2013
DOI: 10.1111/pce.12059
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Plastid terminal oxidase (PTOX) has the potential to act as a safety valve for excess excitation energy in the alpine plant species Ranunculus glacialisL.

Abstract: Ranunculus glacialis leaves were tested for their plastid terminal oxidase (PTOX) content and electron flow to photorespiration and to alternative acceptors. In shade-leaves, the PTOX and NAD(P)H dehydrogenase (NDH) content were markedly lower than in sun-leaves. Carbon assimilation/light and Ci response curves were not different in sun- and shade-leaves, but photosynthetic capacity was the highest in sun-leaves. Based on calculation of the apparent specificity factor of ribulose 1.5-bisphosphate carboxylase/o… Show more

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Cited by 87 publications
(87 citation statements)
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“…We tested the effect of water stress on chloroplast and mitochondria electron transfer which can result in oxidative stress (Bartoli et al, 2005). Expression of the chloroplast PTOX gene is part of the stress response of some plant species (Johnson and Stepien, 2016) (Laureau et al, 2013). A low level of PTOX expression was detected in cowpea in control conditions (Fig.…”
Section: Progressive Drought Triggers Expression Of Stress-response Amentioning
confidence: 99%
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“…We tested the effect of water stress on chloroplast and mitochondria electron transfer which can result in oxidative stress (Bartoli et al, 2005). Expression of the chloroplast PTOX gene is part of the stress response of some plant species (Johnson and Stepien, 2016) (Laureau et al, 2013). A low level of PTOX expression was detected in cowpea in control conditions (Fig.…”
Section: Progressive Drought Triggers Expression Of Stress-response Amentioning
confidence: 99%
“…PTOX is upregulated by stress in some plant species (Laureau et al, 2013) (Stepien and Johnson, 2009) (Johnson and Stepien, 2016). PTOX electron transfer to dioxygen, bypassing photosynthetic cytochrome B6f and photosystem I, may act as a safety valve for transfer of excess electrons from the photosynthetic electron transfer chain and ROS formation (Laureau et al, 2013)(Krieger-Liszkay and Feilke, 2015) (Nawrocki et al, 2015).…”
Section: Stress Response Revealed By Gene Expressionmentioning
confidence: 99%
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“…The dissipation of excess excitation energy as thermal energy before reaching RCII, estimated as NPQ NSV , prevents excess electron transport and over-reduction of the ETC. After the initial charge separation in RCII, excess electron transport and over-reduction of the ETC can be alleviated by a number of alternative electron pathways; the upregulation of which will increase K c /n PSII (e.g., Bailey et al, 2008;Cardol et al, 2011;Laureau et al, 2013;Mackey et al, 2008;McDonald et al, 2011;Niyogi, 2000;Streb et al, 2005;Vass, 2011;Zehr and Kudela, 2009). Thus, both NPQ NSV and K c /n PSII respond strongly to excess excitation pressure, providing a possible mechanistic interpretation for their correlation.…”
Section: Linking K C /N Psii and Npq Nsvmentioning
confidence: 99%
“…reaction kinetics operate in the opposite direction and are therefore not likely to explain low oxygen evolution rates in acidified samples in the present study. It is still un known if PTOX activity can generally act as a safety valve under stress conditions in higher plants, partly due to open questions regarding reduction kinetics in this pathway (Trouillard et al 2012, Laureau et al 2013). Nevertheless, it is possible that this mechanism is employed under pH shock conditions in Chlo rella as electron redox systems can participate in homeostasis (Houyoux et al 2011).…”
Section: Ph-dependent Acclimation Patternsmentioning
confidence: 99%