Access the full text.
Sign up today, get DeepDyve free for 14 days.
Patricia Müller, Xiao-Ping Li, K. Niyogi (2001)
Non-photochemical quenching. A response to excess light energy.Plant physiology, 125 4
E. Schulze, M. Caldwell (1995)
Ecophysiology of Photosynthesis
S. Lautner, T. Grams, R. Matyssek, J. Fromm (2005)
Characteristics of Electrical Signals in Poplar and Responses in Photosynthesis1Plant Physiology, 138
G. Berestovsky, A. Kataev (2005)
Voltage-gated calcium and Ca2+-activated chloride channels and Ca2+ transients: voltage-clamp studies of perfused and intact cells of CharaEuropean Biophysics Journal, 34
O. Kooten, J. Snel (1990)
The use of chlorophyll fluorescence nomenclature in plant stress physiologyPhotosynthesis Research, 25
M. Wacke, G. Thiel, M. Hütt (2003)
Ca2+ Dynamics during Membrane Excitation of Green Alga Chara: Model Simulations and Experimental DataThe Journal of Membrane Biology, 191
M. Salvucci, A. Portis, U. Heber, W. Ogren (1987)
Stimulation of thylakoid energization and ribulose‐bisphosphate carboxylase/oxygenase activation in Arabidopsis leaves by methyl viologenFEBS Letters, 221
J. Fromm, S. Lautner (2007)
Electrical signals and their physiological significance in plants.Plant, cell & environment, 30 3
V. Lunevsky, O. Zherelova, I. Vostrikov, G. Berestovsky (1983)
Excitation ofCharaceae cell membranes as a result of activation of calcium and chloride channelsThe Journal of Membrane Biology, 72
G. Schansker, S. Tóth, R. Strasser (2006)
Dark recovery of the Chl a fluorescence transient (OJIP) after light adaptation: the qT-component of non-photochemical quenching is related to an activated photosystem I acceptor side.Biochimica et biophysica acta, 1757 7
S. Shartzer, J. Fisahn, W. Lucas (1992)
Simultaneous measurement of extracellular current and membrane potential of Chara corallina internodal cells during light-induced modulation of H+ transport, 315
S. Muto, S. Izawa, S. Miyachi (1982)
Light‐induced Ca2+ uptake by intact chloroplastsFEBS Letters, 139
A. Bulychev, N. Kamzolkina (2006)
Differential effects of plasma membrane electric excitation on H+ fluxes and photosynthesis in characean cells.Bioelectrochemistry, 69 2
M. Beilby, T. Mimura, T. Shimmen (1993)
The proton pump, high pH channels, and excitation: voltage clamp studies of intact and perfused cells ofNitellopsis obtusaProtoplasma, 175
N. Bukhov, R. Carpentier (2004)
Alternative Photosystem I-Driven Electron Transport Routes: Mechanisms and FunctionsPhotosynthesis Research, 82
A. Bulychev, A. Cherkashin, A. Rubin, W. Vredenberg, V. Zykov, S. Müller (2001)
Comparative study on photosynthetic activity of chloroplasts in acid and alkaline zones of Chara corallina.Bioelectrochemistry, 53 2
G. Kreimer, M. Melkonian, E. Latzko (1985)
An electrogenic uniport mediates light‐dependent Ca2+ influx into intact spinach chloroplastsFEBS Letters, 180
C.H. Johnson, R. Shingles, W.F. Ettinger (2006)
The Structure and Function of Plastids
N. Krupenina, A. Bulychev (2007)
Action potential in a plant cell lowers the light requirement for non-photochemical energy-dependent quenching of chlorophyll fluorescence.Biochimica et biophysica acta, 1767 6
(2005)
Voltage - Gated Calcium and Ca 2 +Activated Chloride Channels and Ca 2 + Transients : VoltageClamp Studies of Perfused and Intact Cells of Chara , Eur
S. Létant, C. Schaldach, M. Johnson, A. Sawvel, W. Bourcier, W. Wilson (2006)
Pore conductivity control at the hundred-nanometer scale: an experimental and theoretical study.Small, 2 12
X. Yao, M. Bisson (1993)
Passive Proton Conductance Is the Major Reason for Membrane Depolarization and Conductance Increase in Chara buckellii in High-Salt Conditions, 103
U. Flügge, R. Benz (1984)
