovery

“…However, photorespiration is not a protective mechanism when there is a chill-induced decrease in photosynthesis because the loss of Rubisco carboxylation is mirrored by a decline in oxygenase activity and therefore a reduction in photorespiration (Allen & Ort 2001). Furthermore, oxygenase has a relatively low affinity for O 2 compared with Mehler reactions, thus allowing these to proceed more effectively at low O 2 (Badger et al 2000). It has been argued that the water-water cycle is largely suppressed at 2% O 2 pressure (Wu, Neimanis & Heber 1991;Brestic et al 1995;Lovelock & Winter 1996;Kingston-Smith, Thomas & Foyer 1997;Miyake & Yokota 2000).…”

The relationship between CO₂ assimilation, photosynthetic electron transport and water–water cycle in chill‐exposed cucumber leaves under low light and subsequent recovery

“…Exposure of wheat to NO 3 -did not increase J O2 , the total rate of electron transport through the photosynthetic apparatus (Figs 1c & 3c). The relatively large increase in net O 2 exchange as compared to net CO 2 exchange of the MAP reactions to form water (Badger et al 2000). The O 2 stoichiometry of these reactions is such that one molecule of O 2 is produced from the oxygen-evolving complex of PSII for each molecule of O 2 consumed during the MAP reactions (von Caemmerer 2000).…”

Oxygen consumption during leaf nitrate assimilation in a C₃ and C₄ plant: the role of mitochondrial respiration

“…This leads to an over-reduction of the photosynthetic electron transport chain, and electrons from the temperature-and CO 2 -independent light reaction are then transferred to oxygen at photosystem I (PSI) or via the MEHLER REACTION (see Glossary) which generates ROS [10,11] (Box 1). ROS induce oxidative stress and damage because of their high reactive potential and so are detoxified by scavenging mechanisms such as superoxide dismutase and the glutathione-ascorbate cycle [12].…”

Chloroplast redox signals: how photosynthesis controls its own genes