References
- Lautner S, Erhard T, Matyssek R, Fromm J. Characteristics of electrical signals in poplar and responses in photosynthesis. Plant Physiol 2005; 198:2200 - 2209
- Brenner ED, Stahlberg R, Mancuso S, Vivanco J, Baluska F, Van Volkenburgh E. Plant neurobiology: an integrated view of plant signalling. Plant Sci 2006; 11:413 - 419
- Gil PM, Gurovich L, Schaffer B, Alcayaga J, Rey S, Iturriaga R. J. Plant Physiol 2008; 165:1070 - 1078
- Zimmermann MH, Maischak A, Mithöfer W, Boland H, Felle H. System potentials, a novel electrical long-distance apoplastic signal in plants, induced by wounding. Plant Physiology 2009; 149:1593 - 1600
- Wacke M, Thiel G. Electrically triggered all-or-none liberation during action potentials in the giant alga Chara. J Gen Physiol 2001; 118:11 - 21
- Volkov AG, Dunkley T, Morgan S, Ruff D, Boyce Y, Labady A. Bioelectrochemical signalling in green plants induced by photo sensory systems. Bioelectrochemistry 2004; 63:91 - 94
- Volkov AG, Brown CL. Volkov G. Electrochemistry of plant life. Plant Electrophysiology: Theory and Methods New York Springer, 437 - 459
- Fromm J, Lautner S. Electrical signals and their physiological significance in plants. Plant Cell Environ 2007; 30:249 - 257
- Davis E. New functions for electrical signals in plants. New Phytologist 2004; 161:607 - 610
- Gelli A, Higgins VJ, Blumwald E. Activation of Plant Plasma Membrane Ca2+-Permeable Channels by Race-Specific Fungal Elicitors. Plant Physiol 1997; 113:269 - 279
- Stankovic B, Zawadzki T, Davies E. Characterization of the variation potential in sunflower. Plant Physiol 1997; 1153:1083 - 1088
- Mwesigwa J, Collins D, Volkov A. Electrochemical signaling in green plants: effects of 2,4-dinitrophenol on variation and action potentials in soybean. Bioelectrochemistry 2000; 51:201 - 205
- Zimmermann S, Nürnberger T, Frachisse JM, Wirtz W, Guern J, Hedrich R, et al. Receptor-mediated activation of a plant Ca2+-permeable ion channel involved in pathogen defense. Proc Natl Acad Sci USA 1997; 94:2751 - 2755
- Stankovic B, Davies E. The wound response in tomato involves rapid growth and electrical responses, systemically up-regulated transcription of proteinase inhibitor and calmodulin and down-regulated translation. Plant Cell Physiol 1998; 39:268 - 274
- Palmgren MG. Plant plasma membrane H+-ATPases: powerhouses for nutrient uptake. Annu Rev Plant Phys Plant Mol Biol 2001; 52:817 - 845
- Baluska F, Mancuso S, Volkmann D, Barlow P. Root apices as plant command centres: the unique ‘brainlike’ status of the root apex transition zone. Biologia (Bratisl.) 2004; 59:Suppl. 13 1 - 13
- Volkov AG. Green plants: electrochemical interfaces. J Electroanal Chem 2000; 483:150 - 156
- Fisahn J, Herde O, Willmitzer L, Pena-Cortes H. Analysis of the transient increase in cytosolic Ca2+ during the action potential of higher plants with high temporal resolution: Requirement of Ca2+ transients for induction of jasmonic acid biosynthesis and PINII gene expression. Plant Cell Physiol 2004; 45:456 - 459
- Datta P, Palit P. Relationship between environmental factors and diurnal variation of bioelectric potentials of an intact jute plant. Curr Sci 2004; 87:680 - 683
- Gurovich L, Hermosilla P. Electric signalling in fruit trees in response to water applications and light-darkness conditions. J Plant Physiology. 2009; 166:290 - 300
- Rhodes J, Thain J, Wildon D. The pathway for systemic electrical signal conduction in the wounded tomato plant. Planta 1996; 200:50 - 57
- Pyatygin S, Apritov A, Vodeneev A. Signaling role of action potential in higher plants. Plant Physiology 2008; 55:285 - 291
- Volkov AG, Adesina T, Jovanov E. Closing of Venus flytrap by electrical stimulation of motor cells. Plant Signal Behav 2007; 2:139 - 144