Pore‐forming activity in the outer membrane of the chloroplast envelopeFEBS Letters, 169
A. Bulychev, N. Kamzolkina, J. Luengviriya, A. Rubin, S. Müller (2004)
Effect of a Single Excitation Stimulus on Photosynthetic Activity and Light-dependent pH Banding in Chara CellsThe Journal of Membrane Biology, 202
G. Schansker, S. Tóth, R. Strasser (2005)
Methylviologen and dibromothymoquinone treatments of pea leaves reveal the role of photosystem I in the Chl a fluorescence rise OJIP.Biochimica et biophysica acta, 1706 3
H. Ekkehard, M. Stitt (1989)
Perturbation of photosynthesis in spinach leaf discs by low concentrations of methyl viologenPlanta, 179
H.E. Neuhaus, M. Stitt (1989)
Perturbation of Photosynthesis in Spinach Leaf Discs by Low Concentrations of Methyl Viologen. Influence of Increased Thylakoid Energization on ATP Synthesis, Electron Transport, Energy Dissipation, Light-Activation of the Calvin-Cycle Enzymes, and Control of Starch and Sucrose SynthesisPlanta, 179
C. Koziolek, T. Grams, U. Schreiber, R. Matyssek, J. Fromm (2004)
Transient knockout of photosynthesis mediated by electrical signals.The New phytologist, 161 3
C. Johnson, R. Shingles, W. Ettinger (2007)
Regulation and Role of Calcium Fluxes in the Chloroplast
U. Schreiber, W. Bilger, C. Neubauer (1994)
Chlorophyll fluorescence as a nonintrusive indicator for rapid assessment of in vivo photosynthesis
A. Bulychev, W. Vredenberg (2003)
Spatio-temporal patterns of photosystem II activity and plasma-membrane proton flows in Chara corallina cells exposed to overall and local illuminationPlanta, 218
Effects of inhibitors and cofactors of cyclic and noncyclic electron transport on nonphotochemical quenching of chlorophyll fluorescence induced by action potential (AP) was investigated in Chara corallina cells. Under control conditions, energy-dependent quenching (qE) develops upon the increase in photosynthetically active radiation (PAR); it also arises and reversibly disappears after AP generation at moderate irradiances. The treatment of cells with diuron (DCMU) completely eliminated qE established at high irradiances and qE induced by AP generation. The activation of cyclic electron transport by DCMU in combination with phenazine methosulfate restored qE at high irradiances but did not restore qE imposed after AP generation. The presence in the medium of a PSI acceptor, methyl viologen at concentrations from 100 μM to 0.83 mM had no effect on fluorescence and photosynthetic activity of chloroplasts until the application of a single excitatory stimulus. Once a single AP was generated in the presence of methyl viologen, it induced irreversible qE at a wide range of irradiances, which indicates the AP-triggered redirection of a part of electron flow from the main pathway to the artificial acceptor. It is concluded that AP generation opens access for permeation of a divalent cation methyl viologen from the medium to the chloroplast stroma across two membrane barriers, the plasmalemma and the inner membrane of the chloroplast envelope.
Russian Journal of Plant Physiology – Springer Journals
Published: Jan 20, 2011
Read and print from thousands of top scholarly journals.
Already have an account? Log in
Bookmark this article. You can see your Bookmarks on your DeepDyve Library.
To save an article, log in first, or sign up for a DeepDyve account if you don’t already have one.
Copy and paste the desired citation format or use the link below to download a file formatted for EndNote
Access the full text.
Sign up today, get DeepDyve free for 14 days.
All DeepDyve websites use cookies to improve your online experience. They were placed on your computer when you launched this website. You can change your cookie settings through your browser.