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Literature DB >> 15647314

Cyclic electron transport in C3 plants: fact or artefact?

Abstract

The phenomenon of cyclic electron transport was first characterized in higher plant chloroplasts 50 years ago, yet there is still a debate about whether or not this is a physiological process. The recent isolation of mutants that appear to lack cyclic electron transport, as well as new data providing functional evidence for its occurrence, support the notion that this pathway plays an important role in plant responses to stress, providing a pH gradient across the thylakoid membrane to trigger non-photochemical quenching of chlorophyll fluorescence. At present, little is known about the regulation of cyclic electron transport, but it is possible that this is activated in response to a low redox potential in the chloroplast stroma.

Entities: Chemical

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Year: 2005 PMID： 15647314 DOI： 10.1093/jxb/eri106

Source DB: PubMed Journal: J Exp Bot ISSN： 0022-0957 Impact factor: 6.992

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Cited

41 in total

1. Electron transport in Tradescantia leaves acclimated to high and low light: thermoluminescence, PAM-fluorometry, and EPR studies.

Authors: Olesya A Kalmatskaya; Boris V Trubitsin; Igor S Suslichenko; Vladimir A Karavaev; Alexander N Tikhonov
Journal: Photosynth Res Date: 2020-06-27 Impact factor: 3.573

Review 2. Electrochromism: a useful probe to study algal photosynthesis.

Authors: Benjamin Bailleul; Pierre Cardol; Cécile Breyton; Giovanni Finazzi
Journal: Photosynth Res Date: 2010-07-15 Impact factor: 3.573

Review 3. The antimycin A-sensitive pathway of cyclic electron flow: from 1963 to 2015.

Authors: Mathias Labs; Thilo Rühle; Dario Leister
Journal: Photosynth Res Date: 2016-01-18 Impact factor: 3.573

Review 4. Obstacles in the quantification of the cyclic electron flux around Photosystem I in leaves of C3 plants.

Authors: Da-Yong Fan; Duncan Fitzpatrick; Riichi Oguchi; Weimin Ma; Jiancun Kou; Wah Soon Chow
Journal: Photosynth Res Date: 2016-02-04 Impact factor: 3.573

5. Evidence for active cyclic electron flow in twig chlorenchyma in the presence of an extremely deficient linear electron transport activity.

Authors: Ch Kotakis; Y Petropoulou; K Stamatakis; Ch Yiotis; Y Manetas
Journal: Planta Date: 2006-06-14 Impact factor: 4.116

6. Quantification of cyclic electron flow around Photosystem I in spinach leaves during photosynthetic induction.

Authors: Da-Yong Fan; Qin Nie; Alexander B Hope; Warwick Hillier; Barry J Pogson; Wah Soon Chow
Journal: Photosynth Res Date: 2007-01-09 Impact factor: 3.573

7. Conserved role of proton gradient regulation 5 in the regulation of PSI cyclic electron transport.

Authors: Terri A Long; Yuki Okegawa; Toshiharu Shikanai; Gregory W Schmidt; Sarah F Covert
Journal: Planta Date: 2008-07-29 Impact factor: 4.116

8. Reduction of the primary donor P700 of photosystem I during steady-state photosynthesis under low light in Arabidopsis.

Authors: Michito Tsuyama; Yoshichika Kobayashi
Journal: Photosynth Res Date: 2008-10-31 Impact factor: 3.573

9. Ascorbate peroxidase 1 plays a key role in the response of Arabidopsis thaliana to stress combination.

Authors: Shai Koussevitzky; Nobuhiro Suzuki; Serena Huntington; Leigh Armijo; Wei Sha; Diego Cortes; Vladimir Shulaev; Ron Mittler
Journal: J Biol Chem Date: 2008-10-13 Impact factor: 5.157

10. A qualitative analysis of the regulation of cyclic electron flow around photosystem I from the post-illumination chlorophyll fluorescence transient in Arabidopsis: a new platform for the in vivo investigation of the chloroplast redox state.

Authors: Eiji Gotoh; Masayoshi Matsumoto; Ken'ichi Ogawa; Yoshichika Kobayashi; Michito Tsuyama
Journal: Photosynth Res Date: 2010-02 Impact factor: 3.573