- Wildon DC, Thain JF, Minchin PEH, Gubb RI, Reilly JF, Skiper YD, et al. Electrical signalling and systemic proteinase inhibitor induction in the wounded plant. Nature 1992; 360:62 - 65
- Fromm J, Fei H. Electrical signalling and gas exchange in maize plants of drying soil. Plant Sci 1998; 132:203 - 213
- Grams TE, Koziolek C, Lautner S, Mayssser R, Fromm J. Distinct roles of electric and hydraulic signals on the reaction of leaf gas exchange upon reirrigation in Zea mays L. Plant Cell Enviorn 2007; 30:79 - 84
- Brault M, Amiar Z, Penarun AM, Monestier M, Zhang Z, Cornel D, et al. Plasma membrane depolarization induced by abscisic acid in Arabidopsis suspension cells involves reduction of proton pumping in addition to anion channel activation, which are both Ca2+ dependent. Plant Physiol 2004; 135:1 - 13
- Schaller A, Oecking C. Modulation of plasma membrane H+-ATPase activity differentially activates wound and pathogen defence responses in tomato plants. Plant Cell 1999; 11:263 - 272
- Baluska F, Volkmann D, Menzel D. Plant synapses: actin-based domains for cell-to-cell communication. Trends in Plant Sci 2005; 10:106 - 111
- Dziubinska H, Filek M, Koscielniak J, Trebacz K. Variation and action potentials evoked by thermal stimuli accompany enhancement of ethylene emission in distant non-stimulated leaves of Vicia faba minor seedlings. J Plant Physiol 2002; 160:1203 - 1210
- Gil PM, Gurovich L. Medición de señales eléctricas como herramienta de monitoreo de respuestas de palto (Persea americana Mill.) ante el contenido de agua en el suelo. Proc. VI World Avocado Congress 2007;
- Hlavácková V, Krchnák P, Nauš J, Novák O, Špundová, Strnad M. Electrical and chemical signals involved in short-term systemic photosynthetic responses of tobacco plants to local burning. Planta 2006; 225:235 - 244
- Sanderson B. Note on the electrical phenomena which accompany stimulation of leaf of Dionea muscipula. Proc R Soc 1873; 21:495 - 496
- Darwin C. Insectivorous plants 1875; London Murray,
- Bose JC. The nervous mechanism of plants 1926; London Longman Green,
- Stokes T. Plant neurobiology sprouts anew. The Scientist 2005; 19:24 - 25
- Stahlberg R. Historical overview on plant neurobiology. Plant Signal Behav 2006; 1:6 - 8
- Volkov A, Ranatunga DR. Plants as Environmental Biosensors. Plant Signal Behav 2006; 1:105 - 115
- Gurovich L. 2009; Real-Time Plant Water Potential Assessment Based on Electrical Signalling In Higher Plants Joint International Meeting. VII. International World Computers in Agriculture and American Society of Agricultural and Biological Engineers Annual Meeting Proceedings June 21 – June 24 Reno, Nevada paper No 095875
- Gibert D, Le Mouel JL, Lambs L, Nicolin F, Perrier F. Sap flow and daily electric potencial variations in tree trunk. Plant Sci 2006; 171:572 - 584
- Jackson MB. Long-distance signaling from roots to shoots assessed: the flooding story. J Exp Bot 2002; 53:175 - 181
- Wensuo J, Zhang J. Stomatal movements and long-distance signaling in plants. Plant Signal Behav 2008; 3:772 - 777
- Sanders D, Brownlee C, Harper J. Communicating With Calcium. Plant Cell 1999; 11:691 - 706
- McClung CR. Circadian rhythms in plants. Annu Rev Plant Physiol Plant Mol Biol 2001; 52:139 - 162
- Webb A. The physiology of circadian rhythms in Plants. New Phytologist 2003; 160:281 - 303
- Felle H, Zimmermann M. Systemic signalling in barley through action potentials. Planta 2007; 226:203 - 214
- Whitmarsh J. Raghavendra A.S. Photosynthetic Energy Transduction. Photosynthesis: A comprehensive treatise 2004; Cambridge University Press
- Ferreyra R, Selles G, Maldonado P, Celedón J, Gil P. Effects of environment, leaf characteristics and measuring methodology on stem water potential in avocado trees (Persea americana Mill.). Agricultura Técnica (Chile) 2007; 67:182 - 188
- Scholander PF, Hammel HT, Bradstreet ED, Hemmingsen EA. Sap pressure en vascular plants. Science 1965; 148:339 - 